eudev/Makefile

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# Makefile for udev
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#
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# Copyright (C) 2003 Greg Kroah-Hartman <greg@kroah.com>
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#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; version 2 of the License.
#
# This program 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
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
#
# Set the following to control the use of syslog
# Set it to `false' to remove all logging
USE_LOG = true
# Set the following to `true' to log the debug
# and make a unstripped, unoptimized binary.
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# Leave this set to `false' for production use.
DEBUG = false
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[PATCH] D-BUS patch for udev-008 Attached is a patch against udev-008 to send out a D-BUS message when a device node is added or removed. Using D-BUS lingo, udev acquires the org.kernel.udev service and sends out a NodeCreated or NodeDeleted signal on the org.kernel.udev.NodeMonitor interface. Each signal carries two parameters: the node in question and the corresponding sysfs path. [Note: the D-BUS concepts of service, interface, object can be a bit confusing at first glance] An example program listening for these messages looks like this #!/usr/bin/python import dbus import gtk def udev_signal_received(dbus_iface, member, service, object_path, message): [filename, sysfs_path] = message.get_args_list() if member=='NodeCreated': print 'Node %s created for %s'%(filename, sysfs_path) elif member=='NodeDeleted': print 'Node %s deleted for %s'%(filename, sysfs_path) def main(): bus = dbus.Bus(dbus.Bus.TYPE_SYSTEM) bus.add_signal_receiver(udev_signal_received, 'org.kernel.udev.NodeMonitor', # interface 'org.kernel.udev', # service '/org/kernel/udev/NodeMonitor') # object gtk.mainloop() if __name__ == '__main__': main() and this is the output when hot-plugging some usb-storage. [david@laptop udev-008]$ ~/node_monitor.py Node /udev/sda created for /block/sda Node /udev/sda1 created for /block/sda/sda1 Node /udev/sda1 deleted for /block/sda/sda1 Node /udev/sda deleted for /block/sda The patch requires D-BUS 0.20 or later while the python example program requires D-BUS from CVS as I only recently applied a patch against the python bindings.
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# Set the following to `true' to make udev emit a D-BUS signal when a
# new node is created.
USE_DBUS = false
[PATCH] D-BUS patch for udev-008 Attached is a patch against udev-008 to send out a D-BUS message when a device node is added or removed. Using D-BUS lingo, udev acquires the org.kernel.udev service and sends out a NodeCreated or NodeDeleted signal on the org.kernel.udev.NodeMonitor interface. Each signal carries two parameters: the node in question and the corresponding sysfs path. [Note: the D-BUS concepts of service, interface, object can be a bit confusing at first glance] An example program listening for these messages looks like this #!/usr/bin/python import dbus import gtk def udev_signal_received(dbus_iface, member, service, object_path, message): [filename, sysfs_path] = message.get_args_list() if member=='NodeCreated': print 'Node %s created for %s'%(filename, sysfs_path) elif member=='NodeDeleted': print 'Node %s deleted for %s'%(filename, sysfs_path) def main(): bus = dbus.Bus(dbus.Bus.TYPE_SYSTEM) bus.add_signal_receiver(udev_signal_received, 'org.kernel.udev.NodeMonitor', # interface 'org.kernel.udev', # service '/org/kernel/udev/NodeMonitor') # object gtk.mainloop() if __name__ == '__main__': main() and this is the output when hot-plugging some usb-storage. [david@laptop udev-008]$ ~/node_monitor.py Node /udev/sda created for /block/sda Node /udev/sda1 created for /block/sda/sda1 Node /udev/sda1 deleted for /block/sda/sda1 Node /udev/sda deleted for /block/sda The patch requires D-BUS 0.20 or later while the python example program requires D-BUS from CVS as I only recently applied a patch against the python bindings.
