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# ====================================================================
#
# instrument.cdl
#
# configuration data related to the kernel instrumentation
#
# ====================================================================
#####ECOSGPLCOPYRIGHTBEGIN####
## -------------------------------------------
## This file is part of eCos, the Embedded Configurable Operating System.
## Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc.
##
## eCos 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; either version 2 or (at your option) any later version.
##
## eCos 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 eCos; if not, write to the Free Software Foundation, Inc.,
## 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA.
##
## As a special exception, if other files instantiate templates or use macros
## or inline functions from this file, or you compile this file and link it
## with other works to produce a work based on this file, this file does not
## by itself cause the resulting work to be covered by the GNU General Public
## License. However the source code for this file must still be made available
## in accordance with section (3) of the GNU General Public License.
##
## This exception does not invalidate any other reasons why a work based on
## this file might be covered by the GNU General Public License.
##
## Alternative licenses for eCos may be arranged by contacting Red Hat, Inc.
## at http://sources.redhat.com/ecos/ecos-license/
## -------------------------------------------
#####ECOSGPLCOPYRIGHTEND####
# ====================================================================
######DESCRIPTIONBEGIN####
#
# Author(s): jskov
# Original data: nickg
# Contributors:
# Date: 1999-07-05
#
#####DESCRIPTIONEND####
#
# ====================================================================
cdl_option CYGVAR_KERNEL_INSTRUMENT_EXTERNAL_BUFFER {
display "Use buffer provided by the application"
flavor bool
default_value 0
description "
In most circumstances the kernel should provide the
instrumentation circular buffer itself. Occasionally
application code may wish to provide the buffer instead,
giving the application code more convenient access to the
buffer. This also makes it possible to put the circular
buffer in special areas of memory, for example a region that
is shared with the host."
}
cdl_option CYGNUM_KERNEL_INSTRUMENT_BUFFER_SIZE {
display "Size of instrumentation buffer size"
flavor data
legal_values 16 to 0x100000
default_value 256
description "
If kernel instrumentation is enabled then the instrumentation
data goes into a circular buffer. A larger buffer allows
more data to be stored, but at a significant cost in memory.
The value of this option corresponds to the number of entries
in the table, and typically each entry will require 16 bytes
of memory."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_BUFFER_WRAP {
display "Wrap instrument buffer"
default_value 1
description "
When the instrumentation buffer is full it can either be restarted
from the beginning, overwriting older data, or it can stop at the
end. The former is useful if you want to look at the last entries
made while the latter is useful if you want to look at the first
few."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_FLAGS {
display "Perform selective instrumentation"
default_value 1
description "
The kernel can either collect all instrumentation events, or
it can filter out events at runtime based on a set of flags.
For example it would be possible to decide at runtime that
only scheduler and interrupt instrumentation flags are of
interest and that all other flags should be ignored. This
flag mechanism involves extra code and processor cycle
overhead in the instrumentation code, so it can be disabled
if the application developer is interested in all
instrumentation events."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_SCHED {
display "Instrument the scheduler"
default_value 1
active_if CYGPKG_KERNEL_SCHED
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the scheduling code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_THREAD {
display "Instrument thread operations"
default_value 1
active_if CYGPKG_KERNEL_THREADS
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the code that manipulates threads."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_INTR {
display "Instrument interrupts"
default_value 1
active_if CYGPKG_KERNEL_INTERRUPTS
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the interrupt handling code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_MUTEX {
display "Instrument mutex operations"
default_value 1
active_if CYGPKG_KERNEL_SYNCH
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the mutex code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_CONDVAR {
display "Instrument condition variable operations"
default_value 1
active_if CYGPKG_KERNEL_SYNCH
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the condition variable code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_BINSEM {
display "Instrument binary semaphore operations"
default_value 1
active_if CYGPKG_KERNEL_SYNCH
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the binary semaphore code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_CNTSEM {
display "Instrument counting semaphore operations"
default_value 1
active_if CYGPKG_KERNEL_SYNCH
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the counting semaphore code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_MBOXT {
display "Instrument message box operations"
default_value 1
active_if CYGPKG_KERNEL_SYNCH
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the message box code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_CLOCK {
display "Instrument clock operations"
default_value 1
active_if CYGVAR_KERNEL_COUNTERS_CLOCK
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the real-time clock code."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_ALARM {
display "Instrument alarm-related operations"
default_value 1
active_if CYGVAR_KERNEL_COUNTERS_CLOCK
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the code related to alarm operations."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_SMP {
display "Instrument SMP-related operations"
default_value 1
active_if CYGVAR_KERNEL_COUNTERS_CLOCK
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not instrumentation support is compiled into
the code related to SMP operations."
}
cdl_option CYGDBG_KERNEL_INSTRUMENT_USER {
display "Support application-level instrumentation"
default_value 1
description "
It is possible to perform selective instrumentation at
run-time. It is also possible to disable instrumentation
in various kernel components at compile-time, thus
reducing the code size overheads. This option controls
whether or not application-level instrumentation gets
compiled in."
}
cdl_component CYGDBG_KERNEL_INSTRUMENT_MSGS {
display "Print user friendly instrument messages"
default_value 1
description "
Include code which will convert the instrument type field
into a more human understandable string"
cdl_option CYGDBG_KERNEL_INSTRUMENT_MSGS_BUILD_HEADERFILE {
display "Rebuild the header file"
default_value 0
description "
Make (using a shell script) include/cyg/kernel/instrument_desc.h in
your build tree; this is normally simply copied from the repository.
If you make a permanent change to include/instrmnt.h, such that
instrument_desc.h needs updating, it's up to you to first delete the
master file
ECOS_REPOSITORY/kernel/VERSION/include/instrument_desc.h
in your source repository, make the new version by enabling this
option then copy the new file
back from your build place to its source in
ECOS_REPOSITORY/kernel/VERSION/include/instrument_desc.h
and/or commit this to any version control system that you use."
make -priority 50 {
<PREFIX>/include/cyg/kernel/instrument_desc.h: <PACKAGE>/include/instrmnt.h <PACKAGE>/cdl/instrument.cdl
sh $(REPOSITORY)/$(PACKAGE)/host/instr/instrument.sh $< > $@
}
}
cdl_component CYGDBG_KERNEL_INSTRUMENT_BUILD_HOST_DUMP {
display "Build the host tool to print out a dump"
default_value 0
description "
Generate a host program which can dump the instrumentation
data in a human readable format. You have to somehow get the
instrumentation buffer into a file on the host. 'Exercise for
the reader' as university lecturers tend to say."
make -priority 51 {
<PREFIX>/bin/dump_instr: <PREFIX>/include/cyg/kernel/instrument_desc.h <PACKAGE>/cdl/instrument.cdl
@mkdir -p $(dir $@)
@mkdir -p tempinc
@cp -r $(PREFIX)/include/cyg tempinc
@cp -r $(PREFIX)/include/pkgconf tempinc
cc -I./tempinc $(REPOSITORY)/$(PACKAGE)/host/instr/dump_instr.c -o $(PREFIX)/bin/dump_instr
@rm -rf tempinc
}
}
}
# EOF instrument.cdl
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