Imported Genode release 11.11

This commit is contained in:
Genode Labs 2011-12-22 16:19:25 +01:00 committed by Christian Helmuth
parent 6bcc9aef0e
commit da4e1feaa5
2462 changed files with 320115 additions and 3 deletions

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182
README
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Genode OS Framework
This is just the initial version without any code yet. We're on the
way to migrate the current released version into Git.
=================================
Genode Operating System Framework
=================================
This is the source tree of the reference implementation of the Genode OS
architecture. For a general overview about the architecture, please refer to
the project's official website:
:Official project website for the Genode OS Framework:
[http://genode.org/documentation/general-overview]
The current implementation can be compiled for 8 different kernels: Linux,
L4ka::Pistachio, L4/Fiasco, OKL4, NOVA, Fiasco.OC, Codezero, and a custom
kernel for the MicroBlaze architecture. Whereas the Linux version serves us as
development vehicle and enables us to rapidly develop the generic parts of the
system, the actual target platforms of the framework are microkernels. There
is no "perfect" microkernel - and neither should there be one. If a microkernel
pretended to be fit for all use cases, it wouldn't be "micro". Hence, all
microkernels differ in terms of their respective features, complexity, and
supported hardware architectures.
Genode allows the use of each of the kernels listed above with a rich set of
device drivers, protocol stacks, libraries, and applications in a uniform way.
For developers, the framework provides an easy way to target multiple different
kernels instead of tying the development to a particular kernel technology. For
kernel developers, Genode contributes advanced workloads, stress-testing their
kernel, and enabling a variety of application use cases that would not be
possible otherwise. For users and system integrators, it enables the choice of
the kernel that fits best with the requirements at hand for the particular
usage scenario.
Directory overview
##################
The Genode source tree is composed of the following subdirectories:
:'doc':
This directory contains general documentation. Please consider the following
document for a quick guide to get started with the framework:
! doc/getting_started.txt
If you are curious about the ready-to-use components that come with the
framework, please review the components overview:
! doc/components.txt
:'base':
This directory contains the source-code repository of the fundamental
frameworks and interfaces of Genode. Furthermore, it contains the generic
parts of core.
:'os':
This directory contains the non-base OS components such as the init process,
device drivers, and basic system services.
:'demo':
This directory contains the source-code repository of various services and
applications that we use for demonstration purposes. For example, a graphical
application launcher called Launchpad and the Scout tutorial browser.
:'base-<platform>':
These directories contain platform-specific source-code repositories
complementing the 'base' repository. The following platforms are supported:
:'linux':
Linux kernel (both x86_32 and x86_64)
:'pistachio':
L4ka::Pistachio kernel developed at University of Karlsruhe.
See [http://genode.org/community/wiki/GenodeOnL4kaPistachio]
:'fiasco':
L4/Fiasco kernel developed at University of Technology Dresden.
See [http://genode.org/community/wiki/GenodeOnL4Fiasco]
:'foc':
Fiasco.OC is a modernized version of the Fiasco microkernel with a
completely revised kernel interface fostering capability-based
security. It is not compatible with L4/Fiasco.
See [http://genode.org/community/wiki/GenodeOnFiascoOC]
:'okl4':
OKL4 kernel (x86_32 and ARM) developed at Open-Kernel-Labs.
See [http://genode.org/community/wiki/GenodeOnOKL4]
:'nova':
NOVA hypervisor developed at University of Technology Dresden
See [http://genode.org/community/wiki/GenodeOnNOVA]
:'codezero':
Codezero microkernel developed by B-Labs
See [http://genode.org/community/wiki/GenodeOnCodezero]
:'mb':
Support for running Genode natively on the MicroBlaze softcore CPU.
See [http://genode.org/community/wiki/GenodeOnMicroBlaze]
:'host':
Pseudo platform documenting the interface between the generic and
platform-specific parts of the base framework. This is not a functional
base platform.
:'tool':
Source-code management tools and scripts. Please refer to the README file
contained in the directory.
:'hello_tutorial':
Tutorial for creating a simple client-server scenario with Genode. This
repository includes documentation and the complete source code.
:'libports':
This source-code repository contains ports of popular open-source libraries
to Genode, most importantly the C library. The repository contains no
upstream source code but means to download the code and adapt it to Genode.
For instructions about how to use this mechanism, please consult the README
file at the top level of the repository.
:'linux_drivers':
This source-code repository contains the device driver environment for
executing Linux device drivers natively on Genode.
:'dde_ipxe':
This source-code repository contains the device driver environment for
executing drivers of the iPXE project.
:'qt4':
This source-code repository contains the Genode version of Qt4 framework.
Please find more information about using Qt4 with Genode in the repository's
'README' file.
:'ports':
This source-code repository hosts ports of 3rd-party applications to
Genode. The repository does not contain upstream source code but provides
a mechanism for downloading the official source distributions and adapt
them to the Genode environment. The used mechanism is roughly the same
as used for the 'libports' repository. Please consult 'libports/README'
for further information.
:'ports-<platform>':
These platform-specific source-code repositories contain software that
capitalizes special features of the respective kernel platform. I.e.,
for the OKL4 base platform, a port of OKLinux is provided in 'ports-okl4'.
For the Fiasco.OC platform, 'ports-foc' hosts a port of the L4Linux
kernel. For further information, please refer to the README file at the
top level of the respective repository.
:'gems':
This source-code repository contains Genode applications that use
both native Genode interfaces as well as features of other high-level
repositories, in particular shared libraries provided by 'libports'.
Contact
#######
The best way to get in touch with Genode developers and users is the project's
mailing list. Please feel welcome to join in!
:Genode Mailing Lists:
[http://genode.org/community/mailing-lists]

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#
# \brief Download and prepare the Codezero kernel
# \author Norman Feske
# \date 2011-08-05
#
VERBOSE ?= @
ECHO = @echo
GIT_URL = git://git.l4dev.org/codezero.git
GIT_REV = 6fa4884a5a1cf6207372f69ae01e5faa6d5a39c8
CONTRIB_DIR = contrib
PATCHES = $(shell find patches -name *.patch)
#
# Print help information by default
#
help::
prepare: $(CONTRIB_DIR)
help::
$(ECHO)
$(ECHO) "Check out upstream source code of the Codezero kernel"
$(ECHO)
$(ECHO) "The source code will be located at the '$(CONTRIB_DIR)/' directory."
$(ECHO)
$(ECHO) "--- available commands ---"
$(ECHO) "prepare - checkout upstream source codes"
$(ECHO) "clean - remove upstream source codes"
$(ECHO)
$(CONTRIB_DIR)/.git:
$(VERBOSE)git clone $(GIT_URL) $(CONTRIB_DIR)
$(CONTRIB_DIR): $(CONTRIB_DIR)/.git
$(VERBOSE)cd $(CONTRIB_DIR); git reset --hard $(GIT_REV)
$(ECHO) "applying patches to '$(CONTRIB_DIR)/'"
$(VERBOSE)for i in $(PATCHES); do patch -d $@ -p1 < $$i; done
.PHONY: $(CONTRIB_DIR)
clean::
$(VERBOSE)rm -rf $(CONTRIB_DIR)

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base-codezero/README Normal file
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This repository contains the port of Genode to the Codezero microkernel
For instructions about using Genode with Codezero, please refer to
'doc/codezero.txt'.

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#
# Automatically generated, don't edit
#
# Generated on: furnace
# At: Fri, 05 Aug 2011 21:48:00 +0000
# Linux version 2.6.32-33-generic (buildd@rothera) (gcc version 4.4.3 (Ubuntu 4.4.3-4ubuntu5) ) #70-Ubuntu SMP Thu Jul 7 21:09:46 UTC 2011
#
# Codezero Microkernel Configurator
#
#
# Main architecture
#
CONFIG_ARCH_ARM=y
#
# ARM Architecture Configuration
#
#
# ARM Platform Type
#
CONFIG_PLATFORM_PB926=y
CONFIG_PLATFORM_PBA9=n
CONFIG_PLATFORM_BEAGLE=n
CONFIG_PLATFORM_EB=n
#
# ARM Processor Type
#
CONFIG_CPU_ARM926=y
#
# Generic Processor Properties
#
CONFIG_ICACHE_DISABLE=n
CONFIG_DCACHE_DISABLE=n
#
# Generic Kernel Properties
#
CONFIG_PREEMPT_DISABLE=n
CONFIG_DEBUG_ACCOUNTING=n
CONFIG_DEBUG_SPINLOCKS=n
CONFIG_SCHED_TICKS=1000
#
# Toolchain Prefix
#
CONFIG_TOOLCHAIN_USERSPACE="arm-none-linux-gnueabi-"
CONFIG_TOOLCHAIN_KERNEL="arm-none-eabi-"
#
# Container Setup
#
CONFIG_CAPABILITIES=n
CONFIG_CONTAINERS=1
#
# Container 0 Parameters
#
#
# Container 0 Type
#
CONFIG_CONT0_TYPE_BAREMETAL=y
CONFIG_CONT0_TYPE_POSIX=n
CONFIG_CONT0_TYPE_LINUX=n
#
# Container 0 Options
#
CONFIG_CONT0_OPT_NAME="empty0"
#
# Baremetal Project Type
#
CONFIG_CONT0_BAREMETAL_PROJ_EMPTY=y
CONFIG_CONT0_BAREMETAL_PROJ_HELLO_WORLD=n
CONFIG_CONT0_BAREMETAL_PROJ_THREADS_DEMO=n
CONFIG_CONT0_BAREMETAL_PROJ_TEST_SUITE=n
CONFIG_CONT0_BAREMETAL_PROJ_UART_SERVICE=n
CONFIG_CONT0_BAREMETAL_PROJ_TIMER_SERVICE=n
CONFIG_CONT0_BAREMETAL_PROJ_KMI_SERVICE=n
CONFIG_CONT0_BAREMETAL_PROJ_MUTEX_DEMO=n
CONFIG_CONT0_BAREMETAL_PROJ_IPC_DEMO=n
#
# Container 0 Pager Linker Parameters
#
CONFIG_CONT0_PAGER_LMA=0x40000
CONFIG_CONT0_PAGER_VMA=0x100000
#
# Container 0 Pager Physical Memory Regions (Capabilities)
#
CONFIG_CONT0_PAGER_PHYSMEM_REGIONS=1
CONFIG_CONT0_PAGER_PHYS0_START=0x40000
CONFIG_CONT0_PAGER_PHYS0_END=0x4000000
#
# Container 0 Pager Virtual Memory Regions (Capabilities)
#
CONFIG_CONT0_PAGER_VIRTMEM_REGIONS=1
CONFIG_CONT0_PAGER_VIRT0_START=0x0
CONFIG_CONT0_PAGER_VIRT0_END=0x50000000
#
# Container 0 Pager Capabilities
#
#
# Container 0 Thread Pool Capability
#
CONFIG_CONT0_PAGER_CAP_THREADPOOL_USE=y
CONFIG_CONT0_PAGER_CAP_THREADPOOL_SIZE=64
#
# Container 0 Space Pool Capability
#
CONFIG_CONT0_PAGER_CAP_SPACEPOOL_USE=y
CONFIG_CONT0_PAGER_CAP_SPACEPOOL_SIZE=64
#
# Container 0 Mutex Pool Capability
#
CONFIG_CONT0_PAGER_CAP_MUTEXPOOL_USE=y
CONFIG_CONT0_PAGER_CAP_MUTEXPOOL_SIZE=100
#
# Container 0 Map Pool Capability
#
CONFIG_CONT0_PAGER_CAP_MAPPOOL_USE=y
CONFIG_CONT0_PAGER_CAP_MAPPOOL_SIZE=800
#
# Container 0 IPC Capability
#
CONFIG_CONT0_PAGER_CAP_IPC_USE=y
CONFIG_CONT0_PAGER_CAP_IPC_TARGET_CURRENT_CONTAINER=y
CONFIG_CONT0_PAGER_CAP_IPC_TARGET_CURRENT_PAGER_SPACE=n
CONFIG_CONT0_PAGER_CAP_IPC_TARGET_OTHER_CONTAINER=n
CONFIG_CONT0_PAGER_CAP_IPC_TARGET_OTHER_PAGER=n
#
# Container 0 IRQ Control Capability
#
CONFIG_CONT0_PAGER_CAP_IRQCTRL_USE=y
#
# Container 0 Custom Capability 0 Parameters
#
CONFIG_CONT0_PAGER_CAP_CUSTOM0_USE=n
#
# Container 0 Custom Capability 1 Parameters
#
CONFIG_CONT0_PAGER_CAP_CUSTOM1_USE=n
#
# Container 0 Custom Capability 2 Parameters
#
CONFIG_CONT0_PAGER_CAP_CUSTOM2_USE=n
#
# Container 0 Custom Capability 3 Parameters
#
CONFIG_CONT0_PAGER_CAP_CUSTOM3_USE=n
#
# Container 0 Global Capabilities
#
#
# Container 0 IPC Capability
#
CONFIG_CONT0_CAP_IPC_USE=y
CONFIG_CONT0_CAP_IPC_TARGET_CURRENT_CONTAINER=y
CONFIG_CONT0_CAP_IPC_TARGET_CURRENT_PAGER_SPACE=n
CONFIG_CONT0_CAP_IPC_TARGET_OTHER_CONTAINER=n
CONFIG_CONT0_CAP_IPC_TARGET_OTHER_PAGER=n
#
# Container 0 Mutex Pool Capability
#
CONFIG_CONT0_CAP_MUTEXPOOL_USE=y
CONFIG_CONT0_CAP_MUTEXPOOL_SIZE=100
#
# Derived symbols
#
CONFIG_CONT3_START_PC_ADDR=0xd0000000
CONFIG_DEBUG_PERFMON_KERNEL=n
CONFIG_CONT1_PAGER_LOAD_ADDR=0x1100000
CONFIG_CONT2_START_PC_ADDR=0xc0000000
CONFIG_CONT2_PAGER_VIRT_ADDR=0xc0000000
CONFIG_RAM_BASE_PLAT=0
CONFIG_CONT2_PAGER_LOAD_ADDR=0x2100000
CONFIG_CONT1_PAGER_VIRT_ADDR=0xb0000000
CONFIG_CONT3_PAGER_LOAD_ADDR=0x3100000
CONFIG_SUBARCH_V5=y
CONFIG_SUBARCH_V7=n
CONFIG_SUBARCH_V6=n
CONFIG_CONT0_PAGER_LOAD_ADDR=0x40000
CONFIG_CONT0_PAGER_VIRT_ADDR=0x100000
CONFIG_CONT3_PAGER_VIRT_ADDR=0xd0000000
CONFIG_CONT0_START_PC_ADDR=0x100000
CONFIG_CONT1_START_PC_ADDR=0xb0000000
#
# That's all, folks!