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ROOT = udev
[PATCH] spilt udev into pieces On Thu, Jan 22, 2004 at 01:27:45AM +0100, Kay Sievers wrote: > On Wed, Jan 21, 2004 at 02:38:25PM +0100, Kay Sievers wrote: > > On Thu, Jan 15, 2004 at 01:45:10PM -0800, Greg KH wrote: > > > On Thu, Jan 15, 2004 at 10:36:25PM +0800, Ling, Xiaofeng wrote: > > > > Hi, Greg > > > > I wrote a simple implementation for the two pieces > > > > of send and receive hotplug event, > > > > use a message queue and a list for the out of order > > > > hotplug event. It also has a timeout timer of 3 seconds. > > > > They are now separate program. the file nseq is the test script. > > > > Could you have a look to see wether it is feasible? > > > > If so, I'll continue to merge with udev. > > > > > > Yes, very nice start. Please continue on. > > > > > > One minor comment, please stick with the kernel coding style when you > > > are writing new code for udev. > > > > I took the code from Xiaofeng, cleaned the whitespace, renamed some bits, > > tweaked the debugging, added the udev exec and created a patch for the current tree. > > > > It seems functional now, by simply executing our current udev (dirty hack). > > It reorders the incoming events and if one is missing it delays the > > execution of the following ones up to a maximum of 10 seconds. > > > > Test script is included, but you can't mix hotplug sequence numbers and > > test script numbers, it will result in waiting for the missing numbers :) > > Hey, nobody want's to play with me? > So here I'm chatting with myself :) > > This is the next version with signal handling for resetting the expected > signal number. I changed the behaviour of the timeout to skip all > missing events at once and to proceed with the next event in the queue. > > So it's now possible to use the test script at any time, cause it resets > the daemon, if real hotplug event coming in later all missing nimbers will > be skipped after a timeout of 10 seconds and the queued events are applied. Here is the next updated updated version to apply to the lastet udev. I've added infrastructure for getting the state of the IPC queue in the sender and set the program to exec by the daemon. Also the magic key id is replaced by the usual key generation by path/nr. It looks promising, I use it on my machine and my 4in1 USB-flash-reader connect/disconnect emits the events "randomly" but udevd is able to reorder it and calls our normal udev in the right order.
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DAEMON = udevd
SENDER = udevsend
HELPER = udevinfo
TESTER = udevtest
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VERSION = 016_bk
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INSTALL_DIR = /usr/local/bin
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RELEASE_NAME = $(ROOT)-$(VERSION)
LOCAL_CFG_DIR = etc/udev
HOTPLUG_EXEC = $(ROOT)
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DESTDIR =
KERNEL_DIR = /lib/modules/${shell uname -r}/build
# override this to make udev look in a different location for it's config files
prefix =
exec_prefix = ${prefix}
etcdir = ${prefix}/etc
sbindir = ${exec_prefix}/sbin
mandir = ${prefix}/usr/share/man
hotplugdir = ${etcdir}/hotplug.d/default
[PATCH] D-BUS patch for udev-008 Attached is a patch against udev-008 to send out a D-BUS message when a device node is added or removed. Using D-BUS lingo, udev acquires the org.kernel.udev service and sends out a NodeCreated or NodeDeleted signal on the org.kernel.udev.NodeMonitor interface. Each signal carries two parameters: the node in question and the corresponding sysfs path. [Note: the D-BUS concepts of service, interface, object can be a bit confusing at first glance] An example program listening for these messages looks like this #!/usr/bin/python import dbus import gtk def udev_signal_received(dbus_iface, member, service, object_path, message): [filename, sysfs_path] = message.get_args_list() if member=='NodeCreated': print 'Node %s created for %s'%(filename, sysfs_path) elif member=='NodeDeleted': print 'Node %s deleted for %s'%(filename, sysfs_path) def main(): bus = dbus.Bus(dbus.Bus.TYPE_SYSTEM) bus.add_signal_receiver(udev_signal_received, 'org.kernel.udev.NodeMonitor', # interface 'org.kernel.udev', # service '/org/kernel/udev/NodeMonitor') # object gtk.mainloop() if __name__ == '__main__': main() and this is the output when hot-plugging some usb-storage. [david@laptop udev-008]$ ~/node_monitor.py Node /udev/sda created for /block/sda Node /udev/sda1 created for /block/sda/sda1 Node /udev/sda1 deleted for /block/sda/sda1 Node /udev/sda deleted for /block/sda The patch requires D-BUS 0.20 or later while the python example program requires D-BUS from CVS as I only recently applied a patch against the python bindings.
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dbusdir = ${etcdir}/dbus-1/system.d
configdir = ${etcdir}/udev/
initdir = ${etcdir}/init.d/
srcdir = .
