#!/usr/bin/env python
"""\
@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 sys
import os
import os.path
import shutil
import errno
import json
import plistlib
import random
import re
import stat
import subprocess
import tarfile
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
from llbase 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="app_settings"):
                self.exclude("logcontrol.xml")
                self.exclude("logcontrol-dev.xml")
                self.path("*.ini")
                self.path("*.xml")
                self.path("*.db2")

                # include the entire shaders directory recursively
                self.path("shaders")
                # include the extracted list of contributors
                contributions_path = "../../doc/contributions.txt"
                contributor_names = self.extract_names(contributions_path)
                self.put_in_file(contributor_names, "contributors.txt", src=contributions_path)

                # ... 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,dst=""):
                    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 = {}
                if 'sourceid' in self.args and self.args['sourceid']:
                    settings_install['sourceid'] = settings_template['sourceid'].copy()
                    settings_install['sourceid']['Value'] = self.args['sourceid']
                    print "Set sourceid in settings_install.xml to '%s'" % self.args['sourceid']

                if 'channel_suffix' in self.args and self.args['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 'grid' in self.args and self.args['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="character"):
                self.path("*.llm")
                self.path("*.xml")
                self.path("*.tga")

            # Include our fonts
            with self.prefix(src="fonts"):
                self.path("*.ttf")
                self.path("*.txt")

            # skins
            with self.prefix(src="skins"):
                    # include the entire textures directory recursively
                    with self.prefix(src="*/textures"):
                            self.path("*/*.tga")
                            self.path("*/*.j2c")
                            self.path("*/*.jpg")
                            self.path("*/*.png")
                            self.path("*.tga")
                            self.path("*.j2c")
                            self.path("*.jpg")
                            self.path("*.png")
                            self.path("textures.xml")
                    self.path("*/xui/*/*.xml")
                    self.path("*/xui/*/widgets/*.xml")
                    self.path("*/*.xml")

                    # Local HTML files (e.g. loading screen)
                    # The claim is that we never use local html files any
                    # longer. But rather than commenting out this block, let's
                    # rename every html subdirectory as html.old. That way, if
                    # we're wrong, a user actually does have the relevant
                    # files; s/he just needs to rename every html.old
                    # directory back to html to recover them.
                    with self.prefix(src="*/html", dst="*/html.old"):
                            self.path("*.png")
                            self.path("*/*/*.html")
                            self.path("*/*/*.gif")


            # local_assets dir (for pre-cached textures)
            with self.prefix(src="local_assets"):
                self.path("*.j2c")
                self.path("*.tga")

            # File in the newview/ directory
            self.path("gpu_table.txt")

            #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",
                            }
            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()
        if 'channel_suffix' in self.args and self.args['channel_suffix']:
            fullchannel+=' '+self.args['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'
        global CHANNEL_VENDOR_BASE
        channel_qualifier=self.channel().replace(CHANNEL_VENDOR_BASE, "").lower().strip()
        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 len(suffix) > 0:
            suffix = "_"+ ("_".join(suffix.split()))
        # the additional_packages mechanism adds more to the installer name (but not to the app name itself)
        if 'channel_suffix' in self.args and self.args['channel_suffix']:
            suffix+='_'+("_".join(self.args['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 app_name_oneword(self):
        return ''.join(self.app_name().split())
    
    def icon_path(self):
        return "icons/" + self.channel_type()

    def extract_names(self,src):
        try:
            contrib_file = open(src,'r')
        except IOError:
            print "Failed to open '%s'" % src
            raise
        lines = contrib_file.readlines()
        contrib_file.close()

        # 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/2/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))


class WindowsManifest(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'

    def final_exe(self):
        return self.app_name_oneword()+".exe"

    def finish_build_data_dict(self, build_data_dict):
        #MAINT-7294: Windows exe names depend on channel name, so write that in also
        build_data_dict.update({'Executable':self.final_exe()})
        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['configuration'].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['configuration'].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(WindowsManifest, 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")