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==================================
Genode on the Codezero microkernel
==================================
Norman Feske
Codezero is a microkernel primarily targeted at ARM-based embedded systems.
It is developed by the British company B-Labs.
:B-Labs website:
[http://b-labs.co.uk]
The Codezero kernel was first made publicly available in summer 2009. The
latest version, documentation, and community resources are available at the
project website:
:Codezero project website:
[http://l4dev.org]
As highlighted by the name of the project website, the design of the kernel is
closely related to the family of L4 microkernels. In short, the kernel provides
a minimalistic set of functionality for managing address spaces, threads, and
communication between threads, but leaves complicated policy and device access
to user-level components.
Using Genode with Codezero
##########################
For using Codezero, please ensure to have Git, SCons, and Python installed as
these tools are required for downloading and building the kernel. Furthermore,
you will need to install the tool chain for ARM. For instructions on how to
download and install the tool chain, please refer to:
:[http://genode.org/download/tool-chain]:
Genode tool-chain
To download the Codezero kernel and integrate it with Genode, issue
! make prepare
from the 'base-codezero/' directory. The Codezero kernel is fully supported by
Genode's run mechanism. Therefore, you can run Genode scenarios using Qemu
directly from the build directory. For a quick test, let's create a build
directory for Codezero on the VersatilePB926 platform using Genode's
'create_builddir' tool:
! <genode-dir>/tool/create_builddir codezero_vpb926 BUILD_DIR=<build_dir>
To execute the graphical Genode demo, change to the new created build directory
and issue:
! make run/demo
Characteristics of the kernel
#############################
To put Codezero in relation to other L4 kernels, here is a quick summary on the
most important design aspects as implemented with the version 0.3, and on how
our port of Genode relates to them:
* In the line of the original L4 interface, the kernel uses global name spaces
for kernel objects such as threads and address spaces.
* For the interaction between a user thread and the kernel, the concept of
user-level thread-control blocks (UTCB) is used. A UTCB is a small
thread-specific region in the thread's virtual address space, which is
always mapped. Hence the access to the UTCB can never raise a page fault,
which makes it perfect for the kernel to access system-call arguments,
in particular IPC payload copied from/to user threads. In contrast to other
L4 kernels, the location of UTCBs within the virtual address space is managed
by the user land.
On Genode, core keeps track of the UTCB locations for all user threads.
This way, the physical backing store for the UTCB can be properly accounted
to the corresponding protection domain.
* The kernel provides three kinds of synchronous inter-process communication
(IPC): Short IPC carries payload in CPU registers only. Full IPC copies
message payload via the UTCBs of the communicating parties. Extended IPC
transfers a variable-sized message from/to arbitrary locations of the
sender/receiver address spaces. During an extended IPC, page fault may
occur.
Genode solely relies on extended IPC, leaving the other IPC mechanisms to
future optimizations.
* The scheduling of threads is based on hard priorities. Threads with the
same priority are executed in a round-robin fashion. The kernel supports
time-slice-based preemption.
Genode does not support Codezero priorities yet.
* The original L4 interface leaves open the question on how to manage
and account kernel resources such as the memory used for page tables.
Codezero makes the accounting of such resources explicit, enables the
user-land to manage them in a responsible way, and prevent kernel-resource
denial-of-service problems.
* In contrast to the original L4.v2 and L4.x0 interfaces, the kernel provides
no time source in the form of IPC timeouts to the user land. A time source
must be provided by a user-space timer driver. Genode employs such a timer
services on all platforms so that it is not effected by this limitation.
In several ways, Codezero goes beyond the known L4 interfaces. The most
noticeable addition is the support for so-called containers. A container is
similar to a virtual machine. It is an execution environment that holds a set
of physical resources such as RAM and devices. The number of containers and the
physical resources assigned to them is static and is to be defined at build
time. The code executed inside a container can be roughly classified into two
cases. First, there are static programs that require strong isolation from the
rest of the system but no classical operating-system infrastructure, for
example special-purpose telecommunication stacks or cryptographic functionality
of an embedded device. Second, there a kernel-like workload, which use the L4
interface to substructure the container into address spaces, for example a
paravirtualized Linux kernel that uses Codezero address spaces to protect Linux
processes. Genode runs inside a container and facilitates Codezero's L4
interface to implement its multi-server architecture.
Behind the scenes
#################
The 'make prepare' mechanism checks out the kernel source code from the
upstream Git repository to 'base-codezero/contrib'. When building the kernel
from within a Genode build directory via 'make kernel', this directory won't be
touched by the Genode build system. Instead, a snapshot of the 'contrib'
directory is taken to '<build-dir>/kernel/codezero'. This is the place where
the Codezero configuration and build processes are executed. By working with a
build-directory-local snapshot, we ensure that the source tree remains
untouched at all times. After having taken the snapshot, the Codezero kernel is
configured using a configuration template specific for the hardware platform.
The configuration comes in the form of a CML file located at
'base-codezero/config/'. There is one CML file per supported platform named
'<platform>.cml'. The configured Codezero build directory will reside at
'<build-dir>/kernel/codezero/build/'. Finally, the Codezero build system is
invoked to build the kernel.
The two stages of building Codezero
===================================
The Codezero build system always performs the compilation of the kernel and the
so-called containers as well as the integration of all these components into a
final ELF image as one operation. When building just the kernel via 'make
kernel', the final image will contain the default container0 that comes with
the Codezero distribution. For integrating Genode into the final image, the
content of the container0 must be replaced by the Genode binaries followed by
another execution of 'kernel/codezero/build.py'. Now, the single-image will be
re-created, including the Genode binaries. When using Genode's run mechanism,
these steps are automated for you. For reference, please review the Codezero
run environment at 'base-codezero/run/env'.
By first building the kernel with Codezero's default container ('make kernel')
and later replacing the container's content with Genode binaries, we
optimize the work flow for building Genode components. The kernel is compiled
only once, but the (quick) re-linking of the final image is done every time a
run script is executed.
In the run environment, you will see that we forcefully remove a file called
'cinfo.c' from the build-directory-local snapshot of the Codezero source tree.
This file is generated automatically by the Codezero build system and linked
against the kernel. It contains the parameters of the containers executed on
the kernel. Because we change the content of container0 each time when
executing a run script, those parameter change. So we have to enforce to
re-generation of the 'cinfo.c' file.
How Genode ROM modules are passed into the final image
======================================================
The Codezero build system picks up any ELF files residing the container's
directory wheres the file called 'main.elf' is considered to be the roottask
(in Codezero speak called pager) of the container. For Genode, 'main.elf'
corresponds to the core executable. All other boot modules are merged into an
ELF file, which we merely use as a container for these binary data. This ELF
file is linked such that it gets loaded directly after the core image (this is
how core finds the boot modules). The process of archiving all boot modules
into the single ELF file is automated via the 'base-codezero/tool/gen_romfs'
tool. In the container's directory, the merged file is called 'modules.elf'.
Adapting the source code of the kernel
======================================
For debugging and development you might desire to change the kernel code
at times. You can safely do so within the 'base-codezero/contrib/' directory.
When issuing the next 'make kernel' from the Genode build directory, your
changes will be picked up. However, when working with run scripts, the kernel
is not revisited each time. The kernel gets built only once if the
'<build-dir>/kernel' directory does not exist, yet. If you work on the kernel
source tree and wish to conveniently test the kernel with a run script, use
! make kernel run/<run-script>
This way, you make sure to rebuild the kernel prior executing the steps
described in the run script.
Tweaking the kernel configuration
=================================
The kernel configuration can be tweaked within '<build-dir>/kernel/codezero'.
Just change to this directory and issue './build.py -C'. The next time you
build the kernel via 'make kernel' your configuration will be applied.
If you want to conserve your custom configuration, just copy the file
'<build-dir>/kernel/codezero/build/config.cml'.
Parameters of 'vpb926.cml' explained
====================================
The default configuration for the VersatilePB926 platform as found at
'base-codzero/config/vpb926.cml' is paramaterized as follows:
:Default pager parameters:
! 0x40000 Pager LMA
! 0x100000 Pager VMA
These values are important because they are currently hard-wired in the
linker script used by Genode. If you need to adopt these values, make
sure to also update the Genode linker script located at
'base-codezero/src/platform/genode.ld'.
:Physical Memory Regions:
! 1 Number of Physical Regions
! 0x40000 Physical Region 0 Start Address
! 0x4000000 Physical Region 0 End Address
We only use 64MB of memory. The physical memory between 0 and 0x40000 is
used by the kernel.
:Virtual Memory Regions:
! 1 Number of Virtual Regions
! 0x0 Virtual Region 0 Start Address
! 0x50000000 Virtual Region 0 End Address
It is important to choose the end address such that the virtual memory
covers the thread context area. The context area is defined at
'base/include/base/thread.h'.
Limitations
###########
At the current stage, the Genode version for Codezero is primarily geared
towards the developers of Codezero as a workload to stress their kernel. It
still has a number of limitations that would affect the real-world use:
* Because the only platform supported out of the box by the official Codezero
source tree is the ARM-based Versatilebp board, Genode is currently tied to
this hardware platform.
* The current timer driver at 'os/src/drivers/timer/codezero/' is a dummy
driver that just yields the CPU time instead of blocking. Is is not
suitable as time source.
* The PL110 framebuffer driver at 'os/src/drivers/framebuffer/pl110/'
does only support the LCD display as provided by Qemu but it is not tested on
real hardware.
* Even though Codezero provides priority-based scheduling, Genode does not
allow assigning priorities to Codezero processes, yet.
As always, these limitations will be addressed as needed.
Thanks
######
We want to thank the main developer of Codezero Bahadir Balban for his great
responsiveness to our feature requests and questions. Without his help, the
porting effort would have taken much more effort. We hope that our framework
will be of value to the Codezero community.

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SPECS = genode

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/*
* \brief Atomic operations for ARM on codezero
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__ARM__CPU__ATOMIC_H_
#define _INCLUDE__ARM__CPU__ATOMIC_H_
namespace Genode {
/**
* Atomic compare and exchange
*
* This function compares the value at dest with cmp_val.
* If both values are equal, dest is set to new_val. If
* both values are different, the value at dest remains
* unchanged.
*
* \return 1 if the value was successfully changed to new_val,
* 0 if cmp_val and the value at dest differ.
*/
int cmpxchg(volatile int *dest, int cmp_val, int new_val);
}
#endif /* _INCLUDE__ARM__CPU__ATOMIC_H_ */

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/*
* \brief IPC message buffer
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__IPC_MSGBUF_H_
#define _INCLUDE__BASE__IPC_MSGBUF_H_
namespace Genode {
/**
* IPC message buffer layout
*/
class Msgbuf_base
{
protected:
size_t _size;
char _msg_start[]; /* symbol marks start of message */
public:
/*
* Begin of actual message buffer
*/
char buf[];
/**
* Return size of message buffer
*/
inline size_t size() const { return _size; };
/**
* Return address of message buffer
*/
inline void *addr() { return &_msg_start[0]; };
} __attribute__((aligned(4)));
/**
* Instance of IPC message buffer with specified buffer size
*/
template <unsigned BUF_SIZE>
class Msgbuf : public Msgbuf_base
{
public:
char buf[BUF_SIZE];
Msgbuf() { _size = BUF_SIZE; }
} __attribute__((aligned(4)));
}
#endif /* _INCLUDE__BASE__IPC_MSGBUF_H_ */

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/*
* \brief Dummy pager support for Genode
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__IPC_PAGER_H_
#define _INCLUDE__BASE__IPC_PAGER_H_
#include <base/ipc.h>
#include <base/stdint.h>
#include <base/native_types.h>
namespace Genode {
class Mapping
{
private:
addr_t _from_phys_addr;
addr_t _to_virt_addr;
size_t _num_pages;
bool _writeable;
enum { PAGE_SIZE_LOG2 = 12 };
public:
/**
* Constructor
*/
Mapping(addr_t dst_addr, addr_t src_addr,
bool write_combined, unsigned l2size = PAGE_SIZE_LOG2,
bool rw = true)
:
_from_phys_addr(src_addr),
_to_virt_addr(dst_addr),
_num_pages(1 << (l2size - PAGE_SIZE_LOG2)),
_writeable(rw)
{ }
/**
* Construct invalid mapping
*/
Mapping() : _num_pages(0) { }
/**
* Prepare map operation
*
* No preparations are needed on Codezero because all mapping
* originate from the physical address space.
*/
void prepare_map_operation() { }
addr_t from_phys() const { return _from_phys_addr; }
addr_t to_virt() const { return _to_virt_addr; }
size_t num_pages() const { return _num_pages; }
bool writeable() const { return _writeable; }
};
/**
* Special paging server class
*/
class Ipc_pager : public Native_capability
{
private:
Native_thread_id _last; /* faulted thread */
addr_t _pf_addr; /* page-fault address */
addr_t _pf_ip; /* instruction pointer of faulter */
bool _pf_write; /* true on write fault */
Mapping _reply_mapping;
// protected:
//
// /**
// * Wait for pagefault
// */
// void _wait();
//
// /**
// * Send page-fault reply and wait for next page fault
// */
// void _reply_and_wait();
public:
/**
* Constructor
*/
Ipc_pager();
/**
* Wait for a new page fault received as short message IPC
*/
void wait_for_fault();
/**
* Reply current page-fault and wait for a new one
*/
void reply_and_wait_for_fault();
/**
* Request instruction pointer of current page fault
*/
addr_t fault_ip() { return _pf_ip; }
/**
* Request fault address of current page fault
*/
addr_t fault_addr() { return _pf_addr; }
/**
* Set parameters for next reply
*/
void set_reply_mapping(Mapping m) { _reply_mapping = m; }
/**
* Set destination for next reply
*/
void set_reply_dst(Native_capability pager_object) {
_last = pager_object.local_name(); }
/**
* Answer call without sending a mapping
*
* This function is used to acknowledge local calls from one of
* core's region-manager sessions.
*/
void acknowledge_wakeup();
/**
* Return thread ID of last faulter
*/
Native_thread_id last() const { return _last; }
/**
* Return badge for faulting thread
*/
unsigned long badge() const { return _last.tid; }
/**
* Return true if page fault was a write fault
*/
bool is_write_fault() const { return _pf_write; }
/**
* Return true if last fault was an exception
*/
bool is_exception() const
{
/*
* Reflection of exceptions is not supported on this platform.
*/
return false;
}
};
}
#endif /* _INCLUDE__BASE__IPC_PAGER_H_ */

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/*
* \brief Dummy definitions for native types used for compiling unit tests
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__NATIVE_TYPES_H_
#define _INCLUDE__BASE__NATIVE_TYPES_H_
namespace Codezero {
struct l4_mutex;
enum { NILTHREAD = -1 };
}
namespace Genode {
class Platform_thread;
struct Native_thread_id
{
int tid;
/**
* Pointer to thread's running lock
*
* Once initialized (see 'lock_helper.h'), it will point to the
* '_running_lock' field of the thread's 'Native_thread' structure,
* which is part of the thread context. This member variable is
* used by the lock implementation only.
*/
struct Codezero::l4_mutex *running_lock;
Native_thread_id() { }
/**
* Constructor (used as implicit constructor)
*/
Native_thread_id(int l4id) : tid(l4id), running_lock(0) { }
Native_thread_id(int l4id, Codezero::l4_mutex *rl) : tid(l4id), running_lock(rl) { }
};
struct Native_thread
{
Native_thread_id l4id;
/**
* Only used in core
*
* For 'Thread' objects created within core, 'pt' points to the
* physical thread object, which is going to be destroyed on
* destruction of the 'Thread'.
*/
Platform_thread *pt;
};
/**
* Empty UTCB type expected by the thread library
*
* On this kernel, UTCBs are not placed within the the context area. Each
* thread can request its own UTCB pointer using the kernel interface.
* However, we use the 'Native_utcb' member of the thread context to
* hold thread-specific data, i.e. the running lock used by the lock
* implementation.
*/
struct Native_utcb
{
private:
/**
* Prevent construction
*
* A UTCB is never constructed, it is backed by zero-initialized memory.
*/
Native_utcb();
/**
* Backing store for per-thread running lock
*
* The size of this member must equal 'sizeof(Codezero::l4_mutex)'.
* Unfortunately, we cannot include the Codezero headers here.
*/
int _running_lock;
public:
Codezero::l4_mutex *running_lock() {
return (Codezero::l4_mutex *)&_running_lock; }
};
inline bool operator == (Native_thread_id t1, Native_thread_id t2) { return t1.tid == t2.tid; }
inline bool operator != (Native_thread_id t1, Native_thread_id t2) { return t1.tid != t2.tid; }
/*
* Because Codezero does not support local names for capabilities, a Genode
* capability consists of the global thread ID and a global object ID, not
* protected by the kernel when transmitted as IPC payloads.
*/
class Native_capability
{
private:
Native_thread_id _tid; /* global thread ID */
int _local_name; /* global unique object ID */
public:
/**
* Default constructor creates invalid capability
*/
Native_capability()
: _local_name(0) { _tid.tid = Codezero::NILTHREAD; }
/**
* Constructor for hand-crafting capabilities
*
* This constructor is only used internally be the framework.
*/
Native_capability(Native_thread_id tid, int local_name)
: _tid(tid), _local_name(local_name) { }
bool valid() const { return _tid.tid != Codezero::NILTHREAD; }
int local_name() const { return _local_name; }
int dst() const { return _tid.tid; }
Native_thread_id tid() const { return _tid; }
};
typedef int Native_connection_state;
}
#endif /* _INCLUDE__BASE__NATIVE_TYPES_H_ */

