CMake/Modules/BundleUtilities.cmake

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Simplify CMake per-source license notices Per-source copyright/license notice headers that spell out copyright holder names and years are hard to maintain and often out-of-date or plain wrong. Precise contributor information is already maintained automatically by the version control tool. Ultimately it is the receiver of a file who is responsible for determining its licensing status, and per-source notices are merely a convenience. Therefore it is simpler and more accurate for each source to have a generic notice of the license name and references to more detailed information on copyright holders and full license terms. Our `Copyright.txt` file now contains a list of Contributors whose names appeared source-level copyright notices. It also references version control history for more precise information. Therefore we no longer need to spell out the list of Contributors in each source file notice. Replace CMake per-source copyright/license notice headers with a short description of the license and links to `Copyright.txt` and online information available from "https://cmake.org/licensing". The online URL also handles cases of modules being copied out of our source into other projects, so we can drop our notices about replacing links with full license text. Run the `Utilities/Scripts/filter-notices.bash` script to perform the majority of the replacements mechanically. Manually fix up shebang lines and trailing newlines in a few files. Manually update the notices in a few files that the script does not handle.
2016-09-27 19:01:08 +00:00
# Distributed under the OSI-approved BSD 3-Clause License. See accompanying
# file Copyright.txt or https://cmake.org/licensing for details.
#.rst:
# BundleUtilities
# ---------------
#
# Functions to help assemble a standalone bundle application.
#
# A collection of CMake utility functions useful for dealing with .app
# bundles on the Mac and bundle-like directories on any OS.
#
# The following functions are provided by this module:
#
# ::
#
# fixup_bundle
# copy_and_fixup_bundle
# verify_app
# get_bundle_main_executable
# get_dotapp_dir
# get_bundle_and_executable
# get_bundle_all_executables
# get_item_key
# get_item_rpaths
# clear_bundle_keys
# set_bundle_key_values
# get_bundle_keys
# copy_resolved_item_into_bundle
# copy_resolved_framework_into_bundle
# fixup_bundle_item
# verify_bundle_prerequisites
# verify_bundle_symlinks
#
# Requires CMake 2.6 or greater because it uses function, break and
# PARENT_SCOPE. Also depends on GetPrerequisites.cmake.
#
# ::
#
# FIXUP_BUNDLE(<app> <libs> <dirs>)
#
# Fix up a bundle in-place and make it standalone, such that it can be
# drag-n-drop copied to another machine and run on that machine as long
# as all of the system libraries are compatible.
#
# If you pass plugins to fixup_bundle as the libs parameter, you should
# install them or copy them into the bundle before calling fixup_bundle.
# The "libs" parameter is a list of libraries that must be fixed up, but
# that cannot be determined by otool output analysis. (i.e., plugins)
#
# Gather all the keys for all the executables and libraries in a bundle,
# and then, for each key, copy each prerequisite into the bundle. Then
# fix each one up according to its own list of prerequisites.
#
# Then clear all the keys and call verify_app on the final bundle to
# ensure that it is truly standalone.
#
# As an optional parameter (IGNORE_ITEM) a list of file names can be passed,
# which are then ignored (e.g. IGNORE_ITEM "vcredist_x86.exe;vcredist_x64.exe")
#
# ::
#
# COPY_AND_FIXUP_BUNDLE(<src> <dst> <libs> <dirs>)
#
# Makes a copy of the bundle <src> at location <dst> and then fixes up
# the new copied bundle in-place at <dst>...
BundleUtilities: error if fixup_bundle_item called on non-embedded item Also, improve the documentation of the fixup_bundle and fixup_bundle_item functions to clarify that plugin type "libs" need to be copied into the bundle *before* calling fixup_bundle. Commit e93a4b4d3421ced7b8c852b76c0dcb427f798df8 changed the way that the libs parameter to fixup_bundle is interpreted. Before the commit, the libs were copied into the bundle first and then fixed up. After the commit, the copy was skipped, assuming the libs were in the bundle in the first place, and then the fixups occurred as before. However, before the commit, it was possible to name a lib from outside the bundle, and have it copied in and then fixed up. Its resolved embedded name was always inside the bundle before. After, its resolved embedded name was just the same as its resolved name, which is in its original location, and not necessarily inside the bundle. This manifested itself as a problem with the ParaView call to fixup_bundle and its many plugins. Previously, ParaView had simply passed in the list of plugin file names as they existed in the build tree, and left the copying into the bundle up to the fixup_bundle function. When built with CMake 2.8.3 (the first version to contain the above named commit) the fixup_bundle call would inadventently fixup libraries in the build tree, not libraries that were in the bundle. Furthermore, the plugins would not be in the final bundle. This points out the fact that the fix for the bugs made by the above commit was a backwards-incompatible change in behavior. This commit makes it an error to try to fixup an item that is not already inside the bundle to make the change in behavior apparent to folks who were depending on the prior copy-in behavior: now, they should get an error, and hopefully, reading the new and improved documentation, should be able to resolve it in their projects by adding code to install or copy in such libraries prior to calling fixup_bundle. Whew.