        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())

            with self.prefix(src=os.path.join(pkgdir, "VMP"), dst=""):
                # include the compiled launcher scripts so that it gets included in the file_list
                self.path('SL_Launcher.exe')
                #IUM is not normally executed directly, just imported.  No exe needed.
                self.path("InstallerUserMessage.py")

            with self.prefix(src=self.icon_path(), dst="vmp_icons"):
                self.path("secondlife.ico")

            #VMP  Tkinter icons
            with self.prefix("vmp_icons"):
                self.path("*.png")
                self.path("*.gif")

            #before, we only needed llbase at build time.  With VMP, we need it at run time.
            with self.prefix(src=os.path.join(pkgdir, "lib", "python", "llbase"), dst="llbase"):
                self.path("*.py")
                self.path("_cllsd.so")

        # 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(os.pardir, 'sharedlibs', self.args['configuration']),
                       dst=""):

            # Get llcommon and deps. If missing assume static linkage and continue.
            try:
                self.path('llcommon.dll')
                self.path('libapr-1.dll')
                self.path('libaprutil-1.dll')
                self.path('libapriconv-1.dll')
                
            except RuntimeError as err:
                print err.message
                print "Skipping llcommon.dll (assuming llcommon was linked statically)"

            # Mesh 3rd party libs needed for auto LOD and collada reading
            try:
                self.path("glod.dll")
            except RuntimeError as err:
                print err.message
                print "Skipping GLOD library (assumming linked statically)"

            # Get fmodex dll, continue if missing
            try:
                if(self.address_size == 64):
                    self.path("fmodex64.dll")
                else:
                    self.path("fmodex.dll")
            except:
                print "Skipping fmodex audio library(assuming other audio engine)"

            # For textures
            self.path("openjpeg.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
            if self.args['configuration'].lower() == 'debug':
                self.path("msvcr120d.dll")
                self.path("msvcp120d.dll")
                self.path("msvcr100d.dll")
                self.path("msvcp100d.dll")
            else:
                self.path("msvcr120.dll")
                self.path("msvcp120.dll")
                self.path("msvcr100.dll")
                self.path("msvcp100.dll")

            # Vivox runtimes
            self.path("SLVoice.exe")
            if (self.address_size == 64):
                self.path("vivoxsdk_x64.dll")
                self.path("ortp_x64.dll")
            else:
                self.path("vivoxsdk.dll")
                self.path("ortp.dll")
            self.path("libsndfile-1.dll")
            self.path("vivoxoal.dll")
            
            # Security
            self.path("ssleay32.dll")
            self.path("libeay32.dll")

            # HTTP/2
            self.path("nghttp2.dll")

            # Hunspell
            self.path("libhunspell.dll")

            # For google-perftools tcmalloc allocator.
            try:
                if self.args['configuration'].lower() == 'debug':
                    self.path('libtcmalloc_minimal-debug.dll')
                else:
                    self.path('libtcmalloc_minimal.dll')
            except:
                print "Skipping libtcmalloc_minimal.dll"


        self.path(src="licenses-win32.txt", dst="licenses.txt")
        self.path("featuretable.txt")

        with self.prefix(src=pkgdir,dst=""):
            self.path("ca-bundle.crt")

        # Media plugins - CEF
        with self.prefix(src='../media_plugins/cef/%s' % self.args['configuration'], dst="llplugin"):
            self.path("media_plugin_cef.dll")

        # Media plugins - LibVLC
        with self.prefix(src='../media_plugins/libvlc/%s' % self.args['configuration'], dst="llplugin"):
            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='../media_plugins/example/%s' % self.args['configuration'], dst="llplugin"):
                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), dst="llplugin"):
            self.path("chrome_elf.dll")
            self.path("d3dcompiler_43.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("natives_blob.bin")
            self.path("snapshot_blob.bin")
            self.path("widevinecdmadapter.dll")

        # MSVC DLLs needed for CEF and have to be in same directory as plugin
        with self.prefix(src=os.path.join(os.pardir, 'sharedlibs', 'Release'), dst="llplugin"):
            self.path("msvcp120.dll")
            self.path("msvcr120.dll")

