glib/gio/meson.build

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gio_c_args = [
'-DG_LOG_DOMAIN="GLib-GIO"',
'-DGIO_LAUNCH_DESKTOP="@0@"'.format(glib_prefix / multiarch_libexecdir / 'gio-launch-desktop'),
'-DGIO_MODULE_DIR="@0@"'.format(glib_giomodulesdir),
'-DLOCALSTATEDIR="@0@"'.format(glib_localstatedir),
]
gio_c_args_internal = [
'-DGIO_COMPILATION',
]
gio_includedir = glib_includedir / 'gio'
# FIXME: Install empty glib_giomodulesdir
gnetworking_h_conf = configuration_data()
gnetworking_h_nameser_compat_include = ''
if host_system not in ['windows', 'android']
# Don't check for C_IN on Android since it does not define it in public
# headers, we define it ourselves wherever necessary
if not cc.compiles('''#include <sys/types.h>
#include <arpa/nameser.h>
int qclass = C_IN;''',
name : 'C_IN in public headers (no arpa/nameser_compat.h needed)')
if cc.compiles('''#include <sys/types.h>
#include <arpa/nameser.h>
#include <arpa/nameser_compat.h>
int qclass = C_IN;''',
name : 'arpa/nameser_compat.h needed for C_IN')
gnetworking_h_nameser_compat_include = '#include <arpa/nameser_compat.h>'
else
error('Could not find required includes for ARPA C_IN')
endif
endif
endif
network_libs = [ ]
network_args = [ ]
if host_system != 'windows'
# res_query()
res_query_test = '''#include <resolv.h>
int main (int argc, char ** argv) {
return res_query("test", 0, 0, (void *)0, 0);
}'''
res_query_test_full = '''#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/nameser.h>
''' + res_query_test
if not cc.links(res_query_test_full, name : 'res_query()')
if cc.links(res_query_test_full, args : '-lresolv', name : 'res_query() in -lresolv')
network_libs += [ cc.find_library('resolv') ]
network_args += [ '-lresolv' ]
elif cc.links(res_query_test, args : '-lbind', name : 'res_query() in -lbind')
network_libs += [ cc.find_library('bind') ]
network_args += [ '-lbind' ]
elif cc.links(res_query_test, args : '-lsocket', name : 'res_query() in -lsocket')
network_libs += [ cc.find_library('socket') ]
network_args += [ '-lsocket' ]
else
error('Could not find res_query()')
endif
endif
# socket()
socket_test = '''#include <sys/types.h>
#include <sys/socket.h>
int main (int argc, char ** argv) {
return socket(1, 2, 3);
}'''
if not cc.links(socket_test, name : 'socket()')
if cc.links(socket_test, args : '-lsocket', name : 'socket() in -lsocket')
network_libs += [ cc.find_library('socket') ]
network_args += [ '-lsocket' ]
else
error('Could not find socket()')
endif
endif
# dn_comp()
if cc.links('''#include <resolv.h>
int main (int argc, char ** argv) {
return dn_comp(NULL, NULL, 0, NULL, NULL) == -1;
} ''', args : network_args, name : 'dn_comp()')
glib_conf.set('HAVE_DN_COMP', 1)
endif
gio: Port GThreadedResolver to use res_nquery() to fix thread-safety res_query() uses global state in the form of the struct __res_state which contains the contents of resolv.conf (and other things). On Linux, this state seems to be thread-local, so there is no problem. On OS X, however, it is not, and hence multiple res_query() calls from parallel threads will compete and return bogus results. The fix for this is to use res_nquery(), introduced in BIND 8.2, which takes an explicit state argument. This allows us to manually store the state thread-locally. If res_nquery() isn’t available, we fall back to res_query(). It should be available on OS X though. As a data point, it’s available on Fedora 27. There’s a slight complication in the fact that OS X requires the state to be freed using res_ndestroy() rather than res_nclose(). Linux uses res_nclose(). (See, for example, the NetBSD man page: https://www.unix.com/man-page/netbsd/3/res_ninit/. The Linux one is incomplete and not so useful: http://man7.org/linux/man-pages/man3/resolver.3.html.) The new code will call res_ninit() once per res_nquery() task. This is not optimal, but no worse than before — since res_query() was being called in a worker thread, on Linux, it would implicitly initialise the thread-local struct __res_state when it was called. We’ve essentially just made that explicit. In practical terms, this means a stat("/etc/resolv.conf") call per res_nquery() task. In future, we could improve this by using an explicit thread pool with some manually-created worker threads, each of which initialises a struct __res_state on spawning, and only updates it on receiving the #GResolver::reload signal. Signed-off-by: Philip Withnall <withnall@endlessm.com> https://bugzilla.gnome.org/show_bug.cgi?id=792050
2018-01-05 15:26:35 +01:00
# res_nclose()
if cc.links('''#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/nameser.h>
#include <resolv.h>
int main (int argc, char ** argv) {
struct __res_state res;
res_nclose(&res);
return 0;