2010-12-06 21:01:00 +00:00
#
# ::
#
# VERIFY_APP(<app>)
#
# Verifies that an application <app> appears valid based on running
# analysis tools on it. Calls "message(FATAL_ERROR" if the application
# is not verified.
#
# As an optional parameter (IGNORE_ITEM) a list of file names can be passed,
# which are then ignored (e.g. IGNORE_ITEM "vcredist_x86.exe;vcredist_x64.exe")
#
# ::
#
# GET_BUNDLE_MAIN_EXECUTABLE(<bundle> <result_var>)
#
# The result will be the full path name of the bundle's main executable
# file or an "error:" prefixed string if it could not be determined.
#
# ::
#
# GET_DOTAPP_DIR(<exe> <dotapp_dir_var>)
#
# Returns the nearest parent dir whose name ends with ".app" given the
# full path to an executable. If there is no such parent dir, then
# simply return the dir containing the executable.
#
# The returned directory may or may not exist.
#
# ::
#
# GET_BUNDLE_AND_EXECUTABLE(<app> <bundle_var> <executable_var> <valid_var>)
#
# Takes either a ".app" directory name or the name of an executable
# nested inside a ".app" directory and returns the path to the ".app"
# directory in <bundle_var> and the path to its main executable in
# <executable_var>
#
# ::
#
# GET_BUNDLE_ALL_EXECUTABLES(<bundle> <exes_var>)
#
# Scans the given bundle recursively for all executable files and
# accumulates them into a variable.
#
# ::
#
# GET_ITEM_KEY(<item> <key_var>)
#
# Given a file (item) name, generate a key that should be unique
# considering the set of libraries that need copying or fixing up to
# make a bundle standalone. This is essentially the file name including
# extension with "." replaced by "_"
#
# This key is used as a prefix for CMake variables so that we can
# associate a set of variables with a given item based on its key.
#
# ::
#
# CLEAR_BUNDLE_KEYS(<keys_var>)
#
# Loop over the list of keys, clearing all the variables associated with
# each key. After the loop, clear the list of keys itself.
#
# Caller of get_bundle_keys should call clear_bundle_keys when done with
# list of keys.
#
# ::
#
# SET_BUNDLE_KEY_VALUES(<keys_var> <context> <item> <exepath> <dirs>
# <copyflag> [<rpaths>])
#
# Add a key to the list (if necessary) for the given item. If added,
# also set all the variables associated with that key.
#
# ::
#
# GET_BUNDLE_KEYS(<app> <libs> <dirs> <keys_var>)
#
# Loop over all the executable and library files within the bundle (and
# given as extra <libs>) and accumulate a list of keys representing
# them. Set values associated with each key such that we can loop over
# all of them and copy prerequisite libs into the bundle and then do
# appropriate install_name_tool fixups.
#
# As an optional parameter (IGNORE_ITEM) a list of file names can be passed,
# which are then ignored (e.g. IGNORE_ITEM "vcredist_x86.exe;vcredist_x64.exe")
#
# ::
#
# COPY_RESOLVED_ITEM_INTO_BUNDLE(<resolved_item> <resolved_embedded_item>)
#
# Copy a resolved item into the bundle if necessary. Copy is not
# necessary if the resolved_item is "the same as" the
# resolved_embedded_item.
#
# ::
#
# COPY_RESOLVED_FRAMEWORK_INTO_BUNDLE(<resolved_item> <resolved_embedded_item>)
#
# Copy a resolved framework into the bundle if necessary. Copy is not
# necessary if the resolved_item is "the same as" the
# resolved_embedded_item.
#
# By default, BU_COPY_FULL_FRAMEWORK_CONTENTS is not set. If you want
# full frameworks embedded in your bundles, set
# BU_COPY_FULL_FRAMEWORK_CONTENTS to ON before calling fixup_bundle. By
# default, COPY_RESOLVED_FRAMEWORK_INTO_BUNDLE copies the framework
# dylib itself plus the framework Resources directory.
#
# ::
#
# FIXUP_BUNDLE_ITEM(<resolved_embedded_item> <exepath> <dirs>)
#
# Get the direct/non-system prerequisites of the resolved embedded item.
# For each prerequisite, change the way it is referenced to the value of
# the _EMBEDDED_ITEM keyed variable for that prerequisite. (Most likely
# changing to an "@executable_path" style reference.)
#
# This function requires that the resolved_embedded_item be "inside" the
# bundle already. In other words, if you pass plugins to fixup_bundle
# as the libs parameter, you should install them or copy them into the
# bundle before calling fixup_bundle. The "libs" parameter is a list of
# libraries that must be fixed up, but that cannot be determined by
# otool output analysis. (i.e., plugins)
#
# Also, change the id of the item being fixed up to its own
# _EMBEDDED_ITEM value.
#
# Accumulate changes in a local variable and make *one* call to
# install_name_tool at the end of the function with all the changes at
# once.
#
# If the BU_CHMOD_BUNDLE_ITEMS variable is set then bundle items will be
# marked writable before install_name_tool tries to change them.
#
# ::
#
# VERIFY_BUNDLE_PREREQUISITES(<bundle> <result_var> <info_var>)
#
# Verifies that the sum of all prerequisites of all files inside the
# bundle are contained within the bundle or are "system" libraries,
# presumed to exist everywhere.
#
# As an optional parameter (IGNORE_ITEM) a list of file names can be passed,
# which are then ignored (e.g. IGNORE_ITEM "vcredist_x86.exe;vcredist_x64.exe")
#
# ::
#
# VERIFY_BUNDLE_SYMLINKS(<bundle> <result_var> <info_var>)
#
# Verifies that any symlinks found in the bundle point to other files
# that are already also in the bundle... Anything that points to an
# external file causes this function to fail the verification.
# The functions defined in this file depend on the get_prerequisites function
# (and possibly others) found in:
#
get_filename_component(BundleUtilities_cmake_dir "${CMAKE_CURRENT_LIST_FILE}" PATH)
include("${BundleUtilities_cmake_dir}/GetPrerequisites.cmake")
function(get_bundle_main_executable bundle result_var)
set(result "error: '${bundle}/Contents/Info.plist' file does not exist")
if(EXISTS "${bundle}/Contents/Info.plist")
set(result "error: no CFBundleExecutable in '${bundle}/Contents/Info.plist' file")
set(line_is_main_executable 0)
set(bundle_executable "")
# Read Info.plist as a list of lines:
#
set(eol_char "E")
file(READ "${bundle}/Contents/Info.plist" info_plist)
string(REPLACE ";" "\\;" info_plist "${info_plist}")
string(REPLACE "\n" "${eol_char};" info_plist "${info_plist}")
string(REPLACE "\r" "${eol_char};" info_plist "${info_plist}")
# Scan the lines for "<key>CFBundleExecutable</key>" - the line after that
# is the name of the main executable.
#
foreach(line ${info_plist})
if(line_is_main_executable)
string(REGEX REPLACE "^.*<string>(.*)</string>.*$" "\\1" bundle_executable "${line}")
break()
endif()
if(line MATCHES "<key>CFBundleExecutable</key>")
set(line_is_main_executable 1)
endif()
endforeach()
if(NOT "${bundle_executable}" STREQUAL "")
if(EXISTS "${bundle}/Contents/MacOS/${bundle_executable}")
set(result "${bundle}/Contents/MacOS/${bundle_executable}")
else()
# Ultimate goal:
# If not in "Contents/MacOS" then scan the bundle for matching files. If
# there is only one executable file that matches, then use it, otherwise
# it's an error...
#
#file(GLOB_RECURSE file_list "${bundle}/${bundle_executable}")
# But for now, pragmatically, it's an error. Expect the main executable
# for the bundle to be in Contents/MacOS, it's an error if it's not:
#
set(result "error: '${bundle}/Contents/MacOS/${bundle_executable}' does not exist")
endif()
endif()
else()