        # CEF files common to all configurations
        with self.prefix(src=os.path.join(pkgdir, 'resources'), dst="llplugin"):
            self.path("cef.pak")
            self.path("cef_100_percent.pak")
            self.path("cef_200_percent.pak")
            self.path("cef_extensions.pak")
            self.path("devtools_resources.pak")
            self.path("icudtl.dat")

        with self.prefix(src=os.path.join(pkgdir, 'resources', 'locales'), dst=os.path.join('llplugin', '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'), dst="llplugin"):
            self.path("libvlc.dll")
            self.path("libvlccore.dll")
            self.path("plugins/")

        # pull in the crash logger and updater from other projects
        # tag:"crash-logger" here as a cue to the exporter
        self.path(src='../win_crash_logger/%s/windows-crash-logger.exe' % self.args['configuration'],
                  dst="win_crash_logger.exe")

        if not self.is_packaging_viewer():
            self.package_file = "copied_deps"    

    def nsi_file_commands(self, install=True):
        def wpath(path):
            if path.endswith('/') or path.endswith(os.path.sep):
                path = path[:-1]
            path = path.replace('/', '\\')
            return 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(lambda a,b: cmp(a.count(os.path.sep),b.count(os.path.sep)) or cmp(a,b))
        dest_files.reverse()
        out_path = None
        for pkg_file in dest_files:
            rel_file = os.path.normpath(pkg_file.replace(self.get_dst_prefix()+os.path.sep,''))
            installed_dir = wpath(os.path.join('$INSTDIR', os.path.dirname(rel_file)))
            pkg_file = wpath(os.path.normpath(pkg_file))
            if installed_dir != out_path:
                if install:
                    out_path = installed_dir
                    result += 'SetOutPath ' + out_path + '\n'
            if install:
                result += 'File ' + pkg_file + '\n'
            else:
                result += 'Delete ' + wpath(os.path.join('$INSTDIR', rel_file)) + '\n'

        # at the end of a delete, just rmdir all the directories
        if not install:
            deleted_file_dirs = [os.path.dirname(pair[1].replace(self.get_dst_prefix()+os.path.sep,'')) for pair in self.file_list]
            # find all ancestors so that we don't skip any dirs that happened to have no non-dir children
            deleted_dirs = []
            for d in deleted_file_dirs:
                deleted_dirs.extend(path_ancestors(d))
            # sort deepest hierarchy first
            deleted_dirs.sort(lambda a,b: cmp(a.count(os.path.sep),b.count(os.path.sep)) or cmp(a,b))
            deleted_dirs.reverse()
            prev = None
            for d in deleted_dirs:
                if d != prev:   # skip duplicates
                    result += 'RMDir ' + wpath(os.path.join('$INSTDIR', os.path.normpath(d))) + '\n'
                prev = d

        return 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(%s)' %
            ('.'.join(self.args['version']), self.address_size),
            '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 "SL_Launcher.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"
            """

        if(self.address_size == 64):
            engage_registry="SetRegView 64"
            program_files="$PROGRAMFILES64"
        else:
            engage_registry="SetRegView 32"
            program_files="$PROGRAMFILES32"

        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,
                "%%SOURCE%%":self.get_src_prefix(),
                "%%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)})

        # If we're on a build machine, sign the code using our Authenticode certificate. JC
        # note that the enclosing setup exe is signed later, after the makensis makes it.
        # Unlike the viewer binary, the VMP filenames are invariant with respect to version, os, etc.
        for exe in (
            "SL_Launcher.exe",
            ):
            self.sign(exe)
            