gio: Port GThreadedResolver to use res_nquery() to fix thread-safety res_query() uses global state in the form of the struct __res_state which contains the contents of resolv.conf (and other things). On Linux, this state seems to be thread-local, so there is no problem. On OS X, however, it is not, and hence multiple res_query() calls from parallel threads will compete and return bogus results. The fix for this is to use res_nquery(), introduced in BIND 8.2, which takes an explicit state argument. This allows us to manually store the state thread-locally. If res_nquery() isn’t available, we fall back to res_query(). It should be available on OS X though. As a data point, it’s available on Fedora 27. There’s a slight complication in the fact that OS X requires the state to be freed using res_ndestroy() rather than res_nclose(). Linux uses res_nclose(). (See, for example, the NetBSD man page: https://www.unix.com/man-page/netbsd/3/res_ninit/. The Linux one is incomplete and not so useful: http://man7.org/linux/man-pages/man3/resolver.3.html.) The new code will call res_ninit() once per res_nquery() task. This is not optimal, but no worse than before — since res_query() was being called in a worker thread, on Linux, it would implicitly initialise the thread-local struct __res_state when it was called. We’ve essentially just made that explicit. In practical terms, this means a stat("/etc/resolv.conf") call per res_nquery() task. In future, we could improve this by using an explicit thread pool with some manually-created worker threads, each of which initialises a struct __res_state on spawning, and only updates it on receiving the #GResolver::reload signal. Signed-off-by: Philip Withnall <withnall@endlessm.com> https://bugzilla.gnome.org/show_bug.cgi?id=792050
2018-01-05 15:26:35 +01:00
}''', args : network_args, name : 'res_nclose()')
glib_conf.set('HAVE_RES_NCLOSE', 1)
endif
# res_ndestroy()
if cc.links('''#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/nameser.h>
#include <resolv.h>
int main (int argc, char ** argv) {
struct __res_state res;
res_ndestroy(&res);
return 0;
gio: Port GThreadedResolver to use res_nquery() to fix thread-safety res_query() uses global state in the form of the struct __res_state which contains the contents of resolv.conf (and other things). On Linux, this state seems to be thread-local, so there is no problem. On OS X, however, it is not, and hence multiple res_query() calls from parallel threads will compete and return bogus results. The fix for this is to use res_nquery(), introduced in BIND 8.2, which takes an explicit state argument. This allows us to manually store the state thread-locally. If res_nquery() isn’t available, we fall back to res_query(). It should be available on OS X though. As a data point, it’s available on Fedora 27. There’s a slight complication in the fact that OS X requires the state to be freed using res_ndestroy() rather than res_nclose(). Linux uses res_nclose(). (See, for example, the NetBSD man page: https://www.unix.com/man-page/netbsd/3/res_ninit/. The Linux one is incomplete and not so useful: http://man7.org/linux/man-pages/man3/resolver.3.html.) The new code will call res_ninit() once per res_nquery() task. This is not optimal, but no worse than before — since res_query() was being called in a worker thread, on Linux, it would implicitly initialise the thread-local struct __res_state when it was called. We’ve essentially just made that explicit. In practical terms, this means a stat("/etc/resolv.conf") call per res_nquery() task. In future, we could improve this by using an explicit thread pool with some manually-created worker threads, each of which initialises a struct __res_state on spawning, and only updates it on receiving the #GResolver::reload signal. Signed-off-by: Philip Withnall <withnall@endlessm.com> https://bugzilla.gnome.org/show_bug.cgi?id=792050
2018-01-05 15:26:35 +01:00
}''', args : network_args, name : 'res_ndestroy()')
glib_conf.set('HAVE_RES_NDESTROY', 1)
endif
# res_ninit()
if cc.links('''#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/nameser.h>
#include <resolv.h>
int main (int argc, char ** argv) {
struct __res_state res;
return res_ninit(&res);
}''', args : network_args, name : 'res_ninit()')
glib_conf.set('HAVE_RES_NINIT', 1)
endif
# res_nquery()
if cc.links('''#include <sys/types.h>
#include <netinet/in.h>
#include <arpa/nameser.h>
#include <resolv.h>
int main (int argc, char ** argv) {
struct __res_state res;
return res_nquery(&res, "test", 0, 0, (void *)0, 0);
}''', args : network_args, name : 'res_nquery()')
glib_conf.set('HAVE_RES_NQUERY', 1)
endif
if cc.has_type('struct ip_mreqn', prefix : '#include <netinet/in.h>')