INSTALL = /usr/bin/install -c
INSTALL_PROGRAM = ${INSTALL}
INSTALL_DATA = ${INSTALL} -m 644
INSTALL_SCRIPT = ${INSTALL_PROGRAM}
# To build any of the extras programs, run with:
# make EXTRAS="extras/a extras/b"
EXTRAS=
# place to put our device nodes
udevdir = ${prefix}/udev
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# Comment out this line to build with something other
# than the local version of klibc
#USE_KLIBC = true
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# If you are running a cross compiler, you may want to set this
# to something more interesting, like "arm-linux-". If you want
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# to compile vs uClibc, that can be done here as well.
CROSS = #/usr/i386-linux-uclibc/usr/bin/i386-uclibc-
CC = $(CROSS)gcc
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LD = $(CROSS)gcc
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AR = $(CROSS)ar
STRIP = $(CROSS)strip
RANLIB = $(CROSS)ranlib
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export CROSS CC AR STRIP RANLIB CFLAGS LDFLAGS LIB_OBJS ARCH_LIB_OBJS CRT0
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# code taken from uClibc to determine the current arch
ARCH := ${shell $(CC) -dumpmachine | sed -e s'/-.*//' -e 's/i.86/i386/' -e 's/sparc.*/sparc/' \
-e 's/arm.*/arm/g' -e 's/m68k.*/m68k/' -e 's/powerpc/ppc/g'}
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# code taken from uClibc to determine the gcc include dir
GCCINCDIR := ${shell $(CC) -print-search-dirs | sed -ne "s/install: \(.*\)/\1include/gp"}
# code taken from uClibc to determine the libgcc.a filename
GCC_LIB := $(shell $(CC) -print-libgcc-file-name )
# use '-Os' optimization if available, else use -O2
OPTIMIZATION := ${shell if $(CC) -Os -S -o /dev/null -xc /dev/null >/dev/null 2>&1; \
then echo "-Os"; else echo "-O2" ; fi}
# add -Wredundant-decls when libsysfs gets cleaned up
WARNINGS := -Wall
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# Some nice architecture specific optimizations
ifeq ($(strip $(TARGET_ARCH)),arm)
OPTIMIZATION+=-fstrict-aliasing
endif
ifeq ($(strip $(TARGET_ARCH)),i386)
OPTIMIZATION+=-march=i386
OPTIMIZATION += ${shell if $(CC) -mpreferred-stack-boundary=2 -S -o /dev/null -xc \
/dev/null >/dev/null 2>&1; then echo "-mpreferred-stack-boundary=2"; fi}
OPTIMIZATION += ${shell if $(CC) -malign-functions=0 -malign-jumps=0 -S -o /dev/null -xc \
/dev/null >/dev/null 2>&1; then echo "-malign-functions=0 -malign-jumps=0"; fi}
CFLAGS+=-pipe
else
CFLAGS+=-pipe
endif
ifeq ($(strip $(USE_LOG)),true)
CFLAGS += -DLOG
endif
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# if DEBUG is enabled, then we do not strip or optimize
ifeq ($(strip $(DEBUG)),true)
CFLAGS += -O1 -g -DDEBUG -D_GNU_SOURCE
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LDFLAGS += -Wl,-warn-common
STRIPCMD = /bin/true -Since_we_are_debugging
else
CFLAGS += $(OPTIMIZATION) -fomit-frame-pointer -D_GNU_SOURCE
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LDFLAGS += -s -Wl,-warn-common