        # We use the Unicode version of NSIS, available from
        # http://www.scratchpaper.com/
        # Check two paths, one for Program Files, and one for Program Files (x86).
        # Yay 64bit windows.
        for ProgramFiles in 'ProgramFiles', 'ProgramFiles(x86)':
            NSIS_path = os.path.expandvars(r'${%s}\NSIS\Unicode\makensis.exe' % ProgramFiles)
            if os.path.exists(NSIS_path):
                break
        installer_created=False
        nsis_attempts=3
        nsis_retry_wait=15
        for attempt in xrange(nsis_attempts):
            try:
                self.run_command([NSIS_path, '/V2', self.dst_path_of(tempfile)])
            except ManifestError as err:
                if attempt+1 < nsis_attempts:
                    print >> sys.stderr, "nsis failed, waiting %d seconds before retrying" % nsis_retry_wait
                    time.sleep(nsis_retry_wait)
                    nsis_retry_wait*=2
            else:
                # NSIS worked! Done!
                break
        else:
            print >> sys.stderr, "Maximum nsis attempts exceeded; giving up"
            raise

        self.sign(installer_file)
        self.created_path(self.dst_path_of(installer_file))
        self.package_file = installer_file

    def sign(self, exe):
        sign_py = os.environ.get('SIGN', r'C:\buildscripts\code-signing\sign.py')
        python  = os.environ.get('PYTHON', 'python')
        if os.path.exists(sign_py):
            dst_path = self.dst_path_of(exe)
            print "about to run signing of: ", dst_path
            self.run_command([python, sign_py, dst_path])
        else:
            print "Skipping code signing of %s: %s not found" % (exe, sign_py)

    def escape_slashes(self, path):
        return path.replace('\\', '\\\\\\\\')

class Windows_i686_Manifest(WindowsManifest):
    # Although we aren't literally passed ADDRESS_SIZE, we can infer it from
    # the passed 'arch', which is used to select the specific subclass.
    address_size = 32

class Windows_x86_64_Manifest(WindowsManifest):
    address_size = 64


class DarwinManifest(ViewerManifest):
    build_data_json_platform = 'mac'

    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 construct(self):
        # These are the names of the top-level application and the embedded
        # applications for the VMP and for the actual viewer, respectively.
        # These names, without the .app suffix, determine the flyover text for
        # their corresponding Dock icons.
        toplevel_app, toplevel_icon = "Second Life.app",          "secondlife.icns"
        launcher_app, launcher_icon = "Second Life Launcher.app", "secondlife.icns"
        viewer_app,   viewer_icon   = "Second Life Viewer.app",   "secondlife.icns"

        # copy over the build result (this is a no-op if run within the xcode script)
        self.path(os.path.join(self.args['configuration'], toplevel_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")

        # -------------------- top-level Second Life.app ---------------------
        # top-level Second Life application is only a container
        with self.prefix(src="", dst="Contents"):  # everything goes in Contents
            # top-level Info.plist is as generated by CMake
            Info_plist = "Info.plist"
            ## This self.path() call reports 0 files... skip?
            self.path(Info_plist)
            Info_plist = self.dst_path_of(Info_plist)

            # the one file in top-level MacOS directory is the trampoline to
            # our nested launcher_app
            with self.prefix(dst="MacOS"):
                toplevel_MacOS = self.get_dst_prefix()
                trampoline = self.put_in_file("""\
#!/bin/bash
open "%s" --args "$@"
""" %
                    # up one directory from MacOS to its sibling Resources directory
                    os.path.join('$(dirname "$0")', os.pardir, 'Resources', launcher_app),
                    "SL_Launcher",      # write this file
                    "trampoline")       # flag to add to list of copied files
                # Script must be executable
                self.run_command(["chmod", "+x", trampoline])

            # Make a symlink to a nested app Frameworks directory that doesn't
            # yet exist. We shouldn't need this; the only things that need
            # Frameworks are nested apps under viewer_app, and they should
            # simply find its Contents/Frameworks by relative pathnames. But
            # empirically, we do: if we omit this symlink, CEF doesn't work --
            # the login splash screen doesn't even display. SIIIIGH.
            # We're passing a path that's already relative, hence symlinkf()
            # rather than relsymlinkf().
            self.symlinkf(os.path.join("Resources", viewer_app, "Contents", "Frameworks"))

            with self.prefix(src="", dst="Resources"):
                # top-level Resources directory should be pretty sparse
                # need .icns file referenced by top-level Info.plist
                with self.prefix(src=self.icon_path(), dst="") :
                    self.path(toplevel_icon)