#
# More inclusive technique... (This one would work on Windows and Linux
# too, if a developer followed the typical Mac bundle naming convention...)
#
# If there is no Info.plist file, try to find an executable with the same
# base name as the .app directory:
#
endif()
set(${result_var} "${result}" PARENT_SCOPE)
endfunction()
function(get_dotapp_dir exe dotapp_dir_var)
set(s "${exe}")
if(s MATCHES "/.*\\.app/")
# If there is a ".app" parent directory,
# ascend until we hit it:
# (typical of a Mac bundle executable)
#
set(done 0)
while(NOT ${done})
get_filename_component(snamewe "${s}" NAME_WE)
get_filename_component(sname "${s}" NAME)
get_filename_component(sdir "${s}" PATH)
set(s "${sdir}")
if(sname MATCHES "\\.app$")
set(done 1)
set(dotapp_dir "${sdir}/${sname}")
endif()
endwhile()
else()
# Otherwise use a directory containing the exe
# (typical of a non-bundle executable on Mac, Windows or Linux)
#
is_file_executable("${s}" is_executable)
if(is_executable)
get_filename_component(sdir "${s}" PATH)
set(dotapp_dir "${sdir}")
else()
set(dotapp_dir "${s}")
endif()
endif()
set(${dotapp_dir_var} "${dotapp_dir}" PARENT_SCOPE)
endfunction()
function(get_bundle_and_executable app bundle_var executable_var valid_var)
set(valid 0)
if(EXISTS "${app}")
# Is it a directory ending in .app?
if(IS_DIRECTORY "${app}")
if(app MATCHES "\\.app$")
get_bundle_main_executable("${app}" executable)
if(EXISTS "${app}" AND EXISTS "${executable}")
set(${bundle_var} "${app}" PARENT_SCOPE)
set(${executable_var} "${executable}" PARENT_SCOPE)
set(valid 1)
#message(STATUS "info: handled .app directory case...")
else()
message(STATUS "warning: *NOT* handled - .app directory case...")
endif()
else()
message(STATUS "warning: *NOT* handled - directory but not .app case...")
endif()
else()
# Is it an executable file?
is_file_executable("${app}" is_executable)
if(is_executable)
get_dotapp_dir("${app}" dotapp_dir)
if(EXISTS "${dotapp_dir}")
set(${bundle_var} "${dotapp_dir}" PARENT_SCOPE)
set(${executable_var} "${app}" PARENT_SCOPE)
set(valid 1)
#message(STATUS "info: handled executable file in .app dir case...")
else()
get_filename_component(app_dir "${app}" PATH)
set(${bundle_var} "${app_dir}" PARENT_SCOPE)
set(${executable_var} "${app}" PARENT_SCOPE)
set(valid 1)
#message(STATUS "info: handled executable file in any dir case...")
endif()
else()
message(STATUS "warning: *NOT* handled - not .app dir, not executable file...")
endif()
endif()
else()
message(STATUS "warning: *NOT* handled - directory/file does not exist...")
endif()
if(NOT valid)
set(${bundle_var} "error: not a bundle" PARENT_SCOPE)
set(${executable_var} "error: not a bundle" PARENT_SCOPE)
endif()
set(${valid_var} ${valid} PARENT_SCOPE)
endfunction()
function(get_bundle_all_executables bundle exes_var)
set(exes "")
if(UNIX)
find_program(find_cmd "find")
mark_as_advanced(find_cmd)
endif()
# find command is much quicker than checking every file one by one on Unix
# which can take long time for large bundles, and since anyway we expect
# executable to have execute flag set we can narrow the list much quicker.
if(find_cmd)
execute_process(COMMAND "${find_cmd}" "${bundle}"
-type f \( -perm -0100 -o -perm -0010 -o -perm -0001 \)
OUTPUT_VARIABLE file_list
OUTPUT_STRIP_TRAILING_WHITESPACE
)
string(REPLACE "\n" ";" file_list "${file_list}")
else()
file(GLOB_RECURSE file_list "${bundle}/*")
endif()
foreach(f ${file_list})
is_file_executable("${f}" is_executable)
if(is_executable)
set(exes ${exes} "${f}")
endif()
endforeach()
set(${exes_var} "${exes}" PARENT_SCOPE)
endfunction()
function(get_item_rpaths item rpaths_var)
if(APPLE)
find_program(otool_cmd "otool")
mark_as_advanced(otool_cmd)
endif()
if(otool_cmd)
execute_process(
COMMAND "${otool_cmd}" -l "${item}"
OUTPUT_VARIABLE load_cmds_ov
)
string(REGEX REPLACE "[^\n]+cmd LC_RPATH\n[^\n]+\n[^\n]+path ([^\n]+) \\(offset[^\n]+\n" "rpath \\1\n" load_cmds_ov "${load_cmds_ov}")
string(REGEX MATCHALL "rpath [^\n]+" load_cmds_ov "${load_cmds_ov}")
string(REGEX REPLACE "rpath " "" load_cmds_ov "${load_cmds_ov}")
if(load_cmds_ov)
foreach(rpath ${load_cmds_ov})
gp_append_unique(${rpaths_var} "${rpath}")
endforeach()
endif()
endif()
if(UNIX AND NOT APPLE)
file(READ_ELF ${item} RPATH rpath_var RUNPATH runpath_var CAPTURE_ERROR error_var)
get_filename_component(item_dir ${item} DIRECTORY)
foreach(rpath ${rpath_var} ${runpath_var})
# Substitute $ORIGIN with the exepath and add to the found rpaths
string(REPLACE "$ORIGIN" "${item_dir}" rpath "${rpath}")
gp_append_unique(${rpaths_var} "${rpath}")
endforeach()
endif()
set(${rpaths_var} ${${rpaths_var}} PARENT_SCOPE)
endfunction()
function(get_item_key item key_var)
get_filename_component(item_name "${item}" NAME)
if(WIN32)
string(TOLOWER "${item_name}" item_name)
endif()
string(REPLACE "." "_" ${key_var} "${item_name}")
set(${key_var} ${${key_var}} PARENT_SCOPE)
endfunction()
function(clear_bundle_keys keys_var)
foreach(key ${${keys_var}})
set(${key}_ITEM PARENT_SCOPE)
set(${key}_RESOLVED_ITEM PARENT_SCOPE)
set(${key}_DEFAULT_EMBEDDED_PATH PARENT_SCOPE)
set(${key}_EMBEDDED_ITEM PARENT_SCOPE)
set(${key}_RESOLVED_EMBEDDED_ITEM PARENT_SCOPE)
set(${key}_COPYFLAG PARENT_SCOPE)
set(${key}_RPATHS PARENT_SCOPE)
endforeach()
set(${keys_var} PARENT_SCOPE)
endfunction()
function(set_bundle_key_values keys_var context item exepath dirs copyflag)
if(ARGC GREATER 6)
set(rpaths "${ARGV6}")
else()
set(rpaths "")
endif()
get_filename_component(item_name "${item}" NAME)
get_item_key("${item}" key)
list(LENGTH ${keys_var} length_before)
gp_append_unique(${keys_var} "${key}")
list(LENGTH ${keys_var} length_after)
if(NOT length_before EQUAL length_after)
gp_resolve_item("${context}" "${item}" "${exepath}" "${dirs}" resolved_item "${rpaths}")
gp_item_default_embedded_path("${item}" default_embedded_path)
get_item_rpaths("${resolved_item}" item_rpaths)
if((NOT item MATCHES "\\.dylib$") AND (item MATCHES "[^/]+\\.framework/"))
# For frameworks, construct the name under the embedded path from the
# opening "${item_name}.framework/" to the closing "/${item_name}":
#
string(REGEX REPLACE "^.*(${item_name}.framework/.*/?${item_name}).*$" "${default_embedded_path}/\\1" embedded_item "${item}")
else()
# For other items, just use the same name as the original, but in the
# embedded path:
#
set(embedded_item "${default_embedded_path}/${item_name}")
endif()
# Replace @executable_path and resolve ".." references:
#
string(REPLACE "@executable_path" "${exepath}" resolved_embedded_item "${embedded_item}")
get_filename_component(resolved_embedded_item "${resolved_embedded_item}" ABSOLUTE)