STRIPCMD = $(STRIP) -s --remove-section=.note --remove-section=.comment
endif
# If we are using our version of klibc, then we need to build, link it, and then
# link udev against it statically.
# Otherwise, use glibc and link dynamically.
ifeq ($(strip $(USE_KLIBC)),true)
KLIBC_BASE = $(PWD)/klibc
KLIBC_DIR = $(KLIBC_BASE)/klibc
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INCLUDE_DIR := $(KLIBC_DIR)/include
LINUX_INCLUDE_DIR := $(KERNEL_DIR)/include
# LINUX_INCLUDE_DIR := $(KLIBC_BASE)/linux/include
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include $(KLIBC_DIR)/arch/$(ARCH)/MCONFIG
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# arch specific objects
ARCH_LIB_OBJS = \
$(KLIBC_DIR)/libc.a
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CRT0 = $(KLIBC_DIR)/crt0.o
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LIBC = $(ARCH_LIB_OBJS) $(LIB_OBJS) $(CRT0)
CFLAGS += $(WARNINGS) -nostdinc \
-D__KLIBC__ -fno-builtin-printf \
-I$(INCLUDE_DIR) \
-I$(KLIBC_DIR)/arch/$(ARCH)/include \
-I$(INCLUDE_DIR)/bits$(BITSIZE) \
-I$(GCCINCDIR) \
-I$(LINUX_INCLUDE_DIR)
LIB_OBJS =
LDFLAGS = --static --nostdlib -nostartfiles -nodefaultlibs
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else
WARNINGS += -Wshadow -Wstrict-prototypes -Wmissing-prototypes -Wmissing-declarations
CRT0 =
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LIBC =
CFLAGS += $(WARNINGS) -I$(GCCINCDIR)
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LIB_OBJS = -lc
LDFLAGS =
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endif
CFLAGS += -I$(PWD)/libsysfs
all: $(ROOT) $(SENDER) $(DAEMON) $(HELPER) $(TESTER)
@extras="$(EXTRAS)" ; for target in $$extras ; do \
echo $$target ; \
$(MAKE) prefix=$(prefix) \
LD="$(LD)" \
SYSFS="$(SYSFS)" \
KERNEL_DIR="$(KERNEL_DIR)" \
-C $$target $@ ; \
done ; \
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$(ARCH_LIB_OBJS) : $(CRT0)
$(CRT0):
$(MAKE) -C klibc KERNEL_DIR=$(KERNEL_DIR)
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TDB = tdb/tdb.o \
tdb/spinlock.o
SYSFS = $(PWD)/libsysfs/sysfs_bus.o \
$(PWD)/libsysfs/sysfs_class.o \
$(PWD)/libsysfs/sysfs_device.o \
$(PWD)/libsysfs/sysfs_dir.o \
$(PWD)/libsysfs/sysfs_driver.o \
$(PWD)/libsysfs/sysfs_utils.o \
$(PWD)/libsysfs/dlist.o
OBJS = udev_config.o \
udev-add.o \
udev-remove.o \
udevdb.o \
namedev.o \
namedev_parse.o \
$(SYSFS) \
$(TDB)
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HEADERS = udev.h \
namedev.h \
udev_version.h \
udev_dbus.h \
udevdb.h \
klibc_fixups.h \
logging.h \
list.h
ifeq ($(strip $(USE_KLIBC)),true)
OBJS += klibc_fixups.o
endif
ifeq ($(USE_DBUS), true)
CFLAGS += -DUSE_DBUS
CFLAGS += $(shell pkg-config --cflags dbus-1)
LDFLAGS += $(shell pkg-config --libs dbus-1)
OBJS += udev_dbus.o
endif
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# header files automatically generated
GEN_HEADERS = udev_version.h
# Rules on how to create the generated header files
udev_version.h:
@echo \#define UDEV_VERSION \"$(VERSION)\" > $@
@echo \#define UDEV_ROOT \"$(udevdir)/\" >> $@
@echo \#define UDEV_DB \"$(udevdir)/\.udev.tdb\" >> $@
@echo \#define UDEV_CONFIG_DIR \"$(configdir)\" >> $@
@echo \#define UDEV_CONFIG_FILE \"$(configdir)\udev.conf\" >> $@
@echo \#define UDEV_RULES_FILE \"$(configdir)\udev.rules\" >> $@
@echo \#define UDEV_PERMISSION_FILE \"$(configdir)\udev.permissions\" >> $@
@echo \#define UDEV_LOG_DEFAULT \"yes\" >> $@
@echo \#define UDEV_BIN \"$(DESTDIR)$(sbindir)/udev\" >> $@
@echo \#define UDEVD_BIN \"$(DESTDIR)$(sbindir)/udevd\" >> $@