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/*
* \brief Aggregate Codezero syscall bindings
* \author Norman Feske
* \date 2010-02-16
*/
/*
* Copyright (C) 2010-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__CODEZERO__SYSCALLS_H_
#define _INCLUDE__CODEZERO__SYSCALLS_H_
/*
* Codezero headers happen to include the compiler's 'stdarg.h'. If this
* happened within the 'Codezero' namespace below, we would not be able to
* include 'stdarg.h' later on into the root namespace (stdarg's include guards
* would prevent this. Therefore, we make sure to include the file into the
* root namespace prior processing any Codezero headers.
*/
#include <stdarg.h>
namespace Codezero { extern "C" {
/* make Codezero includes happy */
extern char *strncpy(char *dest, const char *src, __SIZE_TYPE__);
extern void *memcpy(void *dest, const void *src, __SIZE_TYPE__);
/*
* Work around the problem of C++ keywords being used as
* argument names in the Codezero API headers.
*/
#define new _new_
#define virtual _virtual_
#define printf(A, ...)
#include <l4lib/macros.h>
#include <l4lib/arch/arm/syscalls.h>
#include <l4lib/arch/arm/syslib.h>
#include <l4lib/ipcdefs.h>
#include <l4lib/init.h>
#include <l4lib/mutex.h>
#include <l4/api/thread.h>
#include <l4/api/irq.h>
#include <l4lib/exregs.h>
#include <l4/lib/list.h> /* needed for capability.h */
#include <l4/generic/capability.h>
#include <l4/generic/cap-types.h>
#include <l4/arch/arm/exception.h>
#include <l4/arch/arm/io.h>
#undef new
#undef virtual
#ifdef max
#undef max
#endif
#undef printf
} }
namespace Codezero {
/**
* Return thread ID of the calling thread
*/
inline int thread_myself()
{
struct task_ids ids = { 0, 0, 0 };
l4_getid(&ids);
return ids.tid;
}
}
#endif /* _INCLUDE__CODEZERO__SYSCALLS_H_ */

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LIBS = cxx lock l4
SRC_S = crt0.s
SRC_CC = _main.cc
INC_DIR += $(REP_DIR)/src/platform
INC_DIR += $(BASE_DIR)/src/platform
INC_DIR += $(REP_DIR)/include/codezero/dummies
vpath crt0.s $(BASE_DIR)/src/platform/arm
vpath _main.cc $(dir $(call select_from_repositories,src/platform/_main.cc))

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LIBS += l4_arm_v5
include $(REP_DIR)/lib/mk/l4.inc

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LIBL4_DIR = $(CODEZERO_DIR)/conts/userlibs/libl4
INC_DIR += $(CODEZERO_DIR)/conts/userlibs/libc/include
SRC_C += $(notdir $(wildcard $(LIBL4_DIR)/src/arch/arm/v5/*.c))
SRC_S += $(notdir $(wildcard $(LIBL4_DIR)/src/arch/arm/v5/*.S))
vpath %.c $(LIBL4_DIR)/src/arch/arm/v5
vpath %.S $(LIBL4_DIR)/src/arch/arm/v5

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ifeq ($(filter-out $(SPECS),platform_vpb926),)
CODEZERO_CML = $(REP_DIR)/config/vpb926.cml
endif

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#
# Additional symbols we need to keep when using the arm-none-linux-gnueabi
# tool chain
#
KEEP_SYMBOLS += __aeabi_ldivmod __aeabi_uldivmod __dynamic_cast
KEEP_SYMBOLS += _ZN10__cxxabiv121__vmi_class_type_infoD0Ev
#
# Override sources of the base repository with our changed version
#
vpath exception.cc $(REP_DIR)/src/base/cxx
include $(BASE_DIR)/lib/mk/cxx.mk

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SRC_CC = ipc.cc pager.cc
INC_DIR += $(REP_DIR)/include/codezero/dummies
vpath %.cc $(REP_DIR)/src/base/ipc

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LIBL4_DIR = $(CODEZERO_DIR)/conts/userlibs/libl4
SRC_C += init.c irq.c mutex.c
SRC_C += arch/arm/exregs.c
SRC_S += $(addprefix arch/arm/,syscalls.S new_thread.S)
SRC_C += $(addprefix lib/,addr.c bit.c idpool.c)
SRC_C += $(addprefix lib/thread/,init.c thread.c)
SRC_C += $(addprefix lib/cap/,cap.c read.c)
INC_DIR += $(CODEZERO_DIR)/conts/userlibs/libc/include
INC_DIR += $(CODEZERO_DIR)/conts/userlibs/libmem/include
INC_DIR += $(CODEZERO_DIR)/conts/userlibs/libmem
vpath % $(LIBL4_DIR)/src
#
# The libl4 source files uses macros defined in macros.h but do not
# explicitly include the 'macros.h' header file.
#
CC_OPT += -include $(LIBL4_DIR)/include/l4lib/macros.h
#
# Resolve conflicts with built-in functions
#
CC_OPT += -fno-builtin-pow
#
# During the compilation of the libl4 file 'thread.c', the 'l4id_t' type
# is used without prior inclusion of 'types.h'. Furthermore, 'types.h'
# has a wrong include guard, so we take care of this problem using a
# wrapper.
#
CC_OPT_lib_thread_thread += -include fix_include_types.h
CC_OPT_arch_arm_exregs += -include fix_include_types.h
lib/thread/thread.o arch/arm/exregs.o: fix_include_types.h
fix_include_types.h:
@echo "#include <l4lib/arch/arm/types.h>" > $@
@echo "#define __L4LIB_ARM_TYPES_H___" >> $@
CC_OPT += -std=gnu99

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SRC_CC = lock.cc cmpxchg.cc
INC_DIR += $(REP_DIR)/include/codezero/dummies
INC_DIR += $(REP_DIR)/src/base/lock
vpath lock.cc $(BASE_DIR)/src/base/lock
vpath cmpxchg.cc $(REP_DIR)/src/base/lock

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SRC_CC = pager.cc
INC_DIR += $(REP_DIR)/include/codezero/dummies
vpath pager.cc $(REP_DIR)/src/base/pager

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SRC_CC = core_printf.cc
LIBS = cxx console
INC_DIR += $(REP_DIR)/src/base/console/pl011
INC_DIR += $(REP_DIR)/include/codezero/dummies
vpath core_printf.cc $(BASE_DIR)/src/base/console

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#
# Create prerequisites for building Genode for Codezero
#
#
# Execute the rules in this file only at the second build stage when we know
# about the complete build settings, e.g., the 'CROSS_DEV_PREFIX'.
#
ifeq ($(called_from_lib_mk),yes)
include $(REP_DIR)/lib/mk/codezero_cml.inc
all: $(BUILD_BASE_DIR)/include/l4/config.h
$(BUILD_BASE_DIR)/include/l4/config.h: $(CODEZERO_CML)
$(VERBOSE)mkdir -p $(dir $@)
$(VERBOSE)$(CODEZERO_DIR)/tools/cml2header.py -i $^ -o $@
#
# Codezero's 'macros.h' includes the file "config.h", expected to be located in
# the same directory (using #include "config.h"). However, 'config.h' is
# generated into the source tree by the Codezero configuration system. Since we
# do not want to pollute the source tree, we create a shadow copy of 'macros.h'
# in the same directory as our generated 'config.h'.
#
all: $(BUILD_BASE_DIR)/include/l4/macros.h
$(BUILD_BASE_DIR)/include/l4/macros.h: $(CODEZERO_DIR)/include/l4/macros.h
$(VERBOSE)mkdir -p $(dir $@)
$(VERBOSE)ln -s $^ $@
endif

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@ -0,0 +1,5 @@
SRC_CC = thread.cc thread_start.cc thread_bootstrap.cc
INC_DIR += $(REP_DIR)/include/codezero/dummies
vpath thread_start.cc $(REP_DIR)/src/base/thread
vpath %.cc $(BASE_DIR)/src/base/thread

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@ -0,0 +1,56 @@
#
# Specifics for the Codezero kernel API
#
#
# Read default and builddir-specific config files
#
# In these config files, we expect to find the definition of CODEZERO_DIR
#
-include $(call select_from_repositories,etc/codezero.conf)
-include $(BUILD_BASE_DIR)/etc/codezero.conf
ifeq ($(CODEZERO_DIR),)
$(error Could not find the definition of CODEZERO_DIR in etc/codezero.conf)
endif
#
# Convert path to absolute directory
#
absdir = $(shell readlink -f $(1))
#
# Headers generated within the build directory
# (see 'lib/mk/platform.mk')
#
INC_DIR += $(BUILD_BASE_DIR)/include
#
# Codezero headers
#
CODEZERO_ABS_DIR = $(call absdir,$(CODEZERO_DIR))
INC_DIR += $(CODEZERO_ABS_DIR)/include
INC_DIR += $(CODEZERO_ABS_DIR)/conts/userlibs/libl4/include
INC_DIR += $(CODEZERO_ABS_DIR)/conts/userlibs/libdev/uart/include
#
# Codezero-specific startup code
#
PRG_LIBS += startup
#
# Allow programs to test for the Codezero kernel
#
# This is needed by the 'pl050/irq_handler.h' to handle the interrupt semantics
# of Codezero.
#
CC_OPT += -D__CODEZERO__
#
# Clean rules for removing the side effects of building the platform
#
clean_includes:
$(VERBOSE)rm -rf $(BUILD_BASE_DIR)/include
cleanall: clean_includes

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@ -0,0 +1,13 @@
#
# Specifics for Codezero on ARM
#
SPECS += codezero
#
# Linker options specific for ARM
#
LD_TEXT_ADDR ?= 0x02000000
CC_OPT += -D__ARCH__=arm
include $(call select_from_repositories,mk/spec-codezero.mk)

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@ -0,0 +1,9 @@
#
# Specifics for Codezero on ARMv5
#
SPECS += codezero_arm
CC_OPT += -D__SUBARCH__=v5
include $(call select_from_repositories,mk/spec-codezero_arm.mk)

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@ -0,0 +1,6 @@
SPECS += codezero_arm_v5 platform_vpb926
CC_OPT += -D__PLATFORM__=pb926
include $(call select_from_repositories,mk/spec-codezero_arm_v5.mk)
include $(call select_from_repositories,mk/spec-platform_vpb926.mk)

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@ -0,0 +1,67 @@
This directory contains patches of the Codezero kernel that are needed for the
integration with Genode. Furthermore, some patches address issues with recent
tool chains not yet supported by the official Codezero verison.
:binutils-2.21.patch:
The GNU assembler of binutils-2.21 complains with an error that was ignored
by previous binutils versions:
"Error: .size expression for ... does not evaluate to a constant"
This error seems to occur if the argument of 'BEGIN_PROC' does not match
the argument of 'END_PROC'. The patch fixes such inconsistencies in the
code.
:gcc_shared_enabled.patch:
Codezero expect the tool chain to be used for the kernel to not support
shared libraries. This is the case for Codesourcery's arm-non-eabi
tool chain. Such tool chains use to incorporate both libgcc and libgcc_eh
into the single libgcc.a library. In contrast, for tool chains built with
'--enable-shared', libgcc does not contain the functions of libgcc_eh. Hence,
one symbol called '__aeabi_unwind_cpp_pr0' referenced by libgcc and normally
provided by libgcc_eh remains unresolved. There are two possible solutions
for this problem: We could link libgcc_eh to the 'final.elf' image as
expected by libgcc. However, this way, we will need to implement the
the environment expected by libgcc_eh. For Codezero, this is pointless
because no C++ is used. The second option is to provide a dummy symbol
for '__aeabi_unwind_cpp_pr0' just to make the linker happy. This patch
adds such a dummy symbol to 'loader/main.c'.
:libc_search_dir.patch:
The userlibs are build with w/o '-nostdinc'. Consequently, the standard
search paths of the tool chain are used. Because the user land is
normally build with the Codesourcery tool chain 'arm-none-linux-gnueabi',
the complete glibc headers (that come with the tool chain) end up in
the default search path. Coincidentally, the userlibs SConstruct file
misses to supply the Codezero libc headers, which goes undetected because
headers such as 'stdio.h' are silently taken from the tool chain's libc.
This patch supplies Codezero's libc include-search path for building
the userlibs. This enables the userlibs to be built with tool chains
that do not come with a complete libc.
:scons-2.0.1.patch:
SCons 2.0.1 complains about the 'build_dir' argument being renamed to
'variant_dir'. This patch renames the argument where needed for building
the kernel and the default container.
:set_fixed_pager.patch:
At some point, Codezero abandoned the facility to define the pager for a
given thread via the exregs system call. Instead, the kernel hard-wires the
creator of the thread as the thread's pager. This is conflicting with
Genode's way of creating and paging threads. On the current version of Genode
for Codezero, all threads are paged by one thread (thread 3 happens to be the
global pager) within core. As a work-around to Codezero's current limitation,
we define thread 3 to be the pager of all threads.
:gcc_4_6_1_fixes.patch:
Version 4.6.1 of GCC is more picky about dead code than previous versions and
warns about unused variables. Because Codezero is build with the '-Werror'
flag, these warnings cause the kernel build to fail. The patch fixes those
warnings by removing the variables in question.