                # ------------------- nested launcher_app --------------------
                with self.prefix(dst=os.path.join(launcher_app, "Contents")):
                    # Info.plist is just like top-level one...
                    Info = plistlib.readPlist(Info_plist)
                    # except for these replacements:
                    Info["CFBundleExecutable"] = "SL_Launcher"
                    Info["CFBundleIconFile"] = launcher_icon
                    self.put_in_file(
                        plistlib.writePlistToString(Info),
                        os.path.basename(Info_plist),
                        "Info.plist")

                    # copy VMP libs to MacOS
                    with self.prefix(dst="MacOS"):              
                        #this copies over the python wrapper script,
                        #associated utilities and required libraries, see
                        #SL-321, SL-322, SL-323
                        with self.prefix(src=os.path.join(pkgdir, "VMP"), dst=""):
                            self.path("SL_Launcher")
                            self.path("*.py")
                            # certifi will be imported by requests; this is
                            # our custom version to get our ca-bundle.crt
                            self.path("certifi")
                        with self.prefix(src=os.path.join(pkgdir, "lib", "python"), dst=""):
                            # llbase provides our llrest service layer and llsd decoding
                            with self.prefix("llbase"):
                                # (Why is llbase treated specially here? What
                                # DON'T we want to copy out of lib/python/llbase?)
                                self.path("*.py")
                                self.path("_cllsd.so")
                            #requests module needed by llbase/llrest.py
                            #this is only needed on POSIX, because in Windows
                            #we compile it into the EXE
                            for pypkg in "chardet", "idna", "requests", "urllib3":
                                self.path(pypkg)

                    # launcher_app/Contents/Resources
                    with self.prefix(dst="Resources"):
                        with self.prefix(src=self.icon_path(), dst="") :
                            self.path(launcher_icon)
                            with self.prefix(dst="vmp_icons"):
                                self.path("secondlife.ico")
                        #VMP Tkinter icons
                        with self.prefix("vmp_icons"):
                            self.path("*.png")
                            self.path("*.gif")

                # -------------------- nested viewer_app ---------------------
                with self.prefix(dst=os.path.join(viewer_app, "Contents")):
                    # Info.plist is just like top-level one...
                    Info = plistlib.readPlist(Info_plist)
                    # except for these replacements:
                    # (CFBundleExecutable may be moot: SL_Launcher directly
                    # runs the executable, instead of launching the app)
                    Info["CFBundleExecutable"] = "Second Life"
                    Info["CFBundleIconFile"] = viewer_icon
                    self.put_in_file(
                        plistlib.writePlistToString(Info),
                        os.path.basename(Info_plist),
                        "Info.plist")

                    # CEF framework goes inside viewer_app/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)

                    with self.prefix(dst="MacOS"):
                        # CMake constructs the Second Life executable in the
                        # MacOS directory belonging to the top-level Second
                        # Life.app. Move it here.
                        here = self.get_dst_prefix()
                        relbase = os.path.realpath(os.path.dirname(Info_plist))
                        self.cmakedirs(here)
                        for f in os.listdir(toplevel_MacOS):
                            if f == os.path.basename(trampoline):
                                # don't move the trampoline script we just made!
                                continue
                            fromwhere = os.path.join(toplevel_MacOS, f)
                            towhere   = os.path.join(here, f)
                            print "Moving %s => %s" % \
                                  (self.relpath(fromwhere, relbase),
                                   self.relpath(towhere, relbase))
                            # now do it, only without relativizing paths
                            os.rename(fromwhere, towhere)

                        # 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', self.dst_path_of('Second Life')])

                    with self.prefix(dst="Resources"):
                        # defer cross-platform file copies until we're in the right
                        # nested Resources directory
                        super(DarwinManifest, self).construct()

                        with self.prefix(src=self.icon_path(), dst="") :
                            self.path(viewer_icon)

                        with self.prefix(src=relpkgdir, dst=""):
                            self.path("libndofdev.dylib")
                            self.path("libhunspell-1.3.0.dylib")   