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# config files automatically generated
GEN_CONFIGS = $(LOCAL_CFG_DIR)/udev.conf
# Rules on how to create the generated config files
$(LOCAL_CFG_DIR)/udev.conf:
sed -e "s:@udevdir@:$(udevdir):" < $(LOCAL_CFG_DIR)/udev.conf.in > $@
$(OBJS): $(GEN_HEADERS)
$(ROOT).o: $(GEN_HEADERS)
$(TESTER).o: $(GEN_HEADERS)
$(HELPER).o: $(GEN_HEADERS)
$(DAEMON).o: $(GEN_HEADERS)
$(SENDER).o: $(GEN_HEADERS)
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$(ROOT): $(ROOT).o $(OBJS) $(HEADERS) $(LIBC)
$(LD) $(LDFLAGS) -o $@ $(CRT0) udev.o $(OBJS) $(LIB_OBJS) $(ARCH_LIB_OBJS)
$(STRIPCMD) $@
$(TESTER): $(TESTER).o $(OBJS) $(HEADERS) $(LIBC)
$(LD) $(LDFLAGS) -o $@ $(CRT0) udevtest.o $(OBJS) $(LIB_OBJS) $(ARCH_LIB_OBJS)
$(STRIPCMD) $@
$(HELPER): $(HELPER).o $(OBJS) $(HEADERS) $(LIBC)
$(LD) $(LDFLAGS) -o $@ $(CRT0) udevinfo.o udev_config.o udevdb.o $(SYSFS) $(TDB) $(LIB_OBJS) $(ARCH_LIB_OBJS)
$(STRIPCMD) $@
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$(DAEMON): $(DAEMON).o udevd.h $(LIBC)
$(LD) $(LDFLAGS) -o $@ $(CRT0) udevd.o $(LIB_OBJS) $(ARCH_LIB_OBJS)
$(STRIPCMD) $@
[PATCH] spilt udev into pieces On Thu, Jan 22, 2004 at 01:27:45AM +0100, Kay Sievers wrote: > On Wed, Jan 21, 2004 at 02:38:25PM +0100, Kay Sievers wrote: > > On Thu, Jan 15, 2004 at 01:45:10PM -0800, Greg KH wrote: > > > On Thu, Jan 15, 2004 at 10:36:25PM +0800, Ling, Xiaofeng wrote: > > > > Hi, Greg > > > > I wrote a simple implementation for the two pieces > > > > of send and receive hotplug event, > > > > use a message queue and a list for the out of order > > > > hotplug event. It also has a timeout timer of 3 seconds. > > > > They are now separate program. the file nseq is the test script. > > > > Could you have a look to see wether it is feasible? > > > > If so, I'll continue to merge with udev. > > > > > > Yes, very nice start. Please continue on. > > > > > > One minor comment, please stick with the kernel coding style when you > > > are writing new code for udev. > > > > I took the code from Xiaofeng, cleaned the whitespace, renamed some bits, > > tweaked the debugging, added the udev exec and created a patch for the current tree. > > > > It seems functional now, by simply executing our current udev (dirty hack). > > It reorders the incoming events and if one is missing it delays the > > execution of the following ones up to a maximum of 10 seconds. > > > > Test script is included, but you can't mix hotplug sequence numbers and > > test script numbers, it will result in waiting for the missing numbers :) > > Hey, nobody want's to play with me? > So here I'm chatting with myself :) > > This is the next version with signal handling for resetting the expected > signal number. I changed the behaviour of the timeout to skip all > missing events at once and to proceed with the next event in the queue. > > So it's now possible to use the test script at any time, cause it resets > the daemon, if real hotplug event coming in later all missing nimbers will > be skipped after a timeout of 10 seconds and the queued events are applied. Here is the next updated updated version to apply to the lastet udev. I've added infrastructure for getting the state of the IPC queue in the sender and set the program to exec by the daemon. Also the magic key id is replaced by the usual key generation by path/nr. It looks promising, I use it on my machine and my 4in1 USB-flash-reader connect/disconnect emits the events "randomly" but udevd is able to reorder it and calls our normal udev in the right order.