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@ -0,0 +1,33 @@
diff --git a/src/arch/arm/vectors.S b/src/arch/arm/vectors.S
index 0475389..62f3c38 100644
--- a/src/arch/arm/vectors.S
+++ b/src/arch/arm/vectors.S
@@ -503,7 +503,7 @@ BEGIN_PROC(arm_irq_exception_basic)
mov lr, pc
ldr pc, =do_irq
ldmfd sp!, {r0-r3, pc}^
-END_PROC(arm_irq_exception)
+END_PROC(arm_irq_exception_basic)
/* Minimal IRQ state saved on irq stack right after irq vector enters: */
#define IRQ_R0 0
diff --git a/conts/userlibs/libc/src/arch-arm/memcpy.S b/conts/userlibs/libc/src/arch-arm/memcpy.S
index 383f5d2..b4df27f 100644
--- a/conts/userlibs/libc/src/arch-arm/memcpy.S
+++ b/conts/userlibs/libc/src/arch-arm/memcpy.S
@@ -57,4 +57,4 @@ BEGIN_PROC(memcpy)
bne last
1:
pop {r0, r4 - r11, pc}
-END_PROC(_memcpy)
+END_PROC(memcpy)
diff --git a/conts/userlibs/libc/src/arch-arm/memset.S b/conts/userlibs/libc/src/arch-arm/memset.S
index ce9b06c..3746955 100644
--- a/conts/userlibs/libc/src/arch-arm/memset.S
+++ b/conts/userlibs/libc/src/arch-arm/memset.S
@@ -65,4 +65,4 @@ BEGIN_PROC(memset)
bne end
ldmfd sp!, {r4 - r11, pc}
-END_PROC(_memset)
+END_PROC(memset)

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@ -0,0 +1,182 @@
diff --git a/src/api/map.c b/src/api/map.c
index 1d15086..6139b4c 100644
--- a/src/api/map.c
+++ b/src/api/map.c
@@ -78,6 +78,6 @@ int sys_unmap(unsigned long virtual, unsigned long npages, unsigned int tid)
retval = ret;
}
- return ret;
+ return retval;
}
diff --git a/src/api/thread.c b/src/api/thread.c
index 985c425..579e4fb 100644
--- a/src/api/thread.c
+++ b/src/api/thread.c
@@ -497,7 +497,7 @@ out_err:
*/
int sys_thread_control(unsigned int flags, struct task_ids *ids)
{
- struct ktcb *task = 0, *pager = 0;
+ struct ktcb *task = 0;
int err, ret = 0;
if ((err = check_access((unsigned long)ids, sizeof(*ids),
@@ -508,8 +508,6 @@ int sys_thread_control(unsigned int flags, struct task_ids *ids)
if (!(task = tcb_find(ids->tid)))
return -ESRCH;
- pager = task->pager;
-
/*
* Caller may operate on a thread if it shares
* the same address space with that thread's pager
diff --git a/src/arch/arm/mapping-common.c b/src/arch/arm/mapping-common.c
index 385f7c2..55b4bea 100644
--- a/src/arch/arm/mapping-common.c
+++ b/src/arch/arm/mapping-common.c
@@ -313,12 +313,11 @@ int check_mapping(unsigned long vaddr, unsigned long size,
int remove_mapping_space(struct address_space *space, unsigned long vaddr)
{
pmd_table_t *pmd_table;
- int pgd_i, pmd_i;
+ int pmd_i;
pmd_t *pmd;
unsigned int pmd_type, pte_type;
vaddr = page_align(vaddr);
- pgd_i = PGD_INDEX(vaddr);
pmd_i = PMD_INDEX(vaddr);
/*
diff --git a/src/glue/arm/init.c b/src/glue/arm/init.c
index 2373c66..43c6fda 100644
--- a/src/glue/arm/init.c
+++ b/src/glue/arm/init.c
@@ -68,8 +68,6 @@ void print_sections(void)
/* The kip is non-standard, using 0xBB to indicate mine for now ;-) */
void kip_init()
{
- struct utcb **utcb_ref;
-
/*
* TODO: Adding utcb size might be useful
*/
@@ -86,9 +84,6 @@ void kip_init()
kip_init_syscalls();
- /* KIP + 0xFF0 is pointer to UTCB segment start address */
- utcb_ref = (struct utcb **)((unsigned long)&kip + UTCB_KIP_OFFSET);
-
add_boot_mapping(virt_to_phys(&kip), USER_KIP_PAGE, PAGE_SIZE,
MAP_USR_RO);
printk("%s: Kernel built on %s, %s\n", __KERNELNAME__,
diff --git a/loader/libs/elf/src/elf.c b/loader/libs/elf/src/elf.c
index 4a1b5e0..f97273b 100644
--- a/loader/libs/elf/src/elf.c
+++ b/loader/libs/elf/src/elf.c
@@ -339,16 +339,12 @@ elf_loadFile(void *elfFile, bool phys)
{
int i;
int num_pheaders;
- int pheader_offset;
- int pheader_type;
if (elf_checkFile(elfFile) != 0) {
return false;
}
num_pheaders = elf_getNumProgramHeaders(elfFile);
- pheader_offset = elf_getProgramHeaderOffset(elfFile, 0);
//printf("Number of program headers: %d\n", num_pheaders);
- //printf("Program header offset of first header from file beginning: 0x%p\n",pheader_offset);
/*
* FIXME:
@@ -373,8 +369,6 @@ elf_loadFile(void *elfFile, bool phys)
// printf("This section's size in file: %p\n", len);
src = (uint64_t) (uintptr_t) elfFile + elf_getProgramHeaderOffset(elfFile, i);
// printf("Elf program header offset: %p\n", src);
- pheader_type = elf_getProgramHeaderType(elfFile, i);
- // printf("Elf program header type: %p\n", pheader_type);
// Comment
printf("Copying to range from 0x%x to 0x%x of size: 0x%x\n", (unsigned int)dest, (unsigned int)dest + (unsigned int)len, (unsigned int)len);
memcpy((void*) (uintptr_t) dest, (void*) (uintptr_t) src, len);
diff --git a/loader/libs/elf/src/elf32.c b/loader/libs/elf/src/elf32.c
index 2d13798..78bbf33 100644
--- a/loader/libs/elf/src/elf32.c
+++ b/loader/libs/elf/src/elf32.c
@@ -248,7 +248,6 @@ elf32_fprintf(FILE *f, struct Elf32_Header *file, int size, const char *name, in
struct Elf32_Shdr *sections;
unsigned numSections;
int i, r;
- char *str_table;
fprintf(f, "Found an elf32 file called \"%s\" located "
"at address 0x%p\n", name, file);
@@ -307,7 +306,6 @@ elf32_fprintf(FILE *f, struct Elf32_Header *file, int size, const char *name, in
}
}
if (flags & ELF_PRINT_SECTIONS) {
- str_table = elf32_getSegmentStringTable(file);
printf("Section Headers:\n");
printf(" [Nr] Name Type Addr Off\n");
diff --git a/src/generic/capability.c b/src/generic/capability.c
index 0860ea5..ef44445 100644
--- a/src/generic/capability.c
+++ b/src/generic/capability.c
@@ -403,7 +403,7 @@ struct capability *cap_match_mem(struct capability *cap,
{
struct sys_map_args *args = args_ptr;
struct ktcb *target = args->task;
- unsigned long long start, end, pfn_point;
+ unsigned long long start, pfn_point;
unsigned long pfn;
unsigned int perms;
@@ -415,7 +415,6 @@ struct capability *cap_match_mem(struct capability *cap,
/* Long long range check to avoid overflow */
start = cap->start;
- end = cap->end;
pfn_point = pfn;
if (start > pfn_point || cap->end < pfn_point + args->npages)
return 0;
diff --git a/loader/main.c b/loader/main.c
index 7d21a4c..8d7d6db 100644
--- a/loader/main.c
+++ b/loader/main.c
@@ -26,7 +26,6 @@ int load_elf_image(unsigned long **entry, void *filebuf);
int load_container_image(void *cont_section)
{
struct Elf32_Header *elf_header = (struct Elf32_Header *)cont_section;
- struct Elf32_Shdr *sect_header;
int nsect;
int nimgs = 0;
unsigned long *image_entry;
@@ -36,7 +35,6 @@ int load_container_image(void *cont_section)
return -1;
}
- sect_header = elf32_getSectionTable(elf_header);
nsect = elf32_getNumSections(elf_header);
for (int i = 0; i < nsect; i++) {
@@ -59,7 +57,6 @@ int load_container_image(void *cont_section)
int load_container_images(unsigned long start, unsigned long end)
{
struct Elf32_Header *elf_header = (struct Elf32_Header *)start;
- struct Elf32_Shdr *sect_header;
int nsect = 0;
int nconts = 0;
@@ -68,7 +65,6 @@ int load_container_images(unsigned long start, unsigned long end)
return -1;
}
- sect_header = elf32_getSectionTable(elf_header);
nsect = elf32_getNumSections(elf_header);
for (int i = 0; i < nsect; i++) {

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@ -0,0 +1,10 @@
diff --git a/loader/main.c b/loader/main.c
index 7d21a4c..ee03918 100644
--- a/loader/main.c
+++ b/loader/main.c
@@ -135,3 +135,5 @@ int main(void)
return -1;
}
+
+asm(".global __aeabi_unwind_cpp_pr0; __aeabi_unwind_cpp_pr0:");

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@ -0,0 +1,21 @@
diff --git a/conts/userlibs/SConstruct b/conts/userlibs/SConstruct
index 41c7913..421b563 100644
--- a/conts/userlibs/SConstruct
+++ b/conts/userlibs/SConstruct
@@ -11,6 +11,7 @@ PROJRELROOT = '../..'
sys.path.append(PROJRELROOT)
from scripts.config.config_invoke import *
+from scripts.config.projpaths import *
config = configuration_retrieve()
gcc_arch_flag = config.gcc_arch_flag
@@ -28,7 +29,7 @@ env = Environment(CC = config.toolchain_userspace + 'gcc',
ASFLAGS = ['-D__ASSEMBLY__', '-march=' + gcc_arch_flag],
ENV = {'PATH' : os.environ['PATH']},
LIBS = 'gcc', # libgcc.a - Required for division routines.
- CPPPATH = KERNEL_HEADERS,
+ CPPPATH = [KERNEL_HEADERS, LIBC_INCLUDE],
CPPFLAGS = '-include l4/config.h -include l4/macros.h -include l4/types.h')
# Set the build directory for this source tree

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@ -0,0 +1,97 @@
diff --git a/src/drivers/SConscript b/src/drivers/SConscript
index eedb59f..8f5cd5d 100644
--- a/src/drivers/SConscript
+++ b/src/drivers/SConscript
@@ -8,24 +8,24 @@ src_local = []
objs = []
objs += SConscript("uart/pl011/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'pl011'))
+ duplicate=0, variant_dir = join(bdir, 'pl011'))
objs += SConscript("timer/sp804/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'timer'))
+ duplicate=0, variant_dir = join(bdir, 'timer'))
objs += SConscript("irq/pl190/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'vic'))
+ duplicate=0, variant_dir = join(bdir, 'vic'))
objs += SConscript("irq/gic/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'gic'))
+ duplicate=0, variant_dir = join(bdir, 'gic'))
objs += SConscript("irq/omap3/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'omap/intc'))
+ duplicate=0, variant_dir = join(bdir, 'omap/intc'))
objs += SConscript("uart/omap/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'omap/uart'))
+ duplicate=0, variant_dir = join(bdir, 'omap/uart'))
objs += SConscript("timer/omap/SConscript", exports = { 'env' : env },
- duplicate=0, build_dir = join(bdir, 'omap/timer'))
+ duplicate=0, variant_dir = join(bdir, 'omap/timer'))
Return('objs')
diff --git a/conts/baremetal/empty/SConstruct b/conts/baremetal/empty/SConstruct
index b70d69a..4889d8e 100644
--- a/conts/baremetal/empty/SConstruct
+++ b/conts/baremetal/empty/SConstruct
@@ -48,7 +48,7 @@ env = Environment(CC = config.toolchain_userspace + 'gcc',
CPPFLAGS = '-include l4/config.h -include l4/macros.h -include l4/types.h')
objs = SConscript('SConscript', exports = { 'env' : env },
- duplicate=0, build_dir = builddir)
+ duplicate=0, variant_dir = builddir)
Depends(objs, join(PROJROOT, CONFIG_H))
prog = env.Program(join(builddir, 'main.elf'), objs)
diff --git a/SConstruct b/SConstruct
index 2abc190..58c983d 100644
--- a/SConstruct
+++ b/SConstruct
@@ -71,35 +71,35 @@ env = Environment(CC = config.toolchain_kernel + 'gcc',
objects = []
objects += SConscript('src/generic/SConscript',
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, 'generic'))
+ variant_dir = join(builddir, 'generic'))
objects += SConscript(join(join('src/glue', arch), 'SConscript'),
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, join('glue',arch)))
+ variant_dir = join(builddir, join('glue',arch)))
objects += SConscript(join(join('src/arch', arch), 'SConscript'),
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, join('arch', arch)))
+ variant_dir = join(builddir, join('arch', arch)))
objects += SConscript(join(join('src/arch', arch), join(subarch, 'SConscript')),
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, join(join('arch',arch), subarch)))
+ variant_dir = join(builddir, join(join('arch',arch), subarch)))
objects += SConscript('src/lib/SConscript',
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, 'lib'))
+ variant_dir = join(builddir, 'lib'))
objects += SConscript('src/api/SConscript',
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, 'api'))
+ variant_dir = join(builddir, 'api'))
objects += SConscript('src/drivers/SConscript',
exports = { 'env' : env, 'bdir' : 'driver/'}, duplicate = 0,
- build_dir = join(builddir, 'driver'))
+ variant_dir = join(builddir, 'driver'))
objects += SConscript(join(join('src/platform', platform), 'SConscript'),
exports = { 'env' : env }, duplicate = 0,
- build_dir = join(builddir, join('platform', platform)))
+ variant_dir = join(builddir, join('platform', platform)))
# Add builders for generating kernel linker scripts

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@ -0,0 +1,13 @@
diff --git a/include/l4/generic/tcb.h b/include/l4/generic/tcb.h
index 7b315b8..ace38d8 100644
--- a/include/l4/generic/tcb.h
+++ b/include/l4/generic/tcb.h
@@ -70,7 +70,7 @@ struct task_ids {
struct container;
-#define tcb_pagerid(tcb) ((tcb)->pager->tid)
+#define tcb_pagerid(tcb) 3
#define space_is_pager(tcb) \
((tcb)->space->spid == (tcb)->pager->space->spid)

88
base-codezero/run/env Normal file
View File

@ -0,0 +1,88 @@
#
# \brief Codezero-specific test-environment supplements
# \author Norman Feske
# \date 2011-08-05
#
# This file is meant to be used as '--include' argument for 'tool/run'.
#
##
# Return location of prebuilt mirror of codezero source tree
#
proc kernel_dir { } { return [pwd]/kernel/codezero }
##
# Return container directory where the Genode binaries should be copied to
#
proc container_dir { } { return [kernel_dir]/build/cont0/empty0 }
##
# Return location of 'gen_romfs' tool
#
proc gen_romfs { } { return "[genode_dir]/base-codezero/tool/gen_romfs" }
##
# Print and execute shell command
#
proc exec_sh { command } {
puts "$command"
exec sh -c $command
}
##################################
## Test framework API functions ##
##################################
proc create_boot_directory { } {
# create only intermediate directries hosting the run directory
exec mkdir -p [run_dir]
exec rm -rf [run_dir]
exec mkdir -p [run_dir]/genode
}
proc build_boot_image {binaries} {
if {![file exists kernel]} { build kernel }
copy_and_strip_genode_binaries_to_run_dir $binaries
# the codezero build system expects that the pager binary is named 'main.elf'
exec cp [run_dir]/genode/core [container_dir]/main.elf
# obtain list of modules
set modules [glob [run_dir]/genode/*]
# remove core from list of modules
set core_idx [lsearch -exact $modules [run_dir]/genode/core]
set modules [lreplace $modules $core_idx $core_idx]
# generate elf image containing the boot modules
exec_sh "[gen_romfs] -p [cross_dev_prefix] -c [run_dir]/genode/core -o [container_dir]/modules.elf $modules"
set tool_chain_dir [file dirname [cross_dev_prefix]]
set prepend_path ""
if {[file isdirectory $tool_chain_dir]} {
set prepend_path $tool_chain_dir }
# force re-generation of 'cinfo.c', which depends on the container content
exec_sh "rm -f [kernel_dir]/src/generic/cinfo.c"
# rebuild codezero, linking the new container content
exec_sh "cd [kernel_dir]; PATH=$prepend_path:\$PATH ./build.py"
# copy result to [run_dir]/image.elf (to be picked up by spawn_qemu)
exec_sh "cp [kernel_dir]/build/final.elf [run_dir]/image.elf"
}
proc run_genode_until {{wait_for_re forever} {timeout_value 0}} {
spawn_qemu $wait_for_re $timeout_value }