# *But* -- if we are not copying, then force resolved_embedded_item to be
# the same as resolved_item. In the case of multiple executables in the
# original bundle, using the default_embedded_path results in looking for
# the resolved executable next to the main bundle executable. This is here
# so that exes in the other sibling directories (like "bin") get fixed up
# properly...
#
if(NOT copyflag)
set(resolved_embedded_item "${resolved_item}")
endif()
set(${keys_var} ${${keys_var}} PARENT_SCOPE)
set(${key}_ITEM "${item}" PARENT_SCOPE)
set(${key}_RESOLVED_ITEM "${resolved_item}" PARENT_SCOPE)
set(${key}_DEFAULT_EMBEDDED_PATH "${default_embedded_path}" PARENT_SCOPE)
set(${key}_EMBEDDED_ITEM "${embedded_item}" PARENT_SCOPE)
set(${key}_RESOLVED_EMBEDDED_ITEM "${resolved_embedded_item}" PARENT_SCOPE)
set(${key}_COPYFLAG "${copyflag}" PARENT_SCOPE)
set(${key}_RPATHS "${item_rpaths}" PARENT_SCOPE)
set(${key}_RDEP_RPATHS "${rpaths}" PARENT_SCOPE)
else()
#message("warning: item key '${key}' already in the list, subsequent references assumed identical to first")
endif()
endfunction()
function(get_bundle_keys app libs dirs keys_var)
set(${keys_var} PARENT_SCOPE)
set(options)
set(oneValueArgs)
set(multiValueArgs IGNORE_ITEM)
cmake_parse_arguments(CFG "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN} )
get_bundle_and_executable("${app}" bundle executable valid)
if(valid)
# Always use the exepath of the main bundle executable for @executable_path
# replacements:
#
get_filename_component(exepath "${executable}" PATH)
# But do fixups on all executables in the bundle:
#
get_bundle_all_executables("${bundle}" exes)
# Set keys for main executable first:
#
set_bundle_key_values(${keys_var} "${executable}" "${executable}" "${exepath}" "${dirs}" 0)
# Get rpaths specified by main executable:
#
get_item_key("${executable}" executable_key)
set(main_rpaths "${${executable_key}_RPATHS}")
# For each extra lib, accumulate a key as well and then also accumulate
# any of its prerequisites. (Extra libs are typically dynamically loaded
# plugins: libraries that are prerequisites for full runtime functionality
# but that do not show up in otool -L output...)
#
foreach(lib ${libs})
set_bundle_key_values(${keys_var} "${lib}" "${lib}" "${exepath}" "${dirs}" 0 "${main_rpaths}")
set(prereqs "")
set(ignoreFile FALSE)
get_filename_component(prereq_filename ${lib} NAME)
if(NOT "${CFG_IGNORE_ITEM}" STREQUAL "" )
foreach(item ${CFG_IGNORE_ITEM})
if("${item}" STREQUAL "${prereq_filename}")
set(ignoreFile TRUE)
endif()
endforeach()
endif()
if(NOT ignoreFile)
get_prerequisites("${lib}" prereqs 1 1 "${exepath}" "${dirs}" "${main_rpaths}")
foreach(pr ${prereqs})
set_bundle_key_values(${keys_var} "${lib}" "${pr}" "${exepath}" "${dirs}" 1 "${main_rpaths}")
endforeach()
else()
message(STATUS "Ignoring file: ${prereq_filename}")
endif()
endforeach()