                        with self.prefix("cursors_mac"):
                            self.path("*.tif")

                        self.path("licenses-mac.txt", dst="licenses.txt")
                        self.path("featuretable_mac.txt")
                        self.path("SecondLife.nib")

                        with self.prefix(src=pkgdir,dst=""):
                            self.path("ca-bundle.crt")

                        self.path("SecondLife.nib")

                        # 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)
                            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:]]
                            if not added:
                                print "Skipping %s" % dst
                            return added

                        # 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()
                        libfile = "libllcommon.dylib"
                        dylibs = path_optional(self.find_existing_file(os.path.join(os.pardir,
                                                                       "llcommon",
                                                                       self.args['configuration'],
                                                                       libfile),
                                                                       os.path.join(relpkgdir, libfile)),
                                               dst=libfile)

                        for libfile in (
                                        "libapr-1.0.dylib",
                                        "libaprutil-1.0.dylib",
                                        "libcollada14dom.dylib",
                                        "libexpat.1.dylib",
                                        "libexception_handler.dylib",
                                        "libGLOD.dylib",
                                        # libnghttp2.dylib is a symlink to
                                        # libnghttp2.major.dylib, which is a symlink to
                                        # libnghttp2.version.dylib. Get all of them.
                                        "libnghttp2.*dylib",
                                        ):
                            dylibs += path_optional(os.path.join(relpkgdir, libfile), libfile)

                        # SLVoice and vivox lols, no symlinks needed
                        for libfile in (
                                        'libortp.dylib',
                                        'libsndfile.dylib',
                                        'libvivoxoal.dylib',
                                        'libvivoxsdk.dylib',
                                        'libvivoxplatform.dylib',
                                        'SLVoice',
                                        ):
                            self.path2basename(relpkgdir, libfile)

                        # dylibs that vary based on configuration
                        if self.args['configuration'].lower() == 'debug':
                            for libfile in (
                                        "libfmodexL.dylib",
                                        ):
                                dylibs += path_optional(os.path.join(debpkgdir, libfile), libfile)
                        else:
                            for libfile in (
                                        "libfmodex.dylib",
                                        ):
                                dylibs += path_optional(os.path.join(relpkgdir, libfile), libfile)

                        # our apps
                        executable_path = {}
                        for app_bld_dir, app in (("mac_crash_logger", "mac-crash-logger.app"),
                                                 # plugin launcher
                                                 (os.path.join("llplugin", "slplugin"), "SLPlugin.app"),
                                                 ):
                            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)

                            # copy DullahanHelper.app
                            self.path2basename(relpkgdir, 'DullahanHelper.app')

                            # and fix that up with a Frameworks/CEF symlink too
                            with self.prefix(dst=os.path.join(
                                'DullahanHelper.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.
                                DullahanHelper_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(
                                'DullahanHelper.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(DullahanHelper_framework, symlink=True),
                                    frameworkname)
                                # and restamp the DullahanHelper executable
                                self.run_command(
                                    change_command +
                                    [newpath, self.dst_path_of('DullahanHelper')])

                        # 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
                            self.path2basename("../media_plugins/libvlc/" + self.args['configuration'],
                                               "media_plugin_libvlc.dylib")

                            # 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):
        global CHANNEL_VENDOR_BASE
        # MBW -- If the mounted volume name changes, it breaks the .DS_Store's background image and icon positioning.
        #  If we really need differently named volumes, we'll need to create multiple DS_Store file images, or use some other trick.

        volname=CHANNEL_VENDOR_BASE+" Installer"  # DO NOT CHANGE without understanding comment above

        imagename = self.installer_base_name()

        sparsename = imagename + ".sparseimage"
        finalname = imagename + ".dmg"
        # make sure we don't have stale files laying about
        self.remove(sparsename, finalname)

        self.run_command(['hdiutil', 'create', sparsename,
                          '-volname', volname, '-fs', 'HFS+',
                          '-type', 'SPARSE', '-megabytes', '1300',
                          '-layout', 'SPUD'])