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$(SENDER): $(SENDER).o udevd.h $(LIBC)
$(LD) $(LDFLAGS) -o $@ $(CRT0) udevsend.o $(LIB_OBJS) $(ARCH_LIB_OBJS)
$(STRIPCMD) $@
[PATCH] spilt udev into pieces On Thu, Jan 22, 2004 at 01:27:45AM +0100, Kay Sievers wrote: > On Wed, Jan 21, 2004 at 02:38:25PM +0100, Kay Sievers wrote: > > On Thu, Jan 15, 2004 at 01:45:10PM -0800, Greg KH wrote: > > > On Thu, Jan 15, 2004 at 10:36:25PM +0800, Ling, Xiaofeng wrote: > > > > Hi, Greg > > > > I wrote a simple implementation for the two pieces > > > > of send and receive hotplug event, > > > > use a message queue and a list for the out of order > > > > hotplug event. It also has a timeout timer of 3 seconds. > > > > They are now separate program. the file nseq is the test script. > > > > Could you have a look to see wether it is feasible? > > > > If so, I'll continue to merge with udev. > > > > > > Yes, very nice start. Please continue on. > > > > > > One minor comment, please stick with the kernel coding style when you > > > are writing new code for udev. > > > > I took the code from Xiaofeng, cleaned the whitespace, renamed some bits, > > tweaked the debugging, added the udev exec and created a patch for the current tree. > > > > It seems functional now, by simply executing our current udev (dirty hack). > > It reorders the incoming events and if one is missing it delays the > > execution of the following ones up to a maximum of 10 seconds. > > > > Test script is included, but you can't mix hotplug sequence numbers and > > test script numbers, it will result in waiting for the missing numbers :) > > Hey, nobody want's to play with me? > So here I'm chatting with myself :) > > This is the next version with signal handling for resetting the expected > signal number. I changed the behaviour of the timeout to skip all > missing events at once and to proceed with the next event in the queue. > > So it's now possible to use the test script at any time, cause it resets > the daemon, if real hotplug event coming in later all missing nimbers will > be skipped after a timeout of 10 seconds and the queued events are applied. Here is the next updated updated version to apply to the lastet udev. I've added infrastructure for getting the state of the IPC queue in the sender and set the program to exec by the daemon. Also the magic key id is replaced by the usual key generation by path/nr. It looks promising, I use it on my machine and my 4in1 USB-flash-reader connect/disconnect emits the events "randomly" but udevd is able to reorder it and calls our normal udev in the right order.
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clean:
-find . \( -not -type d \) -and \( -name '*~' -o -name '*.[oas]' \) -type f -print \
| xargs rm -f
-rm -f core $(ROOT) $(GEN_HEADERS) $(GEN_CONFIGS) $(HELPER) $(DAEMON) $(SENDER)
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$(MAKE) -C klibc clean
@extras="$(EXTRAS)" ; for target in $$extras ; do \
echo $$target ; \
$(MAKE) prefix=$(prefix) LD="$(LD)" SYSFS="$(SYSFS)" \
-C $$target $@ ; \
done ; \
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DISTFILES = $(shell find . \( -not -name '.' \) -print | grep -v -e CVS -e "\.tar\.gz$" -e "\/\." -e releases -e BitKeeper -e SCCS -e "\.tdb$" -e test/sys | sort )
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DISTDIR := $(RELEASE_NAME)
srcdir = .
release: clean
-rm -rf $(DISTDIR)
mkdir $(DISTDIR)
chmod 777 $(DISTDIR)
bk export $(DISTDIR)
tar -c $(DISTDIR) | gzip -9 > $(RELEASE_NAME).tar.gz
rm -rf $(DISTDIR)
@echo "$(RELEASE_NAME).tar.gz created"
small_release: $(DISTFILES) clean
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# @echo $(DISTFILES)
@-rm -rf $(DISTDIR)
@mkdir $(DISTDIR)
@-chmod 777 $(DISTDIR)
@for file in $(DISTFILES); do \
if test -d $$file; then \
mkdir $(DISTDIR)/$$file; \
else \
cp -p $$file $(DISTDIR)/$$file; \
fi; \
done
@tar -c $(DISTDIR) | gzip -9 > $(RELEASE_NAME).tar.gz
@rm -rf $(DISTDIR)
@echo "Built $(RELEASE_NAME).tar.gz"
ifeq ($(USE_DBUS), true)
[PATCH] D-BUS patch for udev-008 Attached is a patch against udev-008 to send out a D-BUS message when a device node is added or removed. Using D-BUS lingo, udev acquires the org.kernel.udev service and sends out a NodeCreated or NodeDeleted signal on the org.kernel.udev.NodeMonitor interface. Each signal carries two parameters: the node in question and the corresponding sysfs path. [Note: the D-BUS concepts of service, interface, object can be a bit confusing at first glance] An example program listening for these messages looks like this #!/usr/bin/python import dbus import gtk def udev_signal_received(dbus_iface, member, service, object_path, message): [filename, sysfs_path] = message.get_args_list() if member=='NodeCreated': print 'Node %s created for %s'%(filename, sysfs_path) elif member=='NodeDeleted': print 'Node %s deleted for %s'%(filename, sysfs_path) def main(): bus = dbus.Bus(dbus.Bus.TYPE_SYSTEM) bus.add_signal_receiver(udev_signal_received, 'org.kernel.udev.NodeMonitor', # interface 'org.kernel.udev', # service '/org/kernel/udev/NodeMonitor') # object gtk.mainloop() if __name__ == '__main__': main() and this is the output when hot-plugging some usb-storage. [david@laptop udev-008]$ ~/node_monitor.py Node /udev/sda created for /block/sda Node /udev/sda1 created for /block/sda/sda1 Node /udev/sda1 deleted for /block/sda/sda1 Node /udev/sda deleted for /block/sda The patch requires D-BUS 0.20 or later while the python example program requires D-BUS from CVS as I only recently applied a patch against the python bindings.