# For each executable found in the bundle, accumulate keys as we go.
# The list of keys should be complete when all prerequisites of all
# binaries in the bundle have been analyzed.
#
foreach(exe ${exes})
# Main executable is scanned first above:
#
if(NOT "${exe}" STREQUAL "${executable}")
# Add the exe itself to the keys:
#
set_bundle_key_values(${keys_var} "${exe}" "${exe}" "${exepath}" "${dirs}" 0 "${main_rpaths}")
# Get rpaths specified by executable:
#
get_item_key("${exe}" exe_key)
set(exe_rpaths "${main_rpaths}" "${${exe_key}_RPATHS}")
else()
set(exe_rpaths "${main_rpaths}")
endif()
# Add each prerequisite to the keys:
#
set(prereqs "")
set(ignoreFile FALSE)
get_filename_component(prereq_filename ${exe} NAME)
if(NOT "${CFG_IGNORE_ITEM}" STREQUAL "" )
foreach(item ${CFG_IGNORE_ITEM})
if("${item}" STREQUAL "${prereq_filename}")
set(ignoreFile TRUE)
endif()
endforeach()
endif()
if(NOT ignoreFile)
get_prerequisites("${exe}" prereqs 1 1 "${exepath}" "${dirs}" "${exe_rpaths}")
foreach(pr ${prereqs})
set_bundle_key_values(${keys_var} "${exe}" "${pr}" "${exepath}" "${dirs}" 1 "${exe_rpaths}")
endforeach()
else()
message(STATUS "Ignoring file: ${prereq_filename}")
endif()
endforeach()
# preserve library symlink structure
foreach(key ${${keys_var}})
if("${${key}_COPYFLAG}" STREQUAL 1)
if(IS_SYMLINK "${${key}_RESOLVED_ITEM}")
get_filename_component(target "${${key}_RESOLVED_ITEM}" REALPATH)
set_bundle_key_values(${keys_var} "${exe}" "${target}" "${exepath}" "${dirs}" 1 "${exe_rpaths}")
get_item_key("${target}" targetkey)
if(WIN32)
# ignore case on Windows
string(TOLOWER "${${key}_RESOLVED_ITEM}" resolved_item_compare)
string(TOLOWER "${${targetkey}_RESOLVED_EMBEDDED_ITEM}" resolved_embedded_item_compare)
else()
set(resolved_item_compare "${${key}_RESOLVED_ITEM}")
set(resolved_embedded_item_compare "${${targetkey}_RESOLVED_EMBEDDED_ITEM}")
endif()
get_filename_component(resolved_item_compare "${resolved_item_compare}" NAME)
get_filename_component(resolved_embedded_item_compare "${resolved_embedded_item_compare}" NAME)
if(NOT "${resolved_item_compare}" STREQUAL "${resolved_embedded_item_compare}")
set(${key}_COPYFLAG "2")
set(${key}_RESOLVED_ITEM "${${targetkey}_RESOLVED_EMBEDDED_ITEM}")
endif()
endif()
endif()
endforeach()
# Propagate values to caller's scope:
#
set(${keys_var} ${${keys_var}} PARENT_SCOPE)
foreach(key ${${keys_var}})
set(${key}_ITEM "${${key}_ITEM}" PARENT_SCOPE)
set(${key}_RESOLVED_ITEM "${${key}_RESOLVED_ITEM}" PARENT_SCOPE)
set(${key}_DEFAULT_EMBEDDED_PATH "${${key}_DEFAULT_EMBEDDED_PATH}" PARENT_SCOPE)
set(${key}_EMBEDDED_ITEM "${${key}_EMBEDDED_ITEM}" PARENT_SCOPE)
set(${key}_RESOLVED_EMBEDDED_ITEM "${${key}_RESOLVED_EMBEDDED_ITEM}" PARENT_SCOPE)
set(${key}_COPYFLAG "${${key}_COPYFLAG}" PARENT_SCOPE)
set(${key}_RPATHS "${${key}_RPATHS}" PARENT_SCOPE)
set(${key}_RDEP_RPATHS "${${key}_RDEP_RPATHS}" PARENT_SCOPE)
endforeach()
endif()
endfunction()
function(link_resolved_item_into_bundle resolved_item resolved_embedded_item)
if(WIN32)
# ignore case on Windows
string(TOLOWER "${resolved_item}" resolved_item_compare)
string(TOLOWER "${resolved_embedded_item}" resolved_embedded_item_compare)
else()
set(resolved_item_compare "${resolved_item}")
set(resolved_embedded_item_compare "${resolved_embedded_item}")
endif()
if("${resolved_item_compare}" STREQUAL "${resolved_embedded_item_compare}")
message(STATUS "warning: resolved_item == resolved_embedded_item - not linking...")
else()
get_filename_component(target_dir "${resolved_embedded_item}" DIRECTORY)
file(RELATIVE_PATH symlink_target "${target_dir}" "${resolved_item}")
execute_process(COMMAND ${CMAKE_COMMAND} -E create_symlink "${symlink_target}" "${resolved_embedded_item}")
endif()
endfunction()
function(copy_resolved_item_into_bundle resolved_item resolved_embedded_item)
if(WIN32)
# ignore case on Windows
string(TOLOWER "${resolved_item}" resolved_item_compare)
string(TOLOWER "${resolved_embedded_item}" resolved_embedded_item_compare)
else()
set(resolved_item_compare "${resolved_item}")
set(resolved_embedded_item_compare "${resolved_embedded_item}")
endif()
if("${resolved_item_compare}" STREQUAL "${resolved_embedded_item_compare}")
message(STATUS "warning: resolved_item == resolved_embedded_item - not copying...")
else()
#message(STATUS "copying COMMAND ${CMAKE_COMMAND} -E copy ${resolved_item} ${resolved_embedded_item}")
execute_process(COMMAND ${CMAKE_COMMAND} -E copy "${resolved_item}" "${resolved_embedded_item}")
if(UNIX AND NOT APPLE)
file(RPATH_REMOVE FILE "${resolved_embedded_item}")
endif()
endif()
endfunction()
function(copy_resolved_framework_into_bundle resolved_item resolved_embedded_item)
if(WIN32)
# ignore case on Windows
string(TOLOWER "${resolved_item}" resolved_item_compare)
string(TOLOWER "${resolved_embedded_item}" resolved_embedded_item_compare)
else()
set(resolved_item_compare "${resolved_item}")
set(resolved_embedded_item_compare "${resolved_embedded_item}")
endif()
if("${resolved_item_compare}" STREQUAL "${resolved_embedded_item_compare}")
message(STATUS "warning: resolved_item == resolved_embedded_item - not copying...")