        # mount the image and get the name of the mount point and device node
        try:
            hdi_output = subprocess.check_output(['hdiutil', 'attach', '-private', sparsename])
        except subprocess.CalledProcessError as err:
            sys.exit("failed to mount image at '%s'" % sparsename)
            
        try:
            devfile = re.search("/dev/disk([0-9]+)[^s]", hdi_output).group(0).strip()
            volpath = re.search('HFS\s+(.+)', hdi_output).group(1).strip()

            if devfile != '/dev/disk1':
                # adding more debugging info based upon nat's hunches to the
                # logs to help track down 'SetFile -a V' failures -brad
                print "WARNING: 'SetFile -a V' command below is probably gonna fail"

            # Copy everything in to the mounted .dmg

            app_name = self.app_name()

            # Hack:
            # Because there is no easy way to coerce the Finder into positioning
            # the app bundle in the same place with different app names, we are
            # adding multiple .DS_Store files to svn. There is one for release,
            # one for release candidate and one for first look. Any other channels
            # will use the release .DS_Store, and will look broken.
            # - Ambroff 2008-08-20
            dmg_template = os.path.join(
                'installers', 'darwin', '%s-dmg' % self.channel_type())

            if not os.path.exists (self.src_path_of(dmg_template)):
                dmg_template = os.path.join ('installers', 'darwin', 'release-dmg')

            for s,d in {self.get_dst_prefix():app_name + ".app",
                        os.path.join(dmg_template, "_VolumeIcon.icns"): ".VolumeIcon.icns",
                        os.path.join(dmg_template, "background.jpg"): "background.jpg",
                        os.path.join(dmg_template, "_DS_Store"): ".DS_Store"}.items():
                print "Copying to dmg", s, d
                self.copy_action(self.src_path_of(s), os.path.join(volpath, d))

            # Hide the background image, DS_Store file, and volume icon file (set their "visible" bit)
            for f in ".VolumeIcon.icns", "background.jpg", ".DS_Store":
                pathname = os.path.join(volpath, f)
                # We've observed mysterious "no such file" failures of the SetFile
                # command, especially on the first file listed above -- yet
                # subsequent inspection of the target directory confirms it's
                # there. Timing problem with copy command? Try to handle.
                for x in xrange(3):
                    if os.path.exists(pathname):
                        print "Confirmed existence: %r" % pathname
                        break
                    print "Waiting for %s copy command to complete (%s)..." % (f, x+1)
                    sys.stdout.flush()
                    time.sleep(1)
                # If we fall out of the loop above without a successful break, oh
                # well, possibly we've mistaken the nature of the problem. In any
                # case, don't hang up the whole build looping indefinitely, let
                # the original problem manifest by executing the desired command.
                self.run_command(['SetFile', '-a', 'V', pathname])

            # Create the alias file (which is a resource file) from the .r
            self.run_command(
                ['Rez', self.src_path_of("installers/darwin/release-dmg/Applications-alias.r"),
                 '-o', os.path.join(volpath, "Applications")])

            # Set the alias file's alias and custom icon bits
            self.run_command(['SetFile', '-a', 'AC', os.path.join(volpath, "Applications")])

            # Set the disk image root's custom icon bit
            self.run_command(['SetFile', '-a', 'C', volpath])

            # Sign the app if requested; 
            # do this in the copy that's in the .dmg so that the extended attributes used by 
            # the signature are preserved; moving the files using python will leave them behind
            # and invalidate the signatures.
            if 'signature' in self.args:
                app_in_dmg=os.path.join(volpath,self.app_name()+".app")
                print "Attempting to sign '%s'" % app_in_dmg
                identity = self.args['signature']
                if identity == '':
                    identity = 'Developer ID Application'

                # Look for an environment variable set via build.sh when running in Team City.
                try:
                    build_secrets_checkout = os.environ['build_secrets_checkout']
                except KeyError:
                    pass
                else:
                    # variable found so use it to unlock keychain followed by codesign
                    home_path = os.environ['HOME']
                    keychain_pwd_path = os.path.join(build_secrets_checkout,'code-signing-osx','password.txt')
                    keychain_pwd = open(keychain_pwd_path).read().rstrip()