glib_conf.set('HAVE_IP_MREQN', 1)
endif
if cc.compiles('''#include <sys/ioctl.h>
#include <net/if.h>
int main (int argc, char ** argv) {
struct ifreq ifr;
ioctl(0, SIOCGIFADDR, &ifr);
return 0;
}''',
name : 'ioctl with request SIOCGIFADDR')
glib_conf.set('HAVE_SIOCGIFADDR', '/**/')
endif
endif
if host_system == 'android'
# struct ip_mreq_source definition is broken on Android NDK <= r16
# See https://bugzilla.gnome.org/show_bug.cgi?id=740791
if not cc.compiles('''#include <netinet/in.h>
int main(int argc, char ** argv) {
struct ip_mreq_source mc_req_src;
mc_req_src.imr_interface.s_addr = 0;
return 0;
}''',
name : 'ip_mreq_source.imr_interface has s_addr member')
glib_conf.set('BROKEN_IP_MREQ_SOURCE_STRUCT', 1)
endif
endif
gnetworking_h_conf.set('NAMESER_COMPAT_INCLUDE', gnetworking_h_nameser_compat_include)
gnetworking_h = configure_file(input : 'gnetworking.h.in',
output : 'gnetworking.h',
install_dir : gio_includedir,
configuration : gnetworking_h_conf)
gdbus_headers = files(
'gdbusauthobserver.h',
'gcredentials.h',
'gdbusutils.h',
'gdbuserror.h',
'gdbusaddress.h',
'gdbusconnection.h',
'gdbusmessage.h',
'gdbusnameowning.h',
'gdbusnamewatching.h',
'gdbusproxy.h',
'gdbusintrospection.h',
'gdbusmethodinvocation.h',
'gdbusserver.h',
'gdbusinterface.h',
'gdbusinterfaceskeleton.h',
'gdbusobject.h',
'gdbusobjectskeleton.h',
'gdbusobjectproxy.h',
'gdbusobjectmanager.h',
'gdbusobjectmanagerclient.h',
'gdbusobjectmanagerserver.h',
'gtestdbus.h',
)
gdbus_sources = files(
'gdbusutils.c',
'gdbusaddress.c',
'gdbusauthobserver.c',
'gdbusauth.c',
'gdbusauthmechanism.c',
'gdbusauthmechanismanon.c',
'gdbusauthmechanismexternal.c',
'gdbusauthmechanismsha1.c',
'gdbuserror.c',
'gdbusconnection.c',
'gdbusmessage.c',
'gdbusnameowning.c',
'gdbusnamewatching.c',
'gdbusproxy.c',
'gdbusprivate.c',
'gdbusintrospection.c',
'gdbusmethodinvocation.c',
'gdbusserver.c',
'gdbusinterface.c',
'gdbusinterfaceskeleton.c',
'gdbusobject.c',
'gdbusobjectskeleton.c',
'gdbusobjectproxy.c',
'gdbusobjectmanager.c',
'gdbusobjectmanagerclient.c',
'gdbusobjectmanagerserver.c',
'gtestdbus.c',
)
# Generate gdbus-codegen
subdir('gdbus-2.0/codegen')
# Generate xdp-dbus.{c,h}
xdp_dbus_generated = custom_target('xdp-dbus',
input : ['org.freedesktop.portal.Documents.xml',
'org.freedesktop.portal.OpenURI.xml',
'org.freedesktop.portal.ProxyResolver.xml',
'org.freedesktop.portal.Trash.xml'],
output : ['xdp-dbus.h', 'xdp-dbus.c'],
depend_files : gdbus_codegen_built_files,
command : [python, gdbus_codegen,
'--interface-prefix', 'org.freedesktop.portal.',
'--output-directory', '@OUTDIR@',
'--generate-c-code', 'xdp-dbus',
'--c-namespace', 'GXdp',
'@INPUT@'])
# Generate gdbus-generated.{c,h}
gdbus_daemon_generated = custom_target('gdbus-daemon-generated',
input : ['dbus-daemon.xml'],
output : ['gdbus-daemon-generated.h', 'gdbus-daemon-generated.c'],
depend_files : gdbus_codegen_built_files,
command : [python, gdbus_codegen,
'--interface-prefix', 'org.',
'--output-directory', '@OUTDIR@',
'--generate-c-code', 'gdbus-daemon-generated',
'--c-namespace', '_G', '@INPUT@'])
settings_headers = files(
'gsettingsbackend.h',
'gsettingsschema.h',
'gsettings.h',
)
settings_sources = files(
'gdelayedsettingsbackend.c',
'gkeyfilesettingsbackend.c',
'gmemorysettingsbackend.c',
'gnullsettingsbackend.c',
'gsettingsbackend.c',
'gsettingsschema.c',
'gsettings-mapping.c',
'gsettings.c',
)
if host_system == 'windows'
settings_sources += files('gregistrysettingsbackend.c')
endif
application_headers = files(
'gapplication.h',
'gapplicationcommandline.h',
'gactiongroup.h',
'gactionmap.h',
'gsimpleactiongroup.h',
'gremoteactiongroup.h',
'gactiongroupexporter.h',
'gdbusactiongroup.h',
'gaction.h',
'gpropertyaction.h',
'gsimpleaction.h',
'gmenumodel.h',
'gmenu.h',
'gmenuexporter.h',
'gdbusmenumodel.h',
'gnotification.h',
)
application_sources = files(
'gapplication.c',
'gapplicationcommandline.c',
'gapplicationimpl-dbus.c',
'gactiongroup.c',
'gactionmap.c',
'gsimpleactiongroup.c',
'gremoteactiongroup.c',
'gactiongroupexporter.c',
'gdbusactiongroup.c',
'gaction.c',
'gpropertyaction.c',
'gsimpleaction.c',
'gmenumodel.c',
'gmenu.c',
'gmenuexporter.c',
'gdbusmenumodel.c',
'gnotification.c',
'gnotificationbackend.c',
)
local_sources = files(
'ghttpproxy.c',
'glocalfile.c',
'glocalfileenumerator.c',
'glocalfileinfo.c',
'glocalfileinputstream.c',
'glocalfilemonitor.c',
'glocalfileoutputstream.c',
'glocalfileiostream.c',
'glocalvfs.c',
'gsocks4proxy.c',
'gsocks4aproxy.c',
'gsocks5proxy.c',
'thumbnail-verify.c',
)
platform_deps = []
internal_deps = []
appinfo_sources = []
contenttype_sources = []
portal_sources = []
unix_sources = []
win32_sources = []
# This is also used by tests/gdbus-daemon, so use files() to include the path
gdbus_daemon_sources = [