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@ -0,0 +1,78 @@
/*
* \brief Console backend for PL011 UART on Codezero
* \author Norman Feske
* \date 2009-10-03
*
* This code assumes a PL011 UART as provided by 'qemu -M versatilepb'. Prior
* executing this code, the kernel already initialized the UART to print some
* startup message. So we can skip the UART initialization here. The kernel
* maps the UART registers to the magic address PL011_BASE when starting mm0.
* So we can just start using the device without any precautions.
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/console.h>
/* codezero includes */
#include <codezero/syscalls.h>
typedef unsigned char uint8_t;
/**
* Base address of default-mapped UART device
*
* defined in 'l4/arch/arm/io.h'
*/
enum { PL011_BASE = USERSPACE_CONSOLE_VBASE };
/**
* UART registers
*/
enum { PL011_REG_UARTDR = PL011_BASE + 0x00 };
enum { PL011_REG_UARTFR = PL011_BASE + 0x18 };
/**
* Returns true if UART is ready to transmit a character
*/
static bool pl011_tx_ready()
{
enum { PL011_TX_FIFO_FULL = 1 << 5 };
return !(*((volatile unsigned *)PL011_REG_UARTFR) & PL011_TX_FIFO_FULL);
}
/**
* Output character to serial port
*/
static void pl011_out_char(uint8_t c)
{
/* wait until serial port is ready */
while (!pl011_tx_ready());
/* output character */
*((volatile unsigned int *)PL011_REG_UARTDR) = c;
}
namespace Genode
{
class Core_console : public Console
{
protected:
void _out_char(char c) {
if(c == '\n')
pl011_out_char('\r');
pl011_out_char(c);
}
};
}

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/*
* \brief Support for exceptions libsupc++
* \author Norman Feske
* \author Sebastian Sumpf
* \date 2006-07-21
*/
/*
* Copyright (C) 2006-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#include <base/printf.h>
extern "C" char __eh_frame_start__[]; /* from linker script */
extern "C" void __register_frame (const void *begin); /* from libgcc_eh */
/*
* This symbol is set by Genode's dynamic linker (ldso) during binary setup.
* After setup, the symbol will point to the actual implementation of
* 'dl_iterate_phdr', which is located within the linker. 'dl_iterate_phdr'
* iterates through all (linker loaded) binaries and shared libraries. This
* function has to be implemented in order to support C++ exceptions within
* shared libraries.
* Return values of dl_iterate_phdr (gcc 4.2.4):
* < 0 = error
* 0 = continue program header iteration
* > 0 = stop iteration (no errors occured)
*
* See also: man dl_iterate_phdr
*/
int (*genode__dl_iterate_phdr) (int (*callback) (void *info, unsigned long size, void *data), void *data) = 0;
extern "C" int dl_iterate_phdr(int (*callback) (void *info, unsigned long size, void *data), void *data) __attribute__((weak));
extern "C" int dl_iterate_phdr(int (*callback) (void *info, unsigned long size, void *data), void *data)
{
if (!genode__dl_iterate_phdr)
return -1;
return genode__dl_iterate_phdr(callback, data);
}
extern "C" void raise()
{
PDBG("raise called - not implemented\n");
}
void init_exception_handling()
{
// __register_frame(__eh_frame_start__);
}

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/*
* \brief Functions required for using the arm-none-linux-gnueabi tool chain
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#include <base/printf.h>
#include <base/stdint.h>
using namespace Genode;
extern "C" int raise(int sig)
{
PWRN("raise - not yet implemented");
return 0;
}

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/*
* \brief Codezero implementation of the IPC API
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Codezero includes */
#include <codezero/syscalls.h>
/* Genode includes */
#include <base/ipc.h>
#include <base/printf.h>
#include <base/blocking.h>
#include <util/misc_math.h>
using namespace Genode;
using namespace Codezero;
enum { verbose_ipc = false };
/*****************
** Ipc_ostream **
*****************/
void Ipc_ostream::_send()
{
if (verbose_ipc)
PDBG("thread %d sends IPC to %d, write_offset=%d",
thread_myself(), _dst.tid().tid, _write_offset);
umword_t snd_size = min(_write_offset, (unsigned)L4_IPC_EXTENDED_MAX_SIZE);
*(umword_t *)_snd_msg->addr() = _dst.local_name();
int ret = l4_send_extended(_dst.tid().tid, L4_IPC_TAG_SYNC_EXTENDED,
snd_size, _snd_msg->addr());
if (ret < 0)
PERR("l4_send_extended (to thread %d) returned ret=%d",
_dst.tid().tid, ret);
_write_offset = sizeof(umword_t);
}
Ipc_ostream::Ipc_ostream(Native_capability dst, Msgbuf_base *snd_msg)
:
Ipc_marshaller((char *)snd_msg->addr(), snd_msg->size()),
_snd_msg(snd_msg), _dst(dst)
{
_write_offset = sizeof(umword_t);
}
/*****************
** Ipc_istream **
*****************/
void Ipc_istream::_wait()
{
umword_t *rcv_buf = (umword_t *)_rcv_msg->addr();
umword_t rcv_size = min(_rcv_msg->size(), (unsigned)L4_IPC_EXTENDED_MAX_SIZE);
if (verbose_ipc)
PDBG("thread %d waits for IPC from %d, rcv_buf at %p, rcv_size=%d",
tid().tid, _rcv_cs, rcv_buf, (int)rcv_size);
int ret = l4_receive_extended(_rcv_cs, rcv_size, rcv_buf);
if (ret < 0)
PERR("l4_receive_extended (from any) returned ret=%d", ret);
if (verbose_ipc)
PDBG("thread %d received IPC from %d",
tid().tid, l4_get_sender());
_read_offset = sizeof(umword_t);
}
Ipc_istream::Ipc_istream(Msgbuf_base *rcv_msg)
:
Ipc_unmarshaller((char *)rcv_msg->addr(), rcv_msg->size()),
Native_capability(thread_myself(), 0),
_rcv_msg(rcv_msg)
{
_rcv_cs = L4_ANYTHREAD;
_read_offset = sizeof(umword_t);
}
Ipc_istream::~Ipc_istream() { }
/****************
** Ipc_client **
****************/
void Ipc_client::_call()
{
#warning l4_sendrecv_extended is not yet implemented in l4lib/arch/syslib.h
_send();
_rcv_cs = _dst.tid().tid;
_wait();
_rcv_cs = L4_ANYTHREAD;
_write_offset = _read_offset = sizeof(umword_t);
}
Ipc_client::Ipc_client(Native_capability const &srv,
Msgbuf_base *snd_msg, Msgbuf_base *rcv_msg)
: Ipc_istream(rcv_msg), Ipc_ostream(srv, snd_msg), _result(0)
{ }
/****************
** Ipc_server **
****************/
void Ipc_server::_prepare_next_reply_wait()
{
/* now we have a request to reply */
_reply_needed = true;
/* leave space for return value at the beginning of the msgbuf */
_write_offset = 2*sizeof(umword_t);
/* receive buffer offset */
_read_offset = sizeof(umword_t);
}
void Ipc_server::_wait()
{
/* wait for new server request */
try { Ipc_istream::_wait(); } catch (Blocking_canceled) { }
/* define destination of next reply */
_dst = Native_capability(l4_get_sender(), badge());
_prepare_next_reply_wait();
}
void Ipc_server::_reply()
{
try { _send(); } catch (Ipc_error) { }
_prepare_next_reply_wait();
}
void Ipc_server::_reply_wait()
{
if (_reply_needed)
_reply();
_wait();
}
Ipc_server::Ipc_server(Msgbuf_base *snd_msg,
Msgbuf_base *rcv_msg)
:
Ipc_istream(rcv_msg), Ipc_ostream(Native_capability(), snd_msg),
_reply_needed(false)
{ }

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/*
* \brief Pager support for Codezero
* \author Norman Feske
* \date 2010-02-16
*/
/*
* Copyright (C) 2010-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/ipc_pager.h>
#include <base/printf.h>
/* Codezero includes */
#include <codezero/syscalls.h>
using namespace Genode;
using namespace Codezero;
enum { verbose_page_faults = false };
/************************
** Page-fault utility **
************************/
class Fault
{
public:
enum Type { READ, WRITE, EXEC, UNKNOWN };
private:
/**
* Translate Codezero page-fault information to generic fault type
*
* \param sr status
* \param pte page-table entry
*/
static Type _fault_type(umword_t sr, umword_t pte)
{
if (is_prefetch_abort(sr))
return EXEC;
if ((pte & PTE_PROT_MASK) == (__MAP_USR_RO & PTE_PROT_MASK))
return WRITE;
return READ;
}
Type _type;
umword_t _addr;
umword_t _ip;
public:
/**
* Constructor
*
* \param kdata Codezero-specific page-fault information
*/
Fault(struct fault_kdata const &kdata)
:
_type(_fault_type(kdata.fsr, kdata.pte)),
_addr(_type == EXEC ? kdata.faulty_pc : kdata.far),
_ip(kdata.faulty_pc)
{ }
Type type() const { return _type; }
umword_t addr() const { return _addr; }
umword_t ip() const { return _ip; }
};
/**
* Print page-fault information in a human-readable form
*/
inline void print_page_fault(Fault &fault, int from)
{
printf("page (%s%s%s) fault from %d at pf_addr=%lx, pf_ip=%lx\n",
fault.type() == Fault::READ ? "r" : "-",
fault.type() == Fault::WRITE ? "w" : "-",
fault.type() == Fault::EXEC ? "x" : "-",
from, fault.addr(), fault.ip());
}
/***************
** IPC pager **
***************/
void Ipc_pager::wait_for_fault()
{
for (;;) {
int ret = l4_receive(L4_ANYTHREAD);
if (ret < 0) {
PERR("pager: l4_received returned ret=%d", ret);
continue;
}
umword_t tag = l4_get_tag();
int faulter_tid = l4_get_sender();
if (tag != L4_IPC_TAG_PFAULT) {
PWRN("got an unexpected IPC from %d", faulter_tid);
continue;
}
/* copy fault information from message registers */
struct fault_kdata fault_kdata;
for (unsigned i = 0; i < sizeof(fault_kdata_t)/sizeof(umword_t); i++)
((umword_t *)&fault_kdata)[i] = read_mr(MR_UNUSED_START + i);
Fault fault(fault_kdata);
if (verbose_page_faults)
print_page_fault(fault, faulter_tid);
/* determine corresponding page in our own address space */
_pf_addr = fault.addr();
_pf_write = fault.type() == Fault::WRITE;
_pf_ip = fault.ip();
_last = faulter_tid;
return;
}
}
void Ipc_pager::reply_and_wait_for_fault()
{
/* install mapping */
umword_t flags = _reply_mapping.writeable() ? MAP_USR_RW
: MAP_USR_RO;
/*
* XXX: remove heuristics for mapping device registers.
*/
if (_reply_mapping.from_phys() == 0x10120000 /* LCD */
|| _reply_mapping.from_phys() == 0x10006000 /* keyboard */
|| _reply_mapping.from_phys() == 0x10007000) /* mouse */
flags = MAP_USR_IO;
int ret = l4_map((void *)_reply_mapping.from_phys(),
(void *)_reply_mapping.to_virt(),
_reply_mapping.num_pages(), flags, _last.tid);
/* wake up faulter if mapping succeeded */
if (ret < 0)
PERR("l4_map returned %d, putting thread %d to sleep", ret, _last.tid);
else
acknowledge_wakeup();
/* wait for next page fault */
wait_for_fault();
}
void Ipc_pager::acknowledge_wakeup()
{
enum { SUCCESS = 0 };
l4_set_sender(_last.tid);
l4_ipc_return(SUCCESS);
}
Ipc_pager::Ipc_pager() : Native_capability(thread_myself(), 0) { }

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/*
* \brief Codezero-specific implementation of cmpxchg
* \author Norman Feske
* \date 2009-10-12
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <cpu/atomic.h>
#include <base/printf.h>
#include <base/lock.h>
/* Codezero includes */
#include <codezero/syscalls.h>
static bool mutex_initialized;
static Codezero::l4_mutex mutex;
int Genode::cmpxchg(volatile int *dest, int cmp_val, int new_val)
{
if (!mutex_initialized) {
Codezero::l4_mutex_init(&mutex);
mutex_initialized = true;
}
int ret = Codezero::l4_mutex_lock(&mutex);
if (ret < 0)
mutex_initialized = false;
bool result = false;
if (*dest == cmp_val) {
*dest = new_val;
result = true;
}
ret = Codezero::l4_mutex_unlock(&mutex);
if (ret < 0)
mutex_initialized = false;
return result;
}

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/*
* \brief Lock implementation
* \author Norman Feske
* \date 2007-10-15
*/
/*
* Copyright (C) 2007-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/cancelable_lock.h>
#include <base/printf.h>
#include <cpu/atomic.h>
/* Codezero includes */
#include <codezero/syscalls.h>
using namespace Genode;
Cancelable_lock::Cancelable_lock(Cancelable_lock::State initial)
:
_native_lock(UNLOCKED)
{
if (initial == LOCKED)
lock();
}
void Cancelable_lock::lock()
{
while (!cmpxchg(&_native_lock, UNLOCKED, LOCKED))
Codezero::l4_thread_switch(-1);
}
void Cancelable_lock::unlock()
{
_native_lock = UNLOCKED;
}
/*
* Printf implementation to make Codezero's syscall bindings happy.
*
* We need a better place for this function - actually, the best would be not
* to need this function at all. As of now, 'printf' is referenced by
* Codezero's libl4, in particular by the mutex implementation.
*/
extern "C" void printf(const char *format, ...) __attribute__((weak));
extern "C" void printf(const char *format, ...)
{
va_list list;
va_start(list, format);
vprintf(format, list);
va_end(list);
}

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/*
* \brief Helper functions for the Lock implementation
* \author Norman Feske
* \date 2010-04-20
*
* For documentation about the interface, please revisit the 'base-pistachio'
* implementation.
*/
/*
* Copyright (C) 2010-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/native_types.h>
#include <base/thread.h>
/* Codezero includes */
#include <codezero/syscalls.h>
/**
* Resolve 'Thread_base::myself' when not linking the thread library
*
* This weak symbol is primarily used by test cases. Most other Genode programs
* use the thread library. If the thread library is not used, 'myself' can only
* be called by the main thread, for which 'myself' is defined as zero.
*/
Genode::Thread_base * __attribute__((weak)) Genode::Thread_base::myself() { return 0; }
Genode::Native_utcb *Genode::Thread_base::utcb()
{
/*
* If 'utcb' is called on the object returned by 'myself',
* the 'this' pointer may be NULL (if the calling thread is
* the main thread). Therefore we handle this special case
* here.
*/
if (this == 0) return 0;
return &_context->utcb;
}
static Codezero::l4_mutex main_running_lock = { -1 };
static inline void thread_yield()
{
Codezero::l4_thread_switch(-1);
}
static inline bool thread_id_valid(Genode::Native_thread_id tid)
{
return tid.tid != Codezero::NILTHREAD;
}
static bool thread_check_stopped_and_restart(Genode::Native_thread_id tid)
{
if (!thread_id_valid(tid))
return false;
Codezero::l4_mutex_unlock(tid.running_lock);
return true;
}
static inline Genode::Native_thread_id thread_get_my_native_id()
{
using namespace Genode;
Codezero::l4_mutex *running_lock = 0;
/* obtain pointer to running lock of calling thread */
if (Thread_base::myself())
running_lock = Thread_base::myself()->utcb()->running_lock();
else {
running_lock = &main_running_lock;
if (running_lock->lock == -1) {
Codezero::l4_mutex_init(running_lock);
Codezero::l4_mutex_lock(running_lock); /* block on first mutex lock */
}
}
return Genode::Native_thread_id(Codezero::thread_myself(), running_lock);
}
static inline Genode::Native_thread_id thread_invalid_id()
{
return Genode::Native_thread_id(Codezero::NILTHREAD, 0);
}
static inline void thread_switch_to(Genode::Native_thread_id tid)
{
if (thread_id_valid(tid))
Codezero::l4_thread_switch(tid.tid);
}
static inline void thread_stop_myself()
{
Genode::Native_thread_id myself = thread_get_my_native_id();
Codezero::l4_mutex_lock(myself.running_lock);
}