                    # Note: As of macOS Sierra, keychains are created with names postfixed with '-db' so for example, the
                    #       SL Viewer keychain would by default be found in ~/Library/Keychains/viewer.keychain-db instead of
                    #       just ~/Library/Keychains/viewer.keychain in earlier versions.
                    #
                    #       Because we have old OS files from previous versions of macOS on the build hosts, the configurations
                    #       are different on each host. Some have viewer.keychain, some have viewer.keychain-db and some have both.
                    #       As you can see in the line below, this script expects the Linden Developer cert/keys to be in viewer.keychain.
                    #
                    #       To correctly sign builds you need to make sure ~/Library/Keychains/viewer.keychain exists on the host
                    #       and that it contains the correct cert/key. If a build host is set up with a clean version of macOS Sierra (or later)
                    #       then you will need to change this line (and the one for 'codesign' command below) to point to right place or else
                    #       pull in the cert/key into the default viewer keychain 'viewer.keychain-db' and export it to 'viewer.keychain'
                    viewer_keychain = os.path.join(home_path, 'Library',
                                                   'Keychains', 'viewer.keychain')
                    self.run_command(['security', 'unlock-keychain',
                                      '-p', keychain_pwd, viewer_keychain])
                    signed=False
                    sign_attempts=3
                    sign_retry_wait=15
                    while (not signed) and (sign_attempts > 0):
                        try:
                            sign_attempts-=1;
                            self.run_command(
                                # Note: See blurb above about names of keychains
                               ['codesign', '--verbose', '--deep', '--force',
                                '--keychain', viewer_keychain, '--sign', identity,
                                app_in_dmg])
                            signed=True # if no exception was raised, the codesign worked
                        except ManifestError as err:
                            if sign_attempts:
                                print >> sys.stderr, "codesign failed, waiting %d seconds before retrying" % sign_retry_wait
                                time.sleep(sign_retry_wait)
                                sign_retry_wait*=2
                            else:
                                print >> sys.stderr, "Maximum codesign attempts exceeded; giving up"
                                raise
                    self.run_command(['spctl', '-a', '-texec', '-vv', app_in_dmg])

            imagename="SecondLife_" + '_'.join(self.args['version'])


        finally:
            # Unmount the image even if exceptions from any of the above 
            self.run_command(['hdiutil', 'detach', '-force', devfile])

        print "Converting temp disk image to final disk image"
        self.run_command(['hdiutil', 'convert', sparsename, '-format', 'UDZO',
                          '-imagekey', 'zlib-level=9', '-o', finalname])
        self.run_command(['hdiutil', 'internet-enable', '-yes', finalname])
        # get rid of the temp file
        self.package_file = finalname
        self.remove(sparsename)


class Darwin_i386_Manifest(DarwinManifest):
    address_size = 32


class Darwin_i686_Manifest(DarwinManifest):
    """alias in case arch is passed as i686 instead of i386"""
    pass


class Darwin_x86_64_Manifest(DarwinManifest):
    address_size = 64


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", dst=""):
            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(src="", 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(src="", 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("SL_Launcher")
                self.path("*.py")
            with self.prefix(src=os.path.join("lib", "python", "llbase"), dst="llbase"):
                self.path("*.py")
                self.path("_cllsd.so")         

        # 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, dst="") :
            self.path("secondlife_256.png","secondlife_icon.png")
            with self.prefix(src="",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")

        with self.prefix(src=pkgdir,dst=""):
            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.bz2'

        # 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.bz2', installer_name])
            else:
                print "Skipping %s.tar.bz2 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', 'SL_Launcher',
                 '!', '-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(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("libGLOD.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("libopenjpeg.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

            try:
                self.path("libfmodex-*.so")
                self.path("libfmodex.so")
                pass
            except:
                print "Skipping libfmodex.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.path("libvivoxplatform.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__":
    main()