files('gdbusdaemon.c'),
gdbus_daemon_generated,
]
if host_system != 'windows'
unix_sources = files(
'gfiledescriptorbased.c',
'giounix-private.c',
'gunixfdmessage.c',
'gunixmount.c',
'gunixmounts.c',
'gunixvolume.c',
'gunixvolumemonitor.c',
'gunixinputstream.c',
'gunixoutputstream.c',
'gfdonotificationbackend.c',
'ggtknotificationbackend.c',
)
portal_sources = [files(
'gdocumentportal.c',
'gopenuriportal.c',
'gmemorymonitorportal.c',
'gnetworkmonitorportal.c',
'gpowerprofilemonitorportal.c',
'gproxyresolverportal.c',
'gtrashportal.c',
'gportalsupport.c',
'gportalnotificationbackend.c'),
xdp_dbus_generated
]
gio_unix_include_headers = files(
'gfiledescriptorbased.h',
'gunixmounts.h',
'gunixfdmessage.h',
'gunixinputstream.h',
'gunixoutputstream.h',
)
if glib_have_cocoa
settings_sources += files('gnextstepsettingsbackend.m')
contenttype_sources += files('gosxcontenttype.m')
appinfo_sources += files('gosxappinfo.m')
framework_dep = dependency('appleframeworks', modules : ['Foundation', 'CoreFoundation', 'AppKit'])
platform_deps += [framework_dep]
if glib_have_os_x_9_or_later
unix_sources += files('gcocoanotificationbackend.m')
endif
application_headers += files('gosxappinfo.h')
else
contenttype_sources += files('gcontenttype.c')
appinfo_sources += files('gdesktopappinfo.c')
gio_unix_include_headers += files('gdesktopappinfo.h')
launch_desktop_sources = files('gio-launch-desktop.c')
if host_system == 'linux'
launch_desktop_sources += files('../glib/gjournal-private.c')
endif
gio_launch_desktop = executable('gio-launch-desktop', launch_desktop_sources,
include_directories : glibinc,
install : true,
install_dir : multiarch_libexecdir,
install_tag : 'bin',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args)
endif
subdir('xdgmime')
internal_deps += [xdgmime_lib]
install_headers(gio_unix_include_headers, subdir : 'gio-unix-2.0/gio')
if glib_conf.has('HAVE_NETLINK')
unix_sources += files(
'gnetworkmonitornetlink.c',
'gnetworkmonitornm.c',
)
endif
else
appinfo_sources += files('gwin32appinfo.c')
contenttype_sources += files('gcontenttype-win32.c')
platform_deps += [cc.find_library('shlwapi'),
cc.find_library('dnsapi'),
iphlpapi_dep,
winsock2]
platform_deps += uwp_gio_deps
win32_sources += files(
'gmemorymonitorwin32.c',
'gwin32registrykey.c',
'gwin32mount.c',
'gwin32volumemonitor.c',
'gwin32inputstream.c',
'gwin32outputstream.c',
'gwin32file-sync-stream.c',
'gwin32packageparser.c',
'gwin32networkmonitor.c',
'gwin32networkmonitor.h',
'gwin32notificationbackend.c',
'gwin32sid.c',
'gwin32sid.h',
)
gio_win_rc = configure_file(
input: 'gio.rc.in',
output: 'gio.rc',
configuration: glibconfig_conf,
)
gio_win_res = windows.compile_resources(gio_win_rc)
win32_sources += [gio_win_res]
gio_win32_include_headers = files(
'gwin32inputstream.h',
'gwin32outputstream.h',
)
install_headers(gio_win32_include_headers, subdir : 'gio-win32-2.0/gio')
endif
gio_sources = files(
'gappinfo.c',
'gasynchelper.c',
'gasyncinitable.c',
'gasyncresult.c',
'gbufferedinputstream.c',
'gbufferedoutputstream.c',
'gbytesicon.c',
'gcancellable.c',
'gcharsetconverter.c',
'gcontextspecificgroup.c',
'gconverter.c',
'gconverterinputstream.c',
'gconverteroutputstream.c',
'gcredentials.c',
'gdatagrambased.c',
'gdatainputstream.c',
'gdataoutputstream.c',
'gdebugcontroller.c',
'gdebugcontrollerdbus.c',
'gdrive.c',
'gdummyfile.c',
'gdummyproxyresolver.c',
'gdummytlsbackend.c',
'gemblem.c',
'gemblemedicon.c',
'gfile.c',
'gfileattribute.c',
'gfileenumerator.c',
'gfileicon.c',
'gfileinfo.c',
'gfileinputstream.c',
'gfilemonitor.c',
'gfilenamecompleter.c',
'gfileoutputstream.c',
'gfileiostream.c',
'gfilterinputstream.c',
'gfilteroutputstream.c',
'gicon.c',
'ginetaddress.c',
'ginetaddressmask.c',
'ginetsocketaddress.c',
'ginitable.c',
'ginputstream.c',
'gioerror.c',
'giomodule.c',
'giomodule-priv.c',
'gioscheduler.c',
'giostream.c',
'gloadableicon.c',
'gmarshal-internal.c',
'gmount.c',
'gmemorymonitor.c',
'gmemorymonitordbus.c',
'gmemoryinputstream.c',
'gmemoryoutputstream.c',
'gmountoperation.c',
'gnativesocketaddress.c',
'gnativevolumemonitor.c',
'gnetworkaddress.c',
'gnetworking.c',
'gnetworkmonitor.c',
'gnetworkmonitorbase.c',
'gnetworkservice.c',
'goutputstream.c',
'gpermission.c',
'gpollableinputstream.c',
'gpollableoutputstream.c',
'gpollableutils.c',
'gpollfilemonitor.c',
2021-07-20 23:04:31 +02:00
'gpowerprofilemonitor.c',
'gpowerprofilemonitordbus.c',
'gproxy.c',
'gproxyaddress.c',
'gproxyaddressenumerator.c',
'gproxyresolver.c',
'gresolver.c',
'gresource.c',
'gresourcefile.c',
'gseekable.c',
'gsimpleasyncresult.c',
'gsimpleiostream.c',
'gsimplepermission.c',
'gsimpleproxyresolver.c',
'gsocket.c',
'gsocketaddress.c',
'gsocketaddressenumerator.c',
'gsocketclient.c',