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/*
* \brief Dummy pager framework
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/pager.h>
using namespace Genode;
/**********************
** Pager activation **
**********************/
void Pager_activation_base::entry()
{
Ipc_pager pager;
_cap = pager;
_cap_valid.unlock();
pager.wait_for_fault();
while (1) {
/* lookup referenced object */
Pager_object *obj = _ep ? _ep->obj_by_id(pager.badge()) : 0;
/* handle request */
if (obj) {
if (obj->pager(pager))
/* something strange occured - leave thread in pagefault */
pager.wait_for_fault();
else
pager.reply_and_wait_for_fault();
} else {
/*
* We got a request from one of cores region-manager sessions
* to answer the pending page fault of a resolved region-manager
* client. Hence, we have to send the page-fault reply to the
* specified thread and answer the call of the region-manager
* session.
*
* When called from a region-manager session, we receive the
* core-local address of the targeted pager object via the
* first message word, which corresponds to the 'fault_ip'
* argument of normal page-fault messages.
*/
obj = reinterpret_cast<Pager_object *>(pager.fault_ip());
/* send reply to the calling region-manager session */
pager.acknowledge_wakeup();
/* answer page fault of resolved pager object */
pager.set_reply_dst(obj->cap());
pager.acknowledge_wakeup();
pager.wait_for_fault();
}
}
}
/**********************
** Pager entrypoint **
**********************/
Pager_entrypoint::Pager_entrypoint(Cap_session *, Pager_activation_base *a)
: _activation(a)
{ _activation->ep(this); }
void Pager_entrypoint::dissolve(Pager_object *obj)
{
remove(obj);
}
Pager_capability Pager_entrypoint::manage(Pager_object *obj)
{
/* return invalid capability if no activation is present */
if (!_activation) return Pager_capability();
_activation->cap();
Untyped_capability cap = Native_capability(_activation->cap().tid(), obj->badge());
/* add server object to object pool */
obj->cap(cap);
insert(obj);
/* return capability that uses the object id as badge */
return reinterpret_cap_cast<Pager_object>(cap);
}

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/*
* \brief NOVA-specific implementation of the Thread API
* \author Norman Feske
* \date 2010-01-19
*/
/*
* Copyright (C) 2010-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/thread.h>
#include <base/printf.h>
#include <base/sleep.h>
#include <base/env.h>
/* Codezero includes */
#include <codezero/syscalls.h>
using namespace Genode;
/**
* Entry point entered by new threads
*/
void Thread_base::_thread_start()
{
Thread_base::myself()->_thread_bootstrap();
Thread_base::myself()->entry();
Genode::sleep_forever();
}
/*****************
** Thread base **
*****************/
void Thread_base::_init_platform_thread()
{
Codezero::l4_mutex_init(utcb()->running_lock());
Codezero::l4_mutex_lock(utcb()->running_lock()); /* block on first mutex lock */
}
void Thread_base::_deinit_platform_thread()
{
env()->cpu_session()->kill_thread(_thread_cap);
}
void Thread_base::start()
{
/* create thread at core */
char buf[48];
name(buf, sizeof(buf));
_thread_cap = env()->cpu_session()->create_thread(buf);
/* assign thread to protection domain */
env()->pd_session()->bind_thread(_thread_cap);
/* create new pager object and assign it to the new thread */
Pager_capability pager_cap = env()->rm_session()->add_client(_thread_cap);
env()->cpu_session()->set_pager(_thread_cap, pager_cap);
/* register initial IP and SP at core */
addr_t thread_sp = (addr_t)&_context->stack[-4];
thread_sp &= ~0xf; /* align initial stack to 16 byte boundary */
env()->cpu_session()->start(_thread_cap, (addr_t)_thread_start, thread_sp);
}
void Thread_base::cancel_blocking()
{
Codezero::l4_mutex_unlock(utcb()->running_lock());
env()->cpu_session()->cancel_blocking(_thread_cap);
}

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/*
* \brief Core-local RM session
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/printf.h>
/* core includes */
#include <core_rm_session.h>
#include <platform.h>
#include <map_local.h>
using namespace Genode;
Rm_session::Local_addr
Core_rm_session::attach(Dataspace_capability ds_cap, size_t size,
off_t offset, bool use_local_addr,
Rm_session::Local_addr local_addr)
{
using namespace Codezero;
Dataspace_component *ds = static_cast<Dataspace_component *>(_ds_ep->obj_by_cap(ds_cap));
if (!ds)
throw Invalid_dataspace();
if (size == 0)
size = ds->size();
size_t page_rounded_size = (size + get_page_size() - 1) & get_page_mask();
size_t num_pages = page_rounded_size >> get_page_size_log2();
if (use_local_addr) {
PERR("Parameter 'use_local_addr' not supported within core");
return 0;
}
if (offset) {
PERR("Parameter 'offset' not supported within core");
return 0;
}
/* allocate range in core's virtual address space */
void *virt_addr;
if (!platform()->region_alloc()->alloc(page_rounded_size, &virt_addr)) {
PERR("Could not allocate virtual address range in core of size %zd\n",
page_rounded_size);
return false;
}
if (!map_local(ds->phys_addr(), (addr_t)virt_addr, num_pages)) {
PERR("core-local memory mapping failed virt=%lx, phys=%lx\n",
(addr_t)virt_addr, ds->phys_addr());
return 0;
}
return virt_addr;
}

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/*
* \brief Core-local region manager session
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__CORE_RM_SESSION_H_
#define _CORE__INCLUDE__CORE_RM_SESSION_H_
/* Genode includes */
#include <rm_session/rm_session.h>
/* core includes */
#include <dataspace_component.h>
namespace Genode {
class Core_rm_session : public Rm_session
{
private:
Rpc_entrypoint *_ds_ep;
public:
Core_rm_session(Rpc_entrypoint *ds_ep) : _ds_ep(ds_ep) { }
Local_addr attach(Dataspace_capability ds_cap, size_t size = 0,
off_t offset = 0, bool use_local_addr = false,
Local_addr local_addr = 0);
void detach(Local_addr) { }
Pager_capability add_client(Thread_capability) {
return Pager_capability(); }
void fault_handler(Signal_context_capability) { }
State state() { return State(); }
Dataspace_capability dataspace() { return Dataspace_capability(); }
};
}
#endif /* _CORE__INCLUDE__CORE_RM_SESSION_H_ */

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/*
* \brief IRQ session interface for NOVA
* \author Norman Feske
* \date 2010-01-30
*/
/*
* Copyright (C) 2010-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__IRQ_SESSION_COMPONENT_H_
#define _CORE__INCLUDE__IRQ_SESSION_COMPONENT_H_
#include <base/lock.h>
#include <util/list.h>
#include <irq_session/capability.h>
namespace Genode {
class Irq_session_component : public Rpc_object<Irq_session>,
public List<Irq_session_component>::Element
{
private:
enum { STACK_SIZE = 4096 };
unsigned _irq_number;
Range_allocator *_irq_alloc;
Rpc_entrypoint _entrypoint;
Irq_session_capability _cap;
bool _attached;
public:
/**
* Constructor
*
* \param cap_session capability session to use
* \param irq_alloc platform-dependent IRQ allocator
* \param args session construction arguments
*/
Irq_session_component(Cap_session *cap_session,
Range_allocator *irq_alloc,
const char *args);
/**
* Destructor
*/
~Irq_session_component();
/**
* Return capability to this session
*
* If an initialization error occurs, returned capability is invalid.
*/
Irq_session_capability cap() const { return _cap; }
/***************************
** Irq session interface **
***************************/
void wait_for_irq();
};
}
#endif /* _CORE__INCLUDE__IRQ_SESSION_COMPONENT_H_ */

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/*
* \brief Core-local mapping
* \author Norman Feske
* \date 2010-02-15
*/
/*
* Copyright (C) 2010-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__MAP_LOCAL_H_
#define _CORE__INCLUDE__MAP_LOCAL_H_
/* Genode includes */
#include <base/printf.h>
/* core includes */
#include <util.h>
namespace Genode {
/**
* Map physical pages to core-local virtual address range
*
* On Codezero, mappings originate from the physical address space.
*
* \param from_phys physical source address
* \param to_virt core-local destination address
* \param num_pages number of pages to map
*
* \return true on success
*/
inline bool map_local(addr_t from_phys, addr_t to_virt, size_t num_pages)
{
using namespace Codezero;
int res = l4_map((void *)from_phys, (void *)to_virt,
num_pages, MAP_USR_RW, thread_myself());
if (res < 0) {
PERR("l4_map phys 0x%lx -> 0x%lx returned %d", from_phys, to_virt, res);
return false;
}
return true;
}
inline bool unmap_local(addr_t virt_addr, size_t num_pages)
{
using namespace Codezero;
int res = l4_unmap((void *)virt_addr, num_pages, thread_myself());
if (res < 0) {
PERR("l4_unmap returned %d", res);
return false;
}
return true;
}
}
#endif /* _CORE__INCLUDE__MAP_LOCAL_H_ */

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/*
* \brief Platform interface
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__PLATFORM_H_
#define _CORE__INCLUDE__PLATFORM_H_
/* Genode includes */
#include <base/printf.h>
/* local includes */
#include <platform_generic.h>
#include <core_mem_alloc.h>
namespace Genode {
class Platform : public Platform_generic
{
private:
typedef Core_mem_allocator::Phys_allocator Phys_allocator;
Core_mem_allocator _core_mem_alloc; /* core-accessible memory */
Phys_allocator _io_mem_alloc; /* MMIO allocator */
Phys_allocator _io_port_alloc; /* I/O port allocator */
Phys_allocator _irq_alloc; /* IRQ allocator */
Rom_fs _rom_fs; /* ROM file system */
/**
* Virtual address range usable by non-core processes
*/
addr_t _vm_base;
size_t _vm_size;
int _init_rom_fs();
public:
/**
* Constructor
*/
Platform();
/********************************
** Generic platform interface **
********************************/
Range_allocator *ram_alloc() { return _core_mem_alloc.phys_alloc(); }
Range_allocator *io_mem_alloc() { return &_io_mem_alloc; }
Range_allocator *io_port_alloc() { return &_io_port_alloc; }
Range_allocator *irq_alloc() { return &_irq_alloc; }
Range_allocator *region_alloc() { return _core_mem_alloc.virt_alloc(); }
Allocator *core_mem_alloc() { return &_core_mem_alloc; }
addr_t vm_start() const { return _vm_base; }
size_t vm_size() const { return _vm_size; }
Rom_fs *rom_fs() { return &_rom_fs; }
void wait_for_exit();
};
}
#endif /* _CORE__INCLUDE__PLATFORM_H_ */

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/*
* \brief Protection-domain facility
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__PLATFORM_PD_H_
#define _CORE__INCLUDE__PLATFORM_PD_H_
/* core includes */
#include <platform_thread.h>
/* Codezero includes */
#include <codezero/syscalls.h>
namespace Genode {
class Platform_thread;
class Platform_pd
{
private:
enum { MAX_THREADS_PER_PD = 32 };
enum { UTCB_VIRT_BASE = 0x30000000 };
enum { UTCB_AREA_SIZE = MAX_THREADS_PER_PD*sizeof(struct Codezero::utcb) };
int _space_id;
bool utcb_in_use[MAX_THREADS_PER_PD];
public:
/**
* Constructors
*/
Platform_pd(bool core);
Platform_pd(signed pd_id = -1, bool create = true);
/**
* Destructor
*/
~Platform_pd();
/**
* Bind thread to protection domain
*
* \return 0 on success or
* -1 if thread ID allocation failed.
*/
int bind_thread(Platform_thread *thread);
/**
* Unbind thread from protection domain
*
* Free the thread's slot and update thread object.
*/
void unbind_thread(Platform_thread *thread);
/**
* Assign parent interface to protection domain
*/
int assign_parent(Native_capability parent) { return 0; }
};
}
#endif /* _CORE__INCLUDE__PLATFORM_PD_H_ */

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/*
* \brief Thread facility
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__PLATFORM_THREAD_H_
#define _CORE__INCLUDE__PLATFORM_THREAD_H_
/* Genode includes */
#include <base/pager.h>
#include <base/thread_state.h>
#include <base/native_types.h>
namespace Genode {
class Platform_pd;
class Platform_thread
{
private:
friend class Platform_pd;
enum { PD_NAME_MAX_LEN = 64 };
int _tid; /* global codezero thread ID */
int _space_id;
addr_t _utcb;
char _name[PD_NAME_MAX_LEN];
Pager_object *_pager;
/**
* Assign physical thread ID and UTCB address to thread
*
* This function is called from 'Platform_pd::bind_thread'.
*/
void _assign_physical_thread(int tid, int space_id, addr_t utcb) {
_tid = tid; _space_id = space_id; _utcb = utcb; }
public:
enum { THREAD_INVALID = -1 }; /* invalid thread number */
/**
* Constructor
*/
Platform_thread(const char *name = 0, unsigned priority = 0,
int thread_id = THREAD_INVALID);
/**
* Destructor
*/
~Platform_thread();
/**
* Start thread
*
* \param ip instruction pointer to start at
* \param sp stack pointer to use
* \param cpu_no target cpu
*
* \retval 0 successful
* \retval -1 thread could not be started
*/
int start(void *ip, void *sp, unsigned int cpu_no = 0);
/**
* Pause this thread
*/
void pause();
/**
* Resume this thread
*/
void resume();
/**
* Cancel currently blocking operation
*/
void cancel_blocking();
/**
* Request thread state
*
* \param state_dst destination state buffer
*
* \retval 0 successful
* \retval -1 thread state not accessible
*/
int state(Genode::Thread_state *state_dst);
/************************
** Accessor functions **
************************/
/**
* Set pager capability
*/
Pager_object *pager(Pager_object *pager) const { return _pager; }
void pager(Pager_object *pager) { _pager = pager; }
Pager_object *pager() { return _pager; }
/**
* Return identification of thread when faulting
*/
unsigned long pager_object_badge() const { return _tid; }
/**
* Set the executing CPU for this thread.
*/
void set_cpu(unsigned int cpu_no);
/**
* Get thread name
*/
const char *name() const { return "noname"; }
/***********************
** Codezero specific **
***********************/
addr_t utcb() const { return _utcb; }
};
}
#endif /* _CORE__INCLUDE__PLATFORM_THREAD_H_ */