else()
if(BU_COPY_FULL_FRAMEWORK_CONTENTS)
# Full Framework (everything):
get_filename_component(resolved_dir "${resolved_item}" PATH)
get_filename_component(resolved_dir "${resolved_dir}/../.." ABSOLUTE)
get_filename_component(resolved_embedded_dir "${resolved_embedded_item}" PATH)
get_filename_component(resolved_embedded_dir "${resolved_embedded_dir}/../.." ABSOLUTE)
#message(STATUS "copying COMMAND ${CMAKE_COMMAND} -E copy_directory '${resolved_dir}' '${resolved_embedded_dir}'")
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_directory "${resolved_dir}" "${resolved_embedded_dir}")
else()
# Framework lib itself:
#message(STATUS "copying COMMAND ${CMAKE_COMMAND} -E copy ${resolved_item} ${resolved_embedded_item}")
execute_process(COMMAND ${CMAKE_COMMAND} -E copy "${resolved_item}" "${resolved_embedded_item}")
# Plus Resources, if they exist:
string(REGEX REPLACE "^(.*)/[^/]+$" "\\1/Resources" resolved_resources "${resolved_item}")
string(REGEX REPLACE "^(.*)/[^/]+$" "\\1/Resources" resolved_embedded_resources "${resolved_embedded_item}")
if(EXISTS "${resolved_resources}")
#message(STATUS "copying COMMAND ${CMAKE_COMMAND} -E copy_directory '${resolved_resources}' '${resolved_embedded_resources}'")
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_directory "${resolved_resources}" "${resolved_embedded_resources}")
endif()
# Some frameworks e.g. Qt put Info.plist in wrong place, so when it is
# missing in resources, copy it from other well known incorrect locations:
if(NOT EXISTS "${resolved_resources}/Info.plist")
# Check for Contents/Info.plist in framework root (older Qt SDK):
string(REGEX REPLACE "^(.*)/[^/]+/[^/]+/[^/]+$" "\\1/Contents/Info.plist" resolved_info_plist "${resolved_item}")
string(REGEX REPLACE "^(.*)/[^/]+$" "\\1/Resources/Info.plist" resolved_embedded_info_plist "${resolved_embedded_item}")
if(EXISTS "${resolved_info_plist}")
#message(STATUS "copying COMMAND ${CMAKE_COMMAND} -E copy_directory '${resolved_info_plist}' '${resolved_embedded_info_plist}'")
execute_process(COMMAND ${CMAKE_COMMAND} -E copy "${resolved_info_plist}" "${resolved_embedded_info_plist}")
endif()
endif()
# Check if framework is versioned and fix it layout
string(REGEX REPLACE "^.*/([^/]+)/[^/]+$" "\\1" resolved_embedded_version "${resolved_embedded_item}")
string(REGEX REPLACE "^(.*)/[^/]+/[^/]+$" "\\1" resolved_embedded_versions "${resolved_embedded_item}")
string(REGEX REPLACE "^.*/([^/]+)/[^/]+/[^/]+$" "\\1" resolved_embedded_versions_basename "${resolved_embedded_item}")
if(resolved_embedded_versions_basename STREQUAL "Versions")
# Ensure Current symlink points to the framework version
if(NOT EXISTS "${resolved_embedded_versions}/Current")
execute_process(COMMAND ${CMAKE_COMMAND} -E create_symlink "${resolved_embedded_version}" "${resolved_embedded_versions}/Current")
endif()
# Restore symlinks in framework root pointing to current framework
# binary and resources:
string(REGEX REPLACE "^(.*)/[^/]+/[^/]+/[^/]+$" "\\1" resolved_embedded_root "${resolved_embedded_item}")
string(REGEX REPLACE "^.*/([^/]+)$" "\\1" resolved_embedded_item_basename "${resolved_embedded_item}")
if(NOT EXISTS "${resolved_embedded_root}/${resolved_embedded_item_basename}")
execute_process(COMMAND ${CMAKE_COMMAND} -E create_symlink "Versions/Current/${resolved_embedded_item_basename}" "${resolved_embedded_root}/${resolved_embedded_item_basename}")
endif()
if(NOT EXISTS "${resolved_embedded_root}/Resources")
execute_process(COMMAND ${CMAKE_COMMAND} -E create_symlink "Versions/Current/Resources" "${resolved_embedded_root}/Resources")
endif()
endif()
endif()
if(UNIX AND NOT APPLE)
file(RPATH_REMOVE FILE "${resolved_embedded_item}")
endif()
endif()
endfunction()
function(fixup_bundle_item resolved_embedded_item exepath dirs)
# This item's key is "ikey":
#
get_item_key("${resolved_embedded_item}" ikey)
BundleUtilities: error if fixup_bundle_item called on non-embedded item Also, improve the documentation of the fixup_bundle and fixup_bundle_item functions to clarify that plugin type "libs" need to be copied into the bundle *before* calling fixup_bundle. Commit e93a4b4d3421ced7b8c852b76c0dcb427f798df8 changed the way that the libs parameter to fixup_bundle is interpreted. Before the commit, the libs were copied into the bundle first and then fixed up. After the commit, the copy was skipped, assuming the libs were in the bundle in the first place, and then the fixups occurred as before. However, before the commit, it was possible to name a lib from outside the bundle, and have it copied in and then fixed up. Its resolved embedded name was always inside the bundle before. After, its resolved embedded name was just the same as its resolved name, which is in its original location, and not necessarily inside the bundle. This manifested itself as a problem with the ParaView call to fixup_bundle and its many plugins. Previously, ParaView had simply passed in the list of plugin file names as they existed in the build tree, and left the copying into the bundle up to the fixup_bundle function. When built with CMake 2.8.3 (the first version to contain the above named commit) the fixup_bundle call would inadventently fixup libraries in the build tree, not libraries that were in the bundle. Furthermore, the plugins would not be in the final bundle. This points out the fact that the fix for the bugs made by the above commit was a backwards-incompatible change in behavior. This commit makes it an error to try to fixup an item that is not already inside the bundle to make the change in behavior apparent to folks who were depending on the prior copy-in behavior: now, they should get an error, and hopefully, reading the new and improved documentation, should be able to resolve it in their projects by adding code to install or copy in such libraries prior to calling fixup_bundle. Whew.
2010-12-06 21:01:00 +00:00
# Ensure the item is "inside the .app bundle" -- it should not be fixed up if
# it is not in the .app bundle... Otherwise, we'll modify files in the build
# tree, or in other varied locations around the file system, with our call to
# install_name_tool. Make sure that doesn't happen here:
#
get_dotapp_dir("${exepath}" exe_dotapp_dir)
string(LENGTH "${exe_dotapp_dir}/" exe_dotapp_dir_length)
string(LENGTH "${resolved_embedded_item}" resolved_embedded_item_length)
set(path_too_short 0)
set(is_embedded 0)
if(${resolved_embedded_item_length} LESS ${exe_dotapp_dir_length})
set(path_too_short 1)
endif()
if(NOT path_too_short)
string(SUBSTRING "${resolved_embedded_item}" 0 ${exe_dotapp_dir_length} item_substring)
if("${exe_dotapp_dir}/" STREQUAL "${item_substring}")
set(is_embedded 1)
endif()
endif()
if(NOT is_embedded)
BundleUtilities: error if fixup_bundle_item called on non-embedded item Also, improve the documentation of the fixup_bundle and fixup_bundle_item functions to clarify that plugin type "libs" need to be copied into the bundle *before* calling fixup_bundle. Commit e93a4b4d3421ced7b8c852b76c0dcb427f798df8 changed the way that the libs parameter to fixup_bundle is interpreted. Before the commit, the libs were copied into the bundle first and then fixed up. After the commit, the copy was skipped, assuming the libs were in the bundle in the first place, and then the fixups occurred as before. However, before the commit, it was possible to name a lib from outside the bundle, and have it copied in and then fixed up. Its resolved embedded name was always inside the bundle before. After, its resolved embedded name was just the same as its resolved name, which is in its original location, and not necessarily inside the bundle. This manifested itself as a problem with the ParaView call to fixup_bundle and its many plugins. Previously, ParaView had simply passed in the list of plugin file names as they existed in the build tree, and left the copying into the bundle up to the fixup_bundle function. When built with CMake 2.8.3 (the first version to contain the above named commit) the fixup_bundle call would inadventently fixup libraries in the build tree, not libraries that were in the bundle. Furthermore, the plugins would not be in the final bundle. This points out the fact that the fix for the bugs made by the above commit was a backwards-incompatible change in behavior. This commit makes it an error to try to fixup an item that is not already inside the bundle to make the change in behavior apparent to folks who were depending on the prior copy-in behavior: now, they should get an error, and hopefully, reading the new and improved documentation, should be able to resolve it in their projects by adding code to install or copy in such libraries prior to calling fixup_bundle. Whew.