'gsocketconnectable.c',
'gsocketconnection.c',
'gsocketcontrolmessage.c',
'gsocketinputstream.c',
'gsocketlistener.c',
'gsocketoutputstream.c',
'gsocketservice.c',
'gsrvtarget.c',
'gsubprocesslauncher.c',
'gsubprocess.c',
'gtask.c',
'gtcpconnection.c',
'gtcpwrapperconnection.c',
'gthemedicon.c',
'gthreadedsocketservice.c',
'gthreadedresolver.c',
'gthreadedresolver.h',
'gtlsbackend.c',
'gtlscertificate.c',
'gtlsclientconnection.c',
'gtlsconnection.c',
'gtlsdatabase.c',
'gtlsfiledatabase.c',
'gtlsinteraction.c',
'gtlspassword.c',
'gtlsserverconnection.c',
'gdtlsconnection.c',
'gdtlsclientconnection.c',
'gdtlsserverconnection.c',
'gunionvolumemonitor.c',
'gunixconnection.c',
'gunixfdlist.c',
'gunixcredentialsmessage.c',
'gunixsocketaddress.c',
'gvfs.c',
'gvolume.c',
'gvolumemonitor.c',
'gzlibcompressor.c',
'gzlibdecompressor.c',
'glistmodel.c',
'gliststore.c',
)
if get_option('default_library') != 'static'
gio_sources += files ('../glib/gtrace.c')
endif
gio_sources += appinfo_sources
gio_sources += contenttype_sources
gio_sources += gdbus_daemon_sources
gio_sources += unix_sources
gio_sources += win32_sources
gio_sources += application_sources
gio_sources += settings_sources
gio_sources += gdbus_sources
gio_sources += portal_sources
gio_sources += local_sources
MISSING_STUFF = '''
# This is read by gobject-introspection/misc/ and gtk-doc
gio-public-headers.txt: Makefile
'$(AM_V_GEN) echo $(gioinclude_HEADERS) $(giowin32include_HEADERS) $(giounixinclude_HEADERS) > $@.tmp && mv $@.tmp $@
gio.def: libgio-2.0.la
'$(AM_V_GEN) dumpbin.exe -exports .libs/libgio-2.0-0.dll | awk 'BEGIN { print "EXPORTS" } / +[[:digit:]]+ +[[:xdigit:]]+ +[[:xdigit:]]+/{ print $$4 }' > gio.def.tmp && mv gio.def.tmp gio.def
gio-2.0.lib: libgio-2.0.la gio.def
'$(AM_V_GEN) lib.exe -machine:@LIB_EXE_MACHINE_FLAG@ -name:libgio-2.0-$(LT_CURRENT_MINUS_AGE).dll -def:$(builddir)/gio.def -out:$@
'''
gio_headers = files(
'gappinfo.h',
'gasyncinitable.h',
'gasyncresult.h',
'gbufferedinputstream.h',
'gbufferedoutputstream.h',
'gbytesicon.h',
'gcancellable.h',
'gcontenttype.h',
'gcharsetconverter.h',
'gconverter.h',
'gconverterinputstream.h',
'gconverteroutputstream.h',
'gdatagrambased.h',
'gdatainputstream.h',
'gdataoutputstream.h',
'gdebugcontroller.h',
'gdebugcontrollerdbus.h',
'gdrive.h',
'gemblem.h',
'gemblemedicon.h',
'gfile.h',
'gfileattribute.h',
'gfileenumerator.h',
'gfileicon.h',
'gfileinfo.h',
'gfileinputstream.h',
'gfilemonitor.h',
'gfilenamecompleter.h',
'gfileoutputstream.h',
'gfileiostream.h',
'gfilterinputstream.h',
'gfilteroutputstream.h',
'gicon.h',
'ginetaddress.h',
'ginetaddressmask.h',
'ginetsocketaddress.h',
'ginitable.h',
'ginputstream.h',
'gio.h',
'gio-autocleanups.h',
'gioenums.h',
'gioerror.h',
'giomodule.h',
'gioscheduler.h',
'giostream.h',
'giotypes.h',
'gloadableicon.h',
'gmount.h',
'gmemoryinputstream.h',
'gmemorymonitor.h',
'gmemoryoutputstream.h',
'gmountoperation.h',
'gnativesocketaddress.h',
'gnativevolumemonitor.h',
'gnetworkaddress.h',
'gnetworkmonitor.h',
'gnetworkservice.h',
'goutputstream.h',
'gpermission.h',
'gpollableinputstream.h',
'gpollableoutputstream.h',
'gpollableutils.h',
2021-07-20 23:04:31 +02:00
'gpowerprofilemonitor.h',
'gproxy.h',
'gproxyaddress.h',
'gproxyaddressenumerator.h',
'gproxyresolver.h',
'gresolver.h',
'gresource.h',
'gseekable.h',
'gsimpleasyncresult.h',
'gsimpleiostream.h',
'gsimplepermission.h',
'gsimpleproxyresolver.h',
'gsocket.h',
'gsocketaddress.h',
'gsocketaddressenumerator.h',
'gsocketclient.h',
'gsocketconnectable.h',
'gsocketconnection.h',
'gsocketcontrolmessage.h',
'gsocketlistener.h',
'gsocketservice.h',
'gsrvtarget.h',
'gsubprocess.h',
'gsubprocesslauncher.h',
'gtask.h',
'gtcpconnection.h',
'gtcpwrapperconnection.h',
'gthemedicon.h',
'gthreadedsocketservice.h',
'gtlsbackend.h',
'gtlscertificate.h',
'gtlsclientconnection.h',
'gtlsconnection.h',
'gtlsdatabase.h',
'gtlsfiledatabase.h',
'gtlsinteraction.h',
'gtlspassword.h',
'gtlsserverconnection.h',
'gdtlsconnection.h',
'gdtlsclientconnection.h',
'gdtlsserverconnection.h',
'gunixconnection.h',
'gunixcredentialsmessage.h',
'gunixfdlist.h',
'gunixsocketaddress.h',
'gvfs.h',
'gvolume.h',
'gvolumemonitor.h',
'gzlibcompressor.h',
'gzlibdecompressor.h',
'glistmodel.h',
'gliststore.h',
)
gvisibility_h = custom_target(
output: 'gio-visibility.h',
command: [gen_visibility_macros, meson.project_version(), 'visibility-macros', 'GIO', '@OUTPUT@'],
install: true,
install_dir: gio_includedir,
2022-10-26 17:38:10 +02:00
# FIXME: Not needed with Meson >= 0.64.0
install_tag: 'devel',
)
gio_sources += gvisibility_h
gio_headers += application_headers
gio_headers += settings_headers
gio_headers += gdbus_headers
install_headers(gio_headers, install_dir : gio_includedir)