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install-dbus-policy:
$(INSTALL) -d $(DESTDIR)$(dbusdir)
$(INSTALL_DATA) etc/dbus-1/system.d/udev_sysbus_policy.conf $(DESTDIR)$(dbusdir)
[PATCH] D-BUS patch for udev-008 Attached is a patch against udev-008 to send out a D-BUS message when a device node is added or removed. Using D-BUS lingo, udev acquires the org.kernel.udev service and sends out a NodeCreated or NodeDeleted signal on the org.kernel.udev.NodeMonitor interface. Each signal carries two parameters: the node in question and the corresponding sysfs path. [Note: the D-BUS concepts of service, interface, object can be a bit confusing at first glance] An example program listening for these messages looks like this #!/usr/bin/python import dbus import gtk def udev_signal_received(dbus_iface, member, service, object_path, message): [filename, sysfs_path] = message.get_args_list() if member=='NodeCreated': print 'Node %s created for %s'%(filename, sysfs_path) elif member=='NodeDeleted': print 'Node %s deleted for %s'%(filename, sysfs_path) def main(): bus = dbus.Bus(dbus.Bus.TYPE_SYSTEM) bus.add_signal_receiver(udev_signal_received, 'org.kernel.udev.NodeMonitor', # interface 'org.kernel.udev', # service '/org/kernel/udev/NodeMonitor') # object gtk.mainloop() if __name__ == '__main__': main() and this is the output when hot-plugging some usb-storage. [david@laptop udev-008]$ ~/node_monitor.py Node /udev/sda created for /block/sda Node /udev/sda1 created for /block/sda/sda1 Node /udev/sda1 deleted for /block/sda/sda1 Node /udev/sda deleted for /block/sda The patch requires D-BUS 0.20 or later while the python example program requires D-BUS from CVS as I only recently applied a patch against the python bindings.
2003-12-09 00:19:19 +07:00
uninstall-dbus-policy:
- rm $(DESTDIR)$(dbusdir)/udev_sysbus_policy.conf
else
install-dbus-policy:
-
uninstall-dbus-policy:
-
endif
install-config: $(GEN_CONFIGS)
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$(INSTALL) -d $(DESTDIR)$(configdir)
@if [ ! -r $(DESTDIR)$(configdir)udev.conf ]; then \
echo $(INSTALL_DATA) $(LOCAL_CFG_DIR)/udev.conf $(DESTDIR)$(configdir); \
$(INSTALL_DATA) $(LOCAL_CFG_DIR)/udev.conf $(DESTDIR)$(configdir); \
fi
@if [ ! -r $(DESTDIR)$(configdir)udev.rules ]; then \
echo $(INSTALL_DATA) $(LOCAL_CFG_DIR)/udev.rules $(DESTDIR)$(configdir); \
$(INSTALL_DATA) $(LOCAL_CFG_DIR)/udev.rules $(DESTDIR)$(configdir); \
fi
@if [ ! -r $(DESTDIR)$(configdir)udev.permissions ]; then \
echo $(INSTALL_DATA) $(LOCAL_CFG_DIR)/udev.permissions $(DESTDIR)$(configdir); \
$(INSTALL_DATA) $(LOCAL_CFG_DIR)/udev.permissions $(DESTDIR)$(configdir); \
fi
install: install-config install-dbus-policy all
$(INSTALL) -d $(DESTDIR)$(udevdir)
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$(INSTALL) -d $(DESTDIR)$(hotplugdir)
$(INSTALL_PROGRAM) -D $(ROOT) $(DESTDIR)$(sbindir)/$(ROOT)
$(INSTALL_PROGRAM) -D $(DAEMON) $(DESTDIR)$(sbindir)/$(DAEMON)
$(INSTALL_PROGRAM) -D $(SENDER) $(DESTDIR)$(sbindir)/$(SENDER)
$(INSTALL_PROGRAM) -D $(HELPER) $(DESTDIR)$(sbindir)/$(HELPER)