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/*
* \brief Core-internal utilities
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _CORE__INCLUDE__UTIL_H_
#define _CORE__INCLUDE__UTIL_H_
/* Genode includes */
#include <rm_session/rm_session.h>
#include <base/printf.h>
/* Codezero includes */
#include <codezero/syscalls.h>
namespace Genode {
inline size_t get_page_size_log2() { return 12; }
inline size_t get_page_size() { return 1 << get_page_size_log2(); }
inline addr_t get_page_mask() { return ~(get_page_size() - 1); }
inline addr_t trunc_page(addr_t addr) { return addr & get_page_mask(); }
inline addr_t round_page(addr_t addr) { return trunc_page(addr + get_page_size() - 1); }
inline addr_t map_src_addr(addr_t core_local, addr_t phys) { return phys; }
inline size_t constrain_map_size_log2(size_t size_log2) { return get_page_size_log2(); }
inline void print_page_fault(const char *msg, addr_t pf_addr, addr_t pf_ip,
Rm_session::Fault_type pf_type,
unsigned long faulter_badge)
{
printf("%s (%s pf_addr=%p pf_ip=%p from %02lx)\n", msg,
pf_type == Rm_session::WRITE_FAULT ? "WRITE" : "READ",
(void *)pf_addr, (void *)pf_ip,
faulter_badge);
}
}
#endif /* _CORE__INCLUDE__UTIL_H_ */

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/*
* \brief Implementation of the IO_MEM session interface
* \author Norman Feske
* \date 2009-03-29
*
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* core includes */
#include <io_mem_session_component.h>
using namespace Genode;
void Io_mem_session_component::_unmap_local(addr_t base, size_t size)
{ }
addr_t Io_mem_session_component::_map_local(addr_t base, size_t size)
{ return 0; }

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/*
* \brief Implementation of the IO_PORT session interface
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#include "io_port_session_component.h"
using namespace Genode;
/**************
** Port API **
**************/
unsigned char Io_port_session_component::inb(unsigned short address) {
return 0; }
unsigned short Io_port_session_component::inw(unsigned short address) {
return 0; }
unsigned Io_port_session_component::inl(unsigned short address) {
return 0; }
void Io_port_session_component::outb(unsigned short address, unsigned char value)
{ }
void Io_port_session_component::outw(unsigned short address, unsigned short value)
{ }
void Io_port_session_component::outl(unsigned short address, unsigned value)
{ }
/******************************
** Constructor / destructor **
******************************/
Io_port_session_component::Io_port_session_component(Range_allocator *io_port_alloc,
const char *args)
: _io_port_alloc(io_port_alloc)
{ }
Io_port_session_component::~Io_port_session_component()
{ }

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/*
* \brief Implementation of IRQ session component
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/printf.h>
#include <base/sleep.h>
/* core includes */
#include <irq_root.h>
/* Codezero includes */
#include <codezero/syscalls.h>
using namespace Genode;
void Irq_session_component::wait_for_irq()
{
using namespace Codezero;
/* attach thread to IRQ when first called */
if (!_attached) {
int ret = l4_irq_control(IRQ_CONTROL_REGISTER, 0, _irq_number);
if (ret < 0) {
PERR("l4_irq_control(IRQ_CONTROL_REGISTER) returned %d", ret);
sleep_forever();
}
_attached = true;
}
/* block for IRQ */
int ret = l4_irq_control(IRQ_CONTROL_WAIT, 0, _irq_number);
if (ret < 0)
PWRN("l4_irq_control(IRQ_CONTROL_WAIT) returned %d", ret);
}
Irq_session_component::Irq_session_component(Cap_session *cap_session,
Range_allocator *irq_alloc,
const char *args)
:
_irq_alloc(irq_alloc),
_entrypoint(cap_session, STACK_SIZE, "irq"),
_attached(false)
{
long irq_number = Arg_string::find_arg(args, "irq_number").long_value(-1);
if (!irq_alloc || (irq_number == -1)||
irq_alloc->alloc_addr(1, irq_number) != Range_allocator::ALLOC_OK) {
PERR("unavailable IRQ %lx requested", irq_number);
return;
}
_irq_number = irq_number;
_cap = Irq_session_capability(_entrypoint.manage(this));
}
Irq_session_component::~Irq_session_component()
{
PERR("not yet implemented");
}

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/*
* \brief Platform interface implementation
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/printf.h>
#include <base/sleep.h>
#include <base/thread.h>
/* core includes */
#include <core_parent.h>
#include <platform.h>
#include <map_local.h>
/* Codezero includes */
#include <codezero/syscalls.h>
using namespace Genode;
enum { verbose_boot_info = true };
/*
* Memory-layout information provided by the linker script
*/
/* virtual address range consumed by core's program image */
extern unsigned _prog_img_beg, _prog_img_end;
/* physical address range occupied by core */
extern addr_t _vma_start, _lma_start;
/**************************
** Boot-module handling **
**************************/
/**
* Scan ROM module image for boot modules
*
* By convention, the boot modules start at the page after core's BSS segment.
*/
int Platform::_init_rom_fs()
{
/**
* Format of module meta-data as found in the ROM module image
*/
struct Module
{
long name; /* physical address of null-terminated string */
long base; /* physical address of module data */
long size; /* size of module data in bytes */
};
/* find base address of ROM module image */
addr_t phys_base = round_page((addr_t)&_prog_img_end);
/* map the first page of the image containing the module meta data */
class Out_of_virtual_memory_during_rom_fs_init { };
void *virt_base = 0;
if (!_core_mem_alloc.virt_alloc()->alloc(get_page_size(), &virt_base))
throw Out_of_virtual_memory_during_rom_fs_init();
if (!map_local(phys_base, (addr_t)virt_base, 1)) {
PERR("map_local failed");
return -1;
}
/* remove page containing module infos from physical memory allocator */
_core_mem_alloc.phys_alloc()->remove_range(phys_base, get_page_size());
/* validate the presence of a ROM image by checking the magic cookie */
const char cookie[4] = {'G', 'R', 'O', 'M'};
for (size_t i = 0; i < sizeof(cookie); i++)
if (cookie[i] != ((char *)virt_base)[i]) {
PERR("could not detect ROM modules");
return -2;
}
printf("detected ROM module image at 0x%p\n", (void *)phys_base);
/* detect overly large meta data, we only support 4K */
addr_t end_of_header = ((long *)virt_base)[1];
size_t header_size = end_of_header - (long)phys_base;
if (header_size > get_page_size()) {
PERR("ROM fs module header exceeds %d bytes", get_page_size());
return -3;
}
/* start of module list */
Module *module = (Module *)((addr_t)virt_base + 2*sizeof(long));
/*
* Interate over module list and populate core's ROM file system with
* 'Rom_module' objects.
*/
for (; module->name; module++) {
/* convert physical address of module name to core-local address */
char *name = (char *)(module->name - phys_base + (addr_t)virt_base);
printf("ROM module \"%s\" at physical address 0x%p, size=%zd\n",
name, (void *)module->base, (size_t)module->size);
Rom_module *rom_module = new (core_mem_alloc())
Rom_module(module->base, module->size, name);
_rom_fs.insert(rom_module);
/* remove module from physical memory allocator */
_core_mem_alloc.phys_alloc()->remove_range(module->base, round_page(module->size));
}
return 0;
}
/****************************************
** Support for core memory management **
****************************************/
bool Core_mem_allocator::Mapped_mem_allocator::_map_local(addr_t virt_addr, addr_t phys_addr, unsigned size_log2)
{
return map_local(phys_addr, virt_addr, 1 << (size_log2 - get_page_size_log2()));
}
/************************
** Platform interface **
************************/
Platform::Platform() :
_io_mem_alloc(core_mem_alloc()), _io_port_alloc(core_mem_alloc()),
_irq_alloc(core_mem_alloc()), _vm_base(0), _vm_size(0)
{
using namespace Codezero;
/* init core UTCB */
static char main_utcb[PAGE_SIZE] __attribute__((aligned(PAGE_SIZE)));
static struct exregs_data exregs;
exregs_set_utcb(&exregs, (unsigned long)&main_utcb[0]);
l4_exchange_registers(&exregs, thread_myself());
/* error handling is futile at this point */
/* read number of capabilities */
int num_caps;
int ret;
if ((ret = l4_capability_control(CAP_CONTROL_NCAPS,
0, &num_caps)) < 0) {
PERR("l4_capability_control(CAP_CONTROL_NCAPS) returned %d", ret);
class Could_not_obtain_num_of_capabilities { };
throw Could_not_obtain_num_of_capabilities();
}
struct capability cap_array[num_caps];
if (verbose_boot_info)
printf("allocated cap array[%d] of size %d on stack\n",
num_caps, sizeof(cap_array));
/* read all capabilities */
if ((ret = l4_capability_control(CAP_CONTROL_READ,
0, cap_array)) < 0) {
PERR("l4_capability_control(CAP_CONTROL_READ) returned %d", ret);
class Read_caps_failed { };
throw Read_caps_failed();
}
/* initialize core allocators */
bool phys_mem_defined = false;
addr_t dev_mem_base = 0;
for (int i = 0; i < num_caps; i++) {
struct capability *cap = &cap_array[i];
addr_t base = cap->start << get_page_size_log2(),
size = cap->size << get_page_size_log2();
if (verbose_boot_info)
printf("cap type=%x, rtype=%x, base=%lx, size=%lx\n",
cap_type(cap), cap_rtype(cap), base, size);
switch (cap_type(cap)) {
case CAP_TYPE_MAP_VIRTMEM:
/*
* Use first non-UTCB virtual address range as default
* virtual memory range usable for all processes.
*/
if (_vm_size == 0) {
/* exclude page at virtual address 0 */
if (base == 0 && size >= get_page_size()) {
base += get_page_size();
size -= get_page_size();
}
_vm_base = base;
_vm_size = size;
/* add range as free range to core's virtual address allocator */
_core_mem_alloc.virt_alloc()->add_range(base, size);
break;
}
PWRN("ignoring additional virtual address range [%lx,%lx)",
base, base + size);
break;
case CAP_TYPE_MAP_PHYSMEM:
/*
* We interpret the first physical memory resource that is bigger
* than typical device resources as RAM.
*/
enum { RAM_SIZE_MIN = 16*1024*1024 };
if (!phys_mem_defined && size > RAM_SIZE_MIN) {
_core_mem_alloc.phys_alloc()->add_range(base, size);
phys_mem_defined = true;
dev_mem_base = base + size;
}
break;
case CAP_TYPE_IPC:
case CAP_TYPE_UMUTEX:
case CAP_TYPE_IRQCTRL:
case CAP_TYPE_QUANTITY:
break;
}
}
addr_t core_virt_beg = trunc_page((addr_t)&_prog_img_beg),
core_virt_end = round_page((addr_t)&_prog_img_end);
size_t core_size = core_virt_end - core_virt_beg;
printf("core image:\n");
printf(" virtual address range [%08lx,%08lx) size=0x%zx\n",
core_virt_beg, core_virt_end, core_size);
printf(" physically located at 0x%08lx\n", _lma_start);
/* remove core image from core's virtual address allocator */
_core_mem_alloc.virt_alloc()->remove_range(core_virt_beg, core_size);
/* preserve context area in core's virtual address space */
_core_mem_alloc.virt_alloc()->raw()->remove_range(Thread_base::CONTEXT_AREA_VIRTUAL_BASE,
Thread_base::CONTEXT_AREA_VIRTUAL_SIZE);
/* remove used core memory from physical memory allocator */
_core_mem_alloc.phys_alloc()->remove_range(_lma_start, core_size);
/* remove magically mapped UART from core virtual memory */
_core_mem_alloc.virt_alloc()->remove_range(USERSPACE_CONSOLE_VBASE, get_page_size());
/* add boot modules to ROM fs */
if (_init_rom_fs() < 0) {
PERR("initialization of romfs failed - halt.");
while(1);
}
/* initialize interrupt allocator */
_irq_alloc.add_range(0, 255);
/* regard physical addresses higher than memory area as MMIO */
_io_mem_alloc.add_range(dev_mem_base, 0x80000000 - dev_mem_base);
/*
* Print statistics about allocator initialization
*/
printf("VM area at [%08lx,%08lx)\n", _vm_base, _vm_base + _vm_size);
if (verbose_boot_info) {
printf(":phys_alloc: "); _core_mem_alloc.phys_alloc()->raw()->dump_addr_tree();
printf(":virt_alloc: "); _core_mem_alloc.virt_alloc()->raw()->dump_addr_tree();
printf(":io_mem_alloc: "); _io_mem_alloc.raw()->dump_addr_tree();
}
}
void Platform::wait_for_exit()
{
sleep_forever();
}
void Core_parent::exit(int exit_value) { }

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/*
* \brief Protection-domain facility
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/printf.h>
/* core includes */
#include <platform_pd.h>
#include <platform.h>
#include <util.h>
using namespace Genode;
using namespace Codezero;
/***************************
** Public object members **
***************************/
int Platform_pd::bind_thread(Platform_thread *thread)
{
/* allocate new thread at the kernel */
struct task_ids ids = { 1, _space_id, TASK_ID_INVALID };
int ret = l4_thread_control(THREAD_CREATE | TC_SHARE_SPACE, &ids);
if (ret < 0) {
PERR("l4_thread_control returned %d, tid=%d\n", ret, ids.tid);
return -1;
}
/* allocate UTCB for new thread */
int utcb_idx;
for (utcb_idx = 0; utcb_idx < MAX_THREADS_PER_PD; utcb_idx++)
if (!utcb_in_use[utcb_idx]) break;
if (utcb_idx == MAX_THREADS_PER_PD) {
PERR("UTCB allocation failed");
return -2;
}
/* mark UTCB as being in use */
utcb_in_use[utcb_idx] = true;
/* map UTCB area for the first thread of a new PD */
if (utcb_idx == 0) {
void *utcb_phys = 0;
if (!platform()->ram_alloc()->alloc(UTCB_AREA_SIZE, &utcb_phys)) {
PERR("could not allocate physical pages for UTCB");
return -3;
}
ret = l4_map(utcb_phys, (void *)UTCB_VIRT_BASE,
UTCB_AREA_SIZE/get_page_size(), MAP_USR_RW, ids.tid);
if (ret < 0) {
PERR("UTCB mapping into new PD failed, ret=%d", ret);
return -4;
}
}
addr_t utcb_addr = UTCB_VIRT_BASE + utcb_idx*sizeof(struct utcb);
thread->_assign_physical_thread(ids.tid, _space_id, utcb_addr);
return 0;
}
void Platform_pd::unbind_thread(Platform_thread *thread)
{
/* find UTCB index of thread */
unsigned utcb_idx;
for (utcb_idx = 0; utcb_idx < MAX_THREADS_PER_PD; utcb_idx++)
if (thread->utcb() == UTCB_VIRT_BASE + utcb_idx*sizeof(struct utcb))
break;
if (utcb_idx == MAX_THREADS_PER_PD) {
PWRN("could not find UTCB index of thread");
return;
}
utcb_in_use[utcb_idx] = false;
PWRN("not fully implemented");
}
Platform_pd::Platform_pd(bool core)
{
PWRN("not yet implemented");
}
Platform_pd::Platform_pd(signed pd_id, bool create) : _space_id(-1)
{
_space_id = -1;
/* mark all UTCBs of the new PD as free */
for (int i = 0; i < MAX_THREADS_PER_PD; i++)
utcb_in_use[i] = false;
struct task_ids ids = { -1, -1, -1 };
int ret = l4_thread_control(THREAD_CREATE | TC_NEW_SPACE, &ids);
if (ret < 0) {
PERR("l4_thread_control(THREAD_CREATE | TC_NEW_SPACE) returned %d", ret);
return;
}
/* set space ID to valid value to indicate success */
_space_id = ids.spid;
}
Platform_pd::~Platform_pd()
{
PWRN("not yet implemented");
}