# We can't use gnome.mkenums() because the GNOME module looks for glib-mkenums
# in PATH, which means you can't bootstrap glib with its own glib-mkenums.
gioenumtypes_h = custom_target('gioenumtypes_h',
output : 'gioenumtypes.h',
capture : true,
input : gio_headers,
install : true,
install_dir : gio_includedir,
2022-10-26 17:38:10 +02:00
# FIXME: Not needed with Meson >= 0.64.0
install_tag: 'devel',
command : [python, glib_mkenums,
'--template', files('gioenumtypes.h.template'),
'@INPUT@', gnetworking_h])
gioenumtypes_c = custom_target('gioenumtypes_c',
output : 'gioenumtypes.c',
capture : true,
input : gio_headers,
depends : [gioenumtypes_h],
command : [python, glib_mkenums,
'--template', files('gioenumtypes.c.template'),
'@INPUT@', gnetworking_h])
gioenumtypes_dep = declare_dependency(sources : [gioenumtypes_h, glib_enumtypes_h])
# inotify
if glib_conf.has('HAVE_SYS_INOTIFY_H') and have_func_inotify_init1
subdir('inotify')
internal_deps += [ inotify_lib ]
endif
# kevent
if have_func_kqueue and have_func_kevent
subdir('kqueue')
internal_deps += [ kqueue_lib ]
endif
if host_system == 'windows'
subdir('win32')
internal_deps += [ giowin32_lib ]
endif
if have_bash
bash_comp_inst_dir = ''
if bash_comp_dep.found()
bash_comp_dir_override = bash_comp_dep.version().version_compare('>= 2.10') ? ['datadir', get_option('datadir')] : ['prefix', get_option('prefix')]
bash_comp_inst_dir = bash_comp_dep.get_variable('completionsdir', pkgconfig_define: bash_comp_dir_override)
endif
if bash_comp_inst_dir == ''
message('Found bash-completion but the .pc file did not set \'completionsdir\', fallback to a predefined path')
bash_comp_inst_dir = join_paths(get_option('datadir'), 'bash-completion/completions')
endif
install_data([
'completion/gapplication',
'completion/gdbus',
'completion/gio',
'completion/gsettings',
'completion/gresource'
],
install_dir: bash_comp_inst_dir,
install_tag: 'bin',
)
endif
if enable_dtrace
gio_dtrace_obj = dtrace_obj_gen.process('gio_probes.d')
gio_dtrace_hdr = dtrace_hdr_gen.process('gio_probes.d')
else
gio_dtrace_obj = []
gio_dtrace_hdr = []
endif
libgio = library('gio-2.0',
gioenumtypes_h, gioenumtypes_c, gnetworking_h, gio_sources,
gio_dtrace_hdr, gio_dtrace_obj,
version : library_version,
soversion : soversion,
darwin_versions : darwin_versions,
install : true,
include_directories : [configinc, gioinc],
# '$(gio_win32_res_ldflag)',
link_with: internal_deps,
dependencies : [libz_dep, libdl_dep, libmount_dep, libglib_dep,
libgobject_dep, libgmodule_dep, selinux_dep, xattr_dep,
platform_deps, network_libs, libsysprof_capture_dep,
gioenumtypes_dep, gvdb_dep],
c_args : [gio_c_args, gio_c_args_internal],
objc_args : [gio_c_args, gio_c_args_internal],
gnu_symbol_visibility : 'hidden',
# intl.lib is not compatible with SAFESEH
link_args : [noseh_link_args, glib_link_flags],
)
if get_option('gio_module_dir') != ''
pkgconfig_giomodulesdir = join_paths('${prefix}', get_option('gio_module_dir'))
else
pkgconfig_giomodulesdir = join_paths('${libdir}', 'gio', 'modules')
endif
schemas_subdir = join_paths('glib-2.0', 'schemas')
libgio_dep = declare_dependency(link_with : libgio,
dependencies : [libgmodule_dep, libgobject_dep, gioenumtypes_dep],
sources: gvisibility_h,
include_directories : [gioinc],
variables : [
'schemasdir=' + join_paths(glib_datadir, schemas_subdir),
'giomoduledir=' + glib_giomodulesdir,
],
)
pkg.generate(libgio,
requires : ['glib-2.0', 'gobject-2.0'],
variables : ['datadir=' + join_paths('${prefix}', get_option('datadir')),
'schemasdir=' + join_paths('${datadir}', schemas_subdir),
'bindir=' + join_paths('${prefix}', get_option('bindir')),
'giomoduledir=' + pkgconfig_giomodulesdir,
'gio=' + join_paths('${bindir}', 'gio'),
gio: Optionally install trigger executables to architecture-specific paths In Debian-style multiarch (libdir = lib/x86_64-linux-gnu or similar), Red-Hat-style multilib (libdir = lib64 or lib) and Arch-style multilib (libdir = lib or lib32), we have to run a separate version of gio-querymodules to discover 32- or 64-bit modules on x86. Installing modules in the directory used for each word size needs to trigger recompilation of the correct modules list. Debian, Fedora and Arch currently all have patches to facilitate this: Debian moves gio-querymodules into ${libdir}/glib-2.0 and provides a compat symlink in ${bindir}, while Fedora and Arch rename one or both of the gio-querymodules executables to give it a -32 or -64 suffix. We can avoid the need for these patches by making this a build option. Doing this upstream has the advantage that the pkg-config metadata for each architecture points to the correct executable and is in sync with reality. I'm using Debian's installation scheme with a separate directory here, because the word-size suffix used in Fedora and Arch only works for the common case of 32- and 64-bit multilib, and does not cover scenarios where there can be more than one ABI with the same word size, such as multiarch cross-compilation or alternative ABIs like x32. Now that we have this infrastructure, it's also convenient to use it for glib-compile-schemas. This works with /usr/share, so it only needs to be run for one architecture (typically the system's primary architecture), but using /usr/bin/glib-compile-schemas for the trigger would result in either primary and secondary architectures trying to overwrite each other's /usr/bin/glib-compile-schemas binaries, or a circular dependency (the GLib library would have to depend on a common package that contains glib-compile-schemas, but glib-compile-schemas depends on the GLib library). Installing a glib-compile-schemas binary in an architecture-specific location alongside each GLib library bypasses this problem. Signed-off-by: Simon McVittie <smcv@collabora.com>
2022-07-14 15:24:33 +02:00
'gio_querymodules=@0@'.format(pkgconfig_multiarch_bindir / 'gio-querymodules'),
'glib_compile_schemas=@0@'.format(pkgconfig_multiarch_bindir / 'glib-compile-schemas'),
'glib_compile_resources=' + join_paths('${bindir}', 'glib-compile-resources'),
'gdbus=' + join_paths('${bindir}', 'gdbus'),
'gdbus_codegen=' + join_paths('${bindir}', 'gdbus-codegen'),
'gresource=' + join_paths('${bindir}', 'gresource'),
'gsettings=' + join_paths('${bindir}', 'gsettings')],
version : glib_version,
install_dir : glib_pkgconfigreldir,
filebase : 'gio-2.0',
name : 'GIO',
description : 'glib I/O library',
)
meson.override_dependency('gio-2.0', libgio_dep)
if host_system == 'windows'
pkg.generate(requires : ['gobject-2.0', 'gmodule-no-export-2.0', 'gio-2.0'],
subdirs : ['gio-win32-2.0'],
version : glib_version,
install_dir : glib_pkgconfigreldir,
filebase : 'gio-windows-2.0',
name : 'GIO Windows specific APIs',
description : 'Windows specific headers for glib I/O library',
)
meson.override_dependency('gio-windows-2.0', libgio_dep)
else
pkg.generate(requires : ['gobject-2.0', 'gio-2.0'],
subdirs : ['gio-unix-2.0'],
version : glib_version,
install_dir : glib_pkgconfigreldir,
filebase : 'gio-unix-2.0',
name : 'GIO unix specific APIs',
description : 'unix specific headers for glib I/O library',
)
meson.override_dependency('gio-unix-2.0', libgio_dep)
endif
if host_system == 'windows'
# Hack till https://github.com/mesonbuild/meson/issues/2324 is fixed
libgiounix_dep = dependency('', required : false)
libgiowin32_dep = libgio_dep
else
libgiowin32_dep = dependency('', required : false)
libgiounix_dep = libgio_dep
endif
# Dependencies used by executables below
have_libelf = false
libelf = dependency('libelf', version : '>= 0.8.12', required : get_option ('libelf'))
if libelf.found()