@if [ "x$(USE_LSB)" = "xtrue" ]; then \
$(INSTALL_PROGRAM) -D etc/init.d/udev.init.LSB $(DESTDIR)$(initdir)/udev; \
ln -s $(DESTDIR)$(initdir)/udev $(sbindir)/rcudev; \
else \
$(INSTALL_PROGRAM) -D etc/init.d/udev $(DESTDIR)$(initdir)/udev; \
fi
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$(INSTALL_DATA) -D udev.8 $(DESTDIR)$(mandir)/man8/udev.8
$(INSTALL_DATA) -D udevinfo.8 $(DESTDIR)$(mandir)/man8/udevinfo.8
- rm -f $(DESTDIR)$(hotplugdir)/$(ROOT).hotplug
- ln -f -s $(sbindir)/$(SENDER) $(DESTDIR)$(hotplugdir)/$(ROOT).hotplug
@extras="$(EXTRAS)" ; for target in $$extras ; do \
echo $$target ; \
$(MAKE) prefix=$(prefix) LD="$(LD)" SYSFS="$(SYSFS)" \
-C $$target $@ ; \
done ; \
2003-10-17 14:19:04 +07:00
[PATCH] D-BUS patch for udev-008 Attached is a patch against udev-008 to send out a D-BUS message when a device node is added or removed. Using D-BUS lingo, udev acquires the org.kernel.udev service and sends out a NodeCreated or NodeDeleted signal on the org.kernel.udev.NodeMonitor interface. Each signal carries two parameters: the node in question and the corresponding sysfs path. [Note: the D-BUS concepts of service, interface, object can be a bit confusing at first glance] An example program listening for these messages looks like this #!/usr/bin/python import dbus import gtk def udev_signal_received(dbus_iface, member, service, object_path, message): [filename, sysfs_path] = message.get_args_list() if member=='NodeCreated': print 'Node %s created for %s'%(filename, sysfs_path) elif member=='NodeDeleted': print 'Node %s deleted for %s'%(filename, sysfs_path) def main(): bus = dbus.Bus(dbus.Bus.TYPE_SYSTEM) bus.add_signal_receiver(udev_signal_received, 'org.kernel.udev.NodeMonitor', # interface 'org.kernel.udev', # service '/org/kernel/udev/NodeMonitor') # object gtk.mainloop() if __name__ == '__main__': main() and this is the output when hot-plugging some usb-storage. [david@laptop udev-008]$ ~/node_monitor.py Node /udev/sda created for /block/sda Node /udev/sda1 created for /block/sda/sda1 Node /udev/sda1 deleted for /block/sda/sda1 Node /udev/sda deleted for /block/sda The patch requires D-BUS 0.20 or later while the python example program requires D-BUS from CVS as I only recently applied a patch against the python bindings.
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uninstall: uninstall-dbus-policy
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- rm $(hotplugdir)/udev.hotplug
- rm $(configdir)/udev.permissions
- rm $(configdir)/udev.rules
- rm $(configdir)/udev.conf
- rm $(initdir)/udev
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- rm $(mandir)/man8/udev.8
- rm $(mandir)/man8/udevinfo.8
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- rm $(sbindir)/$(ROOT)
- rm $(sbindir)/$(DAEMON)
- rm $(sbindir)/$(SENDER)
- rm $(sbindir)/$(HELPER)
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- rmdir $(hotplugdir)
- rmdir $(configdir)
- rmdir $(udevdir)
@extras="$(EXTRAS)" ; for target in $$extras ; do \
echo $$target ; \
$(MAKE) prefix=$(prefix) LD="$(LD)" SYSFS="$(SYSFS)" \
-C $$target $@ ; \
done ; \