2010-12-06 21:01:00 +00:00
message(" exe_dotapp_dir/='${exe_dotapp_dir}/'")
message(" item_substring='${item_substring}'")
message(" resolved_embedded_item='${resolved_embedded_item}'")
message("")
message("Install or copy the item into the bundle before calling fixup_bundle.")
message("Or maybe there's a typo or incorrect path in one of the args to fixup_bundle?")
BundleUtilities: error if fixup_bundle_item called on non-embedded item Also, improve the documentation of the fixup_bundle and fixup_bundle_item functions to clarify that plugin type "libs" need to be copied into the bundle *before* calling fixup_bundle. Commit e93a4b4d3421ced7b8c852b76c0dcb427f798df8 changed the way that the libs parameter to fixup_bundle is interpreted. Before the commit, the libs were copied into the bundle first and then fixed up. After the commit, the copy was skipped, assuming the libs were in the bundle in the first place, and then the fixups occurred as before. However, before the commit, it was possible to name a lib from outside the bundle, and have it copied in and then fixed up. Its resolved embedded name was always inside the bundle before. After, its resolved embedded name was just the same as its resolved name, which is in its original location, and not necessarily inside the bundle. This manifested itself as a problem with the ParaView call to fixup_bundle and its many plugins. Previously, ParaView had simply passed in the list of plugin file names as they existed in the build tree, and left the copying into the bundle up to the fixup_bundle function. When built with CMake 2.8.3 (the first version to contain the above named commit) the fixup_bundle call would inadventently fixup libraries in the build tree, not libraries that were in the bundle. Furthermore, the plugins would not be in the final bundle. This points out the fact that the fix for the bugs made by the above commit was a backwards-incompatible change in behavior. This commit makes it an error to try to fixup an item that is not already inside the bundle to make the change in behavior apparent to folks who were depending on the prior copy-in behavior: now, they should get an error, and hopefully, reading the new and improved documentation, should be able to resolve it in their projects by adding code to install or copy in such libraries prior to calling fixup_bundle. Whew.
2010-12-06 21:01:00 +00:00
message("")
message(FATAL_ERROR "cannot fixup an item that is not in the bundle...")
endif()
set(rpaths "${${ikey}_RPATHS}" "${${ikey}_RDEP_RPATHS}")
set(prereqs "")
get_prerequisites("${resolved_embedded_item}" prereqs 1 0 "${exepath}" "${dirs}" "${rpaths}")
set(changes "")
foreach(pr ${prereqs})
# Each referenced item's key is "rkey" in the loop:
#
get_item_key("${pr}" rkey)
if(NOT "${${rkey}_EMBEDDED_ITEM}" STREQUAL "")
set(changes ${changes} "-change" "${pr}" "${${rkey}_EMBEDDED_ITEM}")
else()
message("warning: unexpected reference to '${pr}'")
endif()
endforeach()
if(BU_CHMOD_BUNDLE_ITEMS)
execute_process(COMMAND chmod u+w "${resolved_embedded_item}")
endif()
# Only if install_name_tool supports -delete_rpath:
#
execute_process(COMMAND install_name_tool
OUTPUT_VARIABLE install_name_tool_usage
ERROR_VARIABLE install_name_tool_usage
)
if(install_name_tool_usage MATCHES ".*-delete_rpath.*")
foreach(rpath ${${ikey}_RPATHS})
set(changes ${changes} -delete_rpath "${rpath}")
endforeach()
endif()
if(${ikey}_EMBEDDED_ITEM)
set(changes ${changes} -id "${${ikey}_EMBEDDED_ITEM}")
endif()
# Change this item's id and all of its references in one call
# to install_name_tool:
#
if(changes)
set(cmd install_name_tool ${changes} "${resolved_embedded_item}")
execute_process(COMMAND ${cmd} RESULT_VARIABLE install_name_tool_result)
if(NOT install_name_tool_result EQUAL 0)
string(REPLACE ";" "' '" msg "'${cmd}'")
message(FATAL_ERROR "Command failed:\n ${msg}")
endif()
endif()
endfunction()
function(fixup_bundle app libs dirs)
message(STATUS "fixup_bundle")
message(STATUS " app='${app}'")
message(STATUS " libs='${libs}'")
message(STATUS " dirs='${dirs}'")
set(options)
set(oneValueArgs)
set(multiValueArgs IGNORE_ITEM)
cmake_parse_arguments(CFG "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN} )
message(STATUS " ignoreItems='${CFG_IGNORE_ITEM}'")
get_bundle_and_executable("${app}" bundle executable valid)
if(valid)
get_filename_component(exepath "${executable}" PATH)
message(STATUS "fixup_bundle: preparing...")
get_bundle_keys("${app}" "${libs}" "${dirs}" keys IGNORE_ITEM "${CFG_IGNORE_ITEM}")
message(STATUS "fixup_bundle: copying...")