have_libelf = true
else
# This fallback is necessary on *BSD. elfutils isn't the only libelf
# implementation, and *BSD usually includes their own libelf as a system
# library which doesn't have a corresponding .pc file.
libelf = cc.find_library('elf', required : get_option ('libelf'))
have_libelf = libelf.found()
have_libelf = have_libelf and cc.has_function('elf_begin', dependencies : libelf)
have_libelf = have_libelf and cc.has_function('elf_getshdrstrndx', dependencies : libelf)
have_libelf = have_libelf and cc.has_function('elf_getshdrnum', dependencies : libelf)
have_libelf = have_libelf and cc.has_header('libelf.h')
endif
if have_libelf
glib_conf.set('HAVE_LIBELF', 1)
else
libelf = []
endif
gconstructor_as_data_h = custom_target('gconstructor_as_data.h',
input : ['data-to-c.py', files('../glib/gconstructor.h')],
output : ['gconstructor_as_data.h'],
command : [python, '@INPUT0@', '@INPUT1@', 'gconstructor_code', '@OUTPUT@'])
# Several installed executables
gio_tool_sources = [
'gio-tool.c',
'gio-tool.h',
'gio-tool-cat.c',
'gio-tool-copy.c',
'gio-tool-info.c',
'gio-tool-launch.c',
'gio-tool-list.c',
'gio-tool-mime.c',
'gio-tool-mkdir.c',
'gio-tool-monitor.c',
'gio-tool-mount.c',
'gio-tool-move.c',
'gio-tool-open.c',
'gio-tool-rename.c',
'gio-tool-remove.c',
'gio-tool-save.c',
'gio-tool-set.c',
'gio-tool-trash.c',
'gio-tool-tree.c',
]
executable('gio', gio_tool_sources,
install : true,
install_tag : 'bin',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep])
executable('gresource', 'gresource-tool.c',
install : true,
install_tag : 'bin',
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libelf, libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep])
gio_querymodules = executable('gio-querymodules', 'gio-querymodules.c', 'giomodule-priv.c',
install : true,
gio: Optionally install trigger executables to architecture-specific paths In Debian-style multiarch (libdir = lib/x86_64-linux-gnu or similar), Red-Hat-style multilib (libdir = lib64 or lib) and Arch-style multilib (libdir = lib or lib32), we have to run a separate version of gio-querymodules to discover 32- or 64-bit modules on x86. Installing modules in the directory used for each word size needs to trigger recompilation of the correct modules list. Debian, Fedora and Arch currently all have patches to facilitate this: Debian moves gio-querymodules into ${libdir}/glib-2.0 and provides a compat symlink in ${bindir}, while Fedora and Arch rename one or both of the gio-querymodules executables to give it a -32 or -64 suffix. We can avoid the need for these patches by making this a build option. Doing this upstream has the advantage that the pkg-config metadata for each architecture points to the correct executable and is in sync with reality. I'm using Debian's installation scheme with a separate directory here, because the word-size suffix used in Fedora and Arch only works for the common case of 32- and 64-bit multilib, and does not cover scenarios where there can be more than one ABI with the same word size, such as multiarch cross-compilation or alternative ABIs like x32. Now that we have this infrastructure, it's also convenient to use it for glib-compile-schemas. This works with /usr/share, so it only needs to be run for one architecture (typically the system's primary architecture), but using /usr/bin/glib-compile-schemas for the trigger would result in either primary and secondary architectures trying to overwrite each other's /usr/bin/glib-compile-schemas binaries, or a circular dependency (the GLib library would have to depend on a common package that contains glib-compile-schemas, but glib-compile-schemas depends on the GLib library). Installing a glib-compile-schemas binary in an architecture-specific location alongside each GLib library bypasses this problem. Signed-off-by: Simon McVittie <smcv@collabora.com>
2022-07-14 15:24:33 +02:00
install_dir : multiarch_bindir,
install_tag : 'bin',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep])
glib_compile_schemas = executable('glib-compile-schemas',
['glib-compile-schemas.c'],
install : true,
gio: Optionally install trigger executables to architecture-specific paths In Debian-style multiarch (libdir = lib/x86_64-linux-gnu or similar), Red-Hat-style multilib (libdir = lib64 or lib) and Arch-style multilib (libdir = lib or lib32), we have to run a separate version of gio-querymodules to discover 32- or 64-bit modules on x86. Installing modules in the directory used for each word size needs to trigger recompilation of the correct modules list. Debian, Fedora and Arch currently all have patches to facilitate this: Debian moves gio-querymodules into ${libdir}/glib-2.0 and provides a compat symlink in ${bindir}, while Fedora and Arch rename one or both of the gio-querymodules executables to give it a -32 or -64 suffix. We can avoid the need for these patches by making this a build option. Doing this upstream has the advantage that the pkg-config metadata for each architecture points to the correct executable and is in sync with reality. I'm using Debian's installation scheme with a separate directory here, because the word-size suffix used in Fedora and Arch only works for the common case of 32- and 64-bit multilib, and does not cover scenarios where there can be more than one ABI with the same word size, such as multiarch cross-compilation or alternative ABIs like x32. Now that we have this infrastructure, it's also convenient to use it for glib-compile-schemas. This works with /usr/share, so it only needs to be run for one architecture (typically the system's primary architecture), but using /usr/bin/glib-compile-schemas for the trigger would result in either primary and secondary architectures trying to overwrite each other's /usr/bin/glib-compile-schemas binaries, or a circular dependency (the GLib library would have to depend on a common package that contains glib-compile-schemas, but glib-compile-schemas depends on the GLib library). Installing a glib-compile-schemas binary in an architecture-specific location alongside each GLib library bypasses this problem. Signed-off-by: Simon McVittie <smcv@collabora.com>
2022-07-14 15:24:33 +02:00
install_dir : multiarch_bindir,
install_tag : 'bin',
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep, gvdb_dep])
glib_compile_resources = executable('glib-compile-resources',
[gconstructor_as_data_h, 'glib-compile-resources.c'],
install : true,
install_tag : 'bin-devel',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep, gvdb_dep])