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/*
* \brief Thread facility
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/printf.h>
#include <util/string.h>
/* core includes */
#include <platform_thread.h>
/* Codezero includes */
#include <codezero/syscalls.h>
enum { verbose_thread_start = true };
using namespace Genode;
using namespace Codezero;
void Platform_thread::set_cpu(unsigned int cpu_no)
{
PDBG("not yet implemented");
}
int Platform_thread::start(void *ip, void *sp, unsigned int cpu_no)
{
Native_thread_id pager = _pager ? _pager->cap().tid() : -1;
/* setup thread context */
struct exregs_data exregs;
exregs.flags = 0;
exregs_set_stack(&exregs, (unsigned long)sp);
exregs_set_pc (&exregs, (unsigned long)ip);
exregs_set_pager(&exregs, pager.tid);
exregs_set_utcb (&exregs, _utcb);
int ret = l4_exchange_registers(&exregs, _tid);
if (ret < 0) {
printf("l4_exchange_registers returned ret=%d\n", ret);
return -2;
}
/* start execution */
struct task_ids ids = { _tid, _space_id, _tid };
ret = l4_thread_control(THREAD_RUN, &ids);
if (ret < 0) {
printf("Error: l4_thread_control(THREAD_RUN) returned %d\n", ret);
return -3;
}
if (verbose_thread_start)
printf("core started thread \"%s\" with ID %d inside space ID %d\n",
_name, _tid, _space_id);
return 0;
}
void Platform_thread::pause()
{
PDBG("not implemented");
}
void Platform_thread::resume()
{
PDBG("not implemented");
}
int Platform_thread::state(Thread_state *state_dst)
{
PDBG("not implemented");
return -1;
}
void Platform_thread::cancel_blocking()
{
PDBG("not implemented");
}
Platform_thread::Platform_thread(const char *name, unsigned, int thread_id)
: _tid(-1)
{
strncpy(_name, name, sizeof(_name));
}
Platform_thread::~Platform_thread()
{
PDBG("not implemented");
}

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/*
* \brief Export RAM dataspace as shared memory object (dummy)
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Genode includes */
#include <base/printf.h>
#include <util/misc_math.h>
/* core includes */
#include <ram_session_component.h>
#include <platform.h>
#include <map_local.h>
using namespace Genode;
void Ram_session_component::_export_ram_ds(Dataspace_component *ds) { }
void Ram_session_component::_revoke_ram_ds(Dataspace_component *ds) { }
void Ram_session_component::_clear_ds (Dataspace_component *ds)
{
using namespace Codezero;
/*
* Map dataspace core-locally, memset, unmap dataspace
*/
size_t page_rounded_size = (ds->size() + get_page_size() - 1) & get_page_mask();
size_t num_pages = page_rounded_size >> get_page_size_log2();
/* allocate range in core's virtual address space */
void *virt_addr;
if (!platform()->region_alloc()->alloc(page_rounded_size, &virt_addr)) {
PERR("Could not allocate virtual address range in core of size %zd\n",
page_rounded_size);
return;
}
/* map the dataspace's physical pages to corresponding virtual addresses */
if (!map_local(ds->phys_addr(), (addr_t)virt_addr, num_pages)) {
PERR("core-local memory mapping failed\n");
return;
}
memset(virt_addr, 0, ds->size());
/* unmap dataspace from core */
if (!unmap_local((addr_t)virt_addr, num_pages)) {
PERR("could not unmap %zd pages from virtual address range at %p",
num_pages, virt_addr);
return;
}
/* free core's virtual address space */
platform()->region_alloc()->free(virt_addr, page_rounded_size);
}

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/*
* \brief RM-session implementation
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* core includes */
#include <rm_session_component.h>
#include <util.h>
/* Codezero includes */
#include <codezero/syscalls.h>
using namespace Genode;
using namespace Codezero;
void Rm_client::unmap(addr_t core_local_base, addr_t virt_base, size_t size)
{
l4_unmap((void *)virt_base, size >> get_page_size_log2(), badge());
}

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TARGET = core
LIBS = cxx ipc heap core_printf process pager lock \
raw_signal raw_server
GEN_CORE_DIR = $(BASE_DIR)/src/core
SRC_CC = \
main.cc \
ram_session_component.cc \
ram_session_support.cc \
rom_session_component.cc \
cpu_session_component.cc \
pd_session_component.cc \
io_mem_session_component.cc \
io_mem_session_support.cc \
thread.cc \
thread_start.cc \
thread_bootstrap.cc \
platform_thread.cc \
platform_pd.cc \
platform.cc \
dataspace_component.cc \
rm_session_component.cc \
rm_session_support.cc \
io_port_session_component.cc \
irq_session_component.cc \
signal_session_component.cc \
signal_source_component.cc \
core_rm_session.cc \
core_mem_alloc.cc \
dump_alloc.cc \
context_area.cc
INC_DIR = $(REP_DIR)/src/core/include \
$(GEN_CORE_DIR)/include \
$(REP_DIR)/include/codezero/dummies
vpath main.cc $(GEN_CORE_DIR)
vpath ram_session_component.cc $(GEN_CORE_DIR)
vpath rom_session_component.cc $(GEN_CORE_DIR)
vpath cpu_session_component.cc $(GEN_CORE_DIR)
vpath pd_session_component.cc $(GEN_CORE_DIR)
vpath rm_session_component.cc $(GEN_CORE_DIR)
vpath io_mem_session_component.cc $(GEN_CORE_DIR)
vpath io_mem_session_support.cc $(GEN_CORE_DIR)
vpath signal_session_component.cc $(GEN_CORE_DIR)
vpath signal_source_component.cc $(GEN_CORE_DIR)
vpath dataspace_component.cc $(GEN_CORE_DIR)
vpath core_mem_alloc.cc $(GEN_CORE_DIR)
vpath dump_alloc.cc $(GEN_CORE_DIR)
vpath context_area.cc $(GEN_CORE_DIR)
vpath %.cc $(REP_DIR)/src/core
vpath thread_bootstrap.cc $(BASE_DIR)/src/base/thread
vpath thread.cc $(BASE_DIR)/src/base/thread

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include $(PRG_DIR)/target.inc
LD_TEXT_ADDR = 0x100000

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/*
* \brief Implementation of Thread API interface for core
* \author Norman Feske
* \date 2006-05-03
*/
/*
* Copyright (C) 2006-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* Codezero includes */
#include <codezero/syscalls.h>
/* Genode includes */
#include <base/thread.h>
#include <base/printf.h>
#include <base/sleep.h>
/* core includes */
#include <platform.h>
#include <platform_thread.h>
enum { verbose_thread_start = true };
using namespace Genode;
void Thread_base::_init_platform_thread() { }
void Thread_base::_deinit_platform_thread() { }
/**
* Create and start new thread
*
* \param space_no space ID in which the new thread will be executed
* \param sp initial stack pointer
* \param ip initial instruction pointer
* \return new thread ID, or
* negative error code
*/
inline int create_thread(int space_no,
void *sp, void *ip,
int pager_tid = 1)
{
using namespace Codezero;
struct task_ids ids = { 1, space_no, TASK_ID_INVALID };
/* allocate new thread at the kernel */
unsigned long flags = THREAD_CREATE | TC_SHARE_SPACE | TC_SHARE_GROUP;
int ret = l4_thread_control(flags, &ids);
if (ret < 0) {
PERR("l4_thread_control returned %d, spid=%d\n",
ret, ids.spid);
return -1;
}
unsigned long utcb_base_addr = (unsigned long)l4_get_utcb();
/* calculate utcb address of new thread */
unsigned long new_utcb = utcb_base_addr + ids.tid*sizeof(struct utcb);
/* setup thread context */
struct exregs_data exregs;
exregs_set_stack(&exregs, (unsigned long)sp);
exregs_set_pc (&exregs, (unsigned long)ip);
exregs_set_pager(&exregs, pager_tid);
exregs_set_utcb (&exregs, new_utcb);
ret = l4_exchange_registers(&exregs, ids.tid);
if (ret < 0) {
printf("l4_exchange_registers returned ret=%d\n", ret);
return -2;
}
/* start execution */
ret = l4_thread_control(THREAD_RUN, &ids);
if (ret < 0) {
printf("Error: l4_thread_control(THREAD_RUN) returned %d\n", ret);
return -3;
}
/* return new thread ID allocated by the kernel */
return ids.tid;
}
void Thread_base::_thread_start()
{
Thread_base::myself()->_thread_bootstrap();
Thread_base::myself()->entry();
sleep_forever();
}
void Thread_base::start()
{
/* create and start platform thread */
_tid.pt = new(platform()->core_mem_alloc()) Platform_thread(_context->name);
_tid.l4id = create_thread(1, &_context->stack[-4], (void *)&_thread_start);
if (_tid.l4id.tid < 0)
PERR("create_thread returned %d", _tid.l4id.tid);
if (verbose_thread_start)
printf("core started local thread \"%s\" with ID %d\n",
_context->name, _tid.l4id.tid);
}
void Thread_base::cancel_blocking()
{
PWRN("not implemented");
}

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TARGET = codezero
-include $(BUILD_BASE_DIR)/etc/codezero.conf
ifeq ($(wildcard $(CODEZERO_DIR)),)
$(error No valid kernel configured in 'etc/codezero.conf')
endif
include $(REP_DIR)/lib/mk/codezero_cml.inc
TOOL_CHAIN_DIR = $(dir $(CROSS_DEV_PREFIX))
CODEZERO_DST_DIR = $(BUILD_BASE_DIR)/kernel/codezero
CODEZERO_BUILD_DIR = $(CODEZERO_DST_DIR)/build
.PHONY: $(TARGET)
MIRROR_COPY := conts/baremetal/empty conts/userlibs \
build.py include SConstruct src loader
MIRROR_SYMLINK := scripts tools
update_copy = $(VERBOSE)tar c -C $(CODEZERO_DIR) $(MIRROR_COPY) | tar x -C $(CODEZERO_DST_DIR)
ifneq ($(VERBOSE),)
CODEZERO_STDOUT := > /dev/null
endif
#
# Environment variables passed to the Codezero build system
#
BUILD_ENV = PATH=$(dir $(CROSS_DEV_PREFIX)):$$PATH
#
# Local copy of the CML file used for supplying the configuration
# to the Codezero build system.
#
LOCAL_CONFIG_CML := $(shell pwd)/config.cml
$(TARGET): $(CODEZERO_BUILD_DIR)
$(MSG_BUILD)kernel
$(update_copy)
$(VERBOSE)cd $(CODEZERO_DST_DIR); $(BUILD_ENV) ./build.py $(CODEZERO_STDOUT)
#
# Mirror the parts of the Codezero source tree that are relevant for building
# the kernel
#
$(CODEZERO_DST_DIR): $(CODEZERO_DIR)
$(VERBOSE)test -d $@ || mkdir -p $@
$(VERBOSE)for d in $(MIRROR_SYMLINK); do ln -sf $(realpath $^)/$$d $@/$$d; done
$(CODEZERO_BUILD_DIR): $(CODEZERO_DST_DIR) $(CODEZERO_CML)
$(update_copy)
$(VERBOSE)cp $(CODEZERO_CML) $(LOCAL_CONFIG_CML)
@#
@# Create copy of the CML config in the local build directory to update
@# the tool chain parameters according to the CROSS_DEV_PREFIX configured
@# for Genode.
@#
$(VERBOSE)sed -i "/TOOLCHAIN_USERSPACE/s/\".*\"/\"$(notdir $(CROSS_DEV_PREFIX))\"/" $(LOCAL_CONFIG_CML)
$(VERBOSE)sed -i "/TOOLCHAIN_KERNEL/s/\".*\"/\"$(notdir $(CROSS_DEV_PREFIX))\"/" $(LOCAL_CONFIG_CML)
$(VERBOSE)cd $(CODEZERO_DST_DIR); $(BUILD_ENV) ./build.py -C -b -f $(LOCAL_CONFIG_CML) $(CODEZERO_STDOUT)
clean cleanall: clean_codezero
#
# Make sure to execute the 'clean_codezero' rule prior the generic clean
# rule in 'prg.mk' because the generic rule will attempt to remove $(TARGET)
# file, which is a directory in our case.
#
clean_prg_objects: clean_codezero
clean_codezero:
$(VERBOSE)rm -f $(LOCAL_CONFIG_CML)
$(VERBOSE)rm -rf $(CODEZERO_DST_DIR)

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/*
* \brief Platform-specific helper functions for the _main() function
* \author Norman Feske
* \date 2009-10-02
*/
/*
* Copyright (C) 2009-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _PLATFORM___MAIN_HELPER_H_
#define _PLATFORM___MAIN_HELPER_H_
#include <base/printf.h>
/* make Codezero includes happy */
extern "C" char *strncpy(char *dest, const char *src, Genode::size_t n);
extern "C" void *memcpy(void *dest, const void *src, Genode::size_t n);
/* Codezero includes */
#include <codezero/syscalls.h>
/****************************
** Codezero libl4 support **
****************************/
/*
* Unfortunately, the function 'exregs_print_registers' in 'exregs.c' refers to
* 'memset'. Because we do not want to link core against a C library, we have to
* resolve this function here.
*/
extern "C" void *memset(void *s, int c, Genode::size_t n) __attribute__((weak));
extern "C" void *memset(void *s, int c, Genode::size_t n)
{
return Genode::memset(s, c, n);
}
/*
* Same problem as for 'memset'. The 'printf' symbol is referenced from
* 'mutex.c' and 'exregs.c' of Codezero's libl4.
*/
extern "C" int printf(const char *format, ...) __attribute__((weak));
extern "C" int printf(const char *format, ...)
{
va_list list;
va_start(list, format);
Genode::vprintf(format, list);
va_end(list);
return 0;
}
/**************************
** Startup-code helpers **
**************************/
static void main_thread_bootstrap()
{
Codezero::__l4_init();
}
#endif /* _PLATFORM___MAIN_HELPER_H_ */

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/*
* \brief Linker script for Genode programs
* \author Christian Helmuth
* \date 2006-04-12
*/
/*
* Copyright (C) 2006-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
/* values taken from Codezero's mm0 linker script */
/*physical_base = 0x00208000;*/
/*virtual_base = 0xe0000000;*/
/*offset = virtual_base - physical_base;*/
/*
* Addresses correspond to the linker script generated by
* the Codezero build system.
*/
vma_start = 0x100000;
lma_start = 0x40000;
offset = vma_start - lma_start;
ENTRY(_start)
PHDRS
{
ro PT_LOAD;
rw PT_LOAD;
}
SECTIONS
{
. = vma_start;
.text : AT (ADDR(.text) - offset) {
/* begin of program image (link address) */
_prog_img_beg = .;
*(.text.crt0)
*(.init)
*(.text .text.* .gnu.linkonce.t.*)
*(.fini)
*(.rodata .rodata.* .gnu.linkonce.r.*)
. = ALIGN(0x08);
_ctors_start = .;
KEEP (*(.ctors))
KEEP (*(SORT(.ctors.*)))
KEEP (*(.init_array)) /* list of constructors specific for ARM eabi */
_ctors_end = .;
_dtors_start = .;
KEEP (*(SORT(.dtors.*)))
KEEP (*(.dtors))
_dtors_end = .;
} : ro = 0x90909090
/* Linux: exception section for uaccess mechanism */
__ex_table : { *(__ex_table) }
.eh_frame_hdr : { *(.eh_frame_hdr) }
. = ALIGN(0x1000);
_prog_img_data = .;
.data : AT (ADDR(.data) - offset) {
/*
* Leave space for parent capability parameters at start of data
* section. The protection domain creator is reponsible for storing
* sane values here.
*/
_parent_cap = .;
LONG(0xffffffff);
LONG(0xffffffff);
_vma_start = .;
LONG(vma_start);