list(LENGTH keys n)
math(EXPR n ${n}*2)
set(i 0)
foreach(key ${keys})
math(EXPR i ${i}+1)
if("${${key}_COPYFLAG}" STREQUAL "2")
message(STATUS "${i}/${n}: linking '${${key}_RESOLVED_ITEM}' -> '${${key}_RESOLVED_EMBEDDED_ITEM}'")
elseif(${${key}_COPYFLAG})
message(STATUS "${i}/${n}: copying '${${key}_RESOLVED_ITEM}'")
else()
message(STATUS "${i}/${n}: *NOT* copying '${${key}_RESOLVED_ITEM}'")
endif()
set(show_status 0)
if(show_status)
message(STATUS "key='${key}'")
message(STATUS "item='${${key}_ITEM}'")
message(STATUS "resolved_item='${${key}_RESOLVED_ITEM}'")
message(STATUS "default_embedded_path='${${key}_DEFAULT_EMBEDDED_PATH}'")
message(STATUS "embedded_item='${${key}_EMBEDDED_ITEM}'")
message(STATUS "resolved_embedded_item='${${key}_RESOLVED_EMBEDDED_ITEM}'")
message(STATUS "copyflag='${${key}_COPYFLAG}'")
message(STATUS "")
endif()
if("${${key}_COPYFLAG}" STREQUAL "2")
link_resolved_item_into_bundle("${${key}_RESOLVED_ITEM}"
"${${key}_RESOLVED_EMBEDDED_ITEM}")
elseif(${${key}_COPYFLAG})
set(item "${${key}_ITEM}")
if(item MATCHES "[^/]+\\.framework/")
copy_resolved_framework_into_bundle("${${key}_RESOLVED_ITEM}"
"${${key}_RESOLVED_EMBEDDED_ITEM}")
else()
copy_resolved_item_into_bundle("${${key}_RESOLVED_ITEM}"
"${${key}_RESOLVED_EMBEDDED_ITEM}")
endif()
endif()
endforeach()
message(STATUS "fixup_bundle: fixing...")
foreach(key ${keys})
math(EXPR i ${i}+1)
if(APPLE)
message(STATUS "${i}/${n}: fixing up '${${key}_RESOLVED_EMBEDDED_ITEM}'")
if(NOT "${${key}_COPYFLAG}" STREQUAL "2")
fixup_bundle_item("${${key}_RESOLVED_EMBEDDED_ITEM}" "${exepath}" "${dirs}")
endif()
else()
message(STATUS "${i}/${n}: fix-up not required on this platform '${${key}_RESOLVED_EMBEDDED_ITEM}'")
endif()
endforeach()
message(STATUS "fixup_bundle: cleaning up...")
clear_bundle_keys(keys)
message(STATUS "fixup_bundle: verifying...")
verify_app("${app}" IGNORE_ITEM "${CFG_IGNORE_ITEM}")
else()
message(SEND_ERROR "error: fixup_bundle: not a valid bundle")
endif()
message(STATUS "fixup_bundle: done")
endfunction()
function(copy_and_fixup_bundle src dst libs dirs)
execute_process(COMMAND ${CMAKE_COMMAND} -E copy_directory "${src}" "${dst}")
fixup_bundle("${dst}" "${libs}" "${dirs}")
endfunction()
function(verify_bundle_prerequisites bundle result_var info_var)
set(result 1)
set(info "")
set(count 0)
set(options)
set(oneValueArgs)
set(multiValueArgs IGNORE_ITEM)
cmake_parse_arguments(CFG "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN} )
get_bundle_main_executable("${bundle}" main_bundle_exe)
get_bundle_all_executables("${bundle}" file_list)
foreach(f ${file_list})
get_filename_component(exepath "${f}" PATH)
math(EXPR count "${count} + 1")
message(STATUS "executable file ${count}: ${f}")
set(prereqs "")
set(ignoreFile FALSE)
get_filename_component(prereq_filename ${f} NAME)
if(NOT "${CFG_IGNORE_ITEM}" STREQUAL "" )
foreach(item ${CFG_IGNORE_ITEM})
if("${item}" STREQUAL "${prereq_filename}")
set(ignoreFile TRUE)
endif()
endforeach()
endif()
if(NOT ignoreFile)
get_item_rpaths(${f} _main_exe_rpaths)
get_prerequisites("${f}" prereqs 1 1 "${exepath}" "${_main_exe_rpaths}")
# On the Mac,
# "embedded" and "system" prerequisites are fine... anything else means
# the bundle's prerequisites are not verified (i.e., the bundle is not
# really "standalone")
#
# On Windows (and others? Linux/Unix/...?)
# "local" and "system" prereqs are fine...
#
set(external_prereqs "")
foreach(p ${prereqs})
set(p_type "")
gp_file_type("${f}" "${p}" p_type)
if(APPLE)
if(NOT "${p_type}" STREQUAL "embedded" AND NOT "${p_type}" STREQUAL "system")
set(external_prereqs ${external_prereqs} "${p}")
endif()
else()
if(NOT "${p_type}" STREQUAL "local" AND NOT "${p_type}" STREQUAL "system")
set(external_prereqs ${external_prereqs} "${p}")
endif()
endif()
endforeach()
if(external_prereqs)
# Found non-system/somehow-unacceptable prerequisites:
set(result 0)
set(info ${info} "external prerequisites found:\nf='${f}'\nexternal_prereqs='${external_prereqs}'\n")
endif()
else()
message(STATUS "Ignoring file: ${prereq_filename}")
endif()
endforeach()
if(result)
set(info "Verified ${count} executable files in '${bundle}'")
endif()
set(${result_var} "${result}" PARENT_SCOPE)
set(${info_var} "${info}" PARENT_SCOPE)
endfunction()
function(verify_bundle_symlinks bundle result_var info_var)
set(result 1)
set(info "")
set(count 0)
# TODO: implement this function for real...
# Right now, it is just a stub that verifies unconditionally...
set(${result_var} "${result}" PARENT_SCOPE)
set(${info_var} "${info}" PARENT_SCOPE)
endfunction()
function(verify_app app)
set(verified 0)
set(info "")
set(options)
set(oneValueArgs)
set(multiValueArgs IGNORE_ITEM)
cmake_parse_arguments(CFG "${options}" "${oneValueArgs}" "${multiValueArgs}" ${ARGN} )
get_bundle_and_executable("${app}" bundle executable valid)
message(STATUS "===========================================================================")
message(STATUS "Analyzing app='${app}'")
message(STATUS "bundle='${bundle}'")
message(STATUS "executable='${executable}'")
message(STATUS "valid='${valid}'")
# Verify that the bundle does not have any "external" prerequisites:
#
verify_bundle_prerequisites("${bundle}" verified info IGNORE_ITEM "${CFG_IGNORE_ITEM}")
message(STATUS "verified='${verified}'")
message(STATUS "info='${info}'")
message(STATUS "")
if(verified)
# Verify that the bundle does not have any symlinks to external files:
#
verify_bundle_symlinks("${bundle}" verified info)
message(STATUS "verified='${verified}'")
message(STATUS "info='${info}'")
message(STATUS "")
endif()
if(NOT verified)
message(FATAL_ERROR "error: verify_app failed")
endif()
endfunction()