# Cannot override those programs in cross compilation case because they are
# native executables that cannot be run on the build machine.
# See https://gitlab.gnome.org/GNOME/glib/issues/1859.
if meson.can_run_host_binaries()
meson.override_find_program('glib-compile-schemas', glib_compile_schemas)
meson.override_find_program('glib-compile-resources', glib_compile_resources)
meson.override_find_program('gio-querymodules', gio_querymodules)
endif
executable('gsettings', 'gsettings-tool.c',
install : true,
install_tag : 'bin',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep])
install_data('gschema.dtd',
install_dir : get_option('datadir') / schemas_subdir,
install_tag : 'devel',
)
install_data(['gschema.loc', 'gschema.its'],
install_dir : get_option('datadir') / 'gettext' / 'its',
install_tag : 'devel',
)
executable('gdbus', 'gdbus-tool.c',
install : true,
install_tag : 'bin',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep])
if host_system != 'windows' and not glib_have_cocoa
executable('gapplication', 'gapplication-tool.c',
install : true,
install_tag : 'bin',
c_args : gio_c_args,
# intl.lib is not compatible with SAFESEH
link_args : noseh_link_args,
dependencies : [libgio_dep, libgobject_dep, libgmodule_dep, libglib_dep])
endif
if enable_systemtap
gio_stp = configure_file(input : 'gio.stp.in',
output : '@0@.stp'.format(libgio.full_path().split('/').get(-1)),
configuration : stp_cdata,
install_dir : tapset_install_dir,
2022-10-26 17:38:10 +02:00
install_tag : 'systemtap',
)
endif
gio: Optionally install trigger executables to architecture-specific paths In Debian-style multiarch (libdir = lib/x86_64-linux-gnu or similar), Red-Hat-style multilib (libdir = lib64 or lib) and Arch-style multilib (libdir = lib or lib32), we have to run a separate version of gio-querymodules to discover 32- or 64-bit modules on x86. Installing modules in the directory used for each word size needs to trigger recompilation of the correct modules list. Debian, Fedora and Arch currently all have patches to facilitate this: Debian moves gio-querymodules into ${libdir}/glib-2.0 and provides a compat symlink in ${bindir}, while Fedora and Arch rename one or both of the gio-querymodules executables to give it a -32 or -64 suffix. We can avoid the need for these patches by making this a build option. Doing this upstream has the advantage that the pkg-config metadata for each architecture points to the correct executable and is in sync with reality. I'm using Debian's installation scheme with a separate directory here, because the word-size suffix used in Fedora and Arch only works for the common case of 32- and 64-bit multilib, and does not cover scenarios where there can be more than one ABI with the same word size, such as multiarch cross-compilation or alternative ABIs like x32. Now that we have this infrastructure, it's also convenient to use it for glib-compile-schemas. This works with /usr/share, so it only needs to be run for one architecture (typically the system's primary architecture), but using /usr/bin/glib-compile-schemas for the trigger would result in either primary and secondary architectures trying to overwrite each other's /usr/bin/glib-compile-schemas binaries, or a circular dependency (the GLib library would have to depend on a common package that contains glib-compile-schemas, but glib-compile-schemas depends on the GLib library). Installing a glib-compile-schemas binary in an architecture-specific location alongside each GLib library bypasses this problem. Signed-off-by: Simon McVittie <smcv@collabora.com>
2022-07-14 15:24:33 +02:00
if multiarch_bindir != get_option('bindir')
foreach exe : ['gio-querymodules', 'glib-compile-schemas']
if meson.version().version_compare('>=0.61.0')
install_symlink(
exe,
install_dir : get_option('bindir'),
pointing_to : get_option('prefix') / multiarch_bindir / exe,
)
else
warning(
'Please use Meson >= 0.61.0 or create a symlink @1@ -> @2@ in packaging'.format(
get_option('prefix') / get_option('bindir') / exe,
get_option('prefix') / multiarch_bindir / exe,
)
)
endif
endforeach
endif
if build_tests
subdir('tests')
endif
# The following is an example for building internal marshallers that are used
# by GIO. We cannot guarantee glib-genmarshal availability while building GLib
# so they are pre-generated and placed into gmarshal-internal.[ch].
#
# gmarshal_internal = gnome.genmarshal('gmarshal-internal',
# sources: 'gmarshal-internal.list',
# prefix: '_g_cclosure_marshal',
# valist_marshallers: true,
# internal: true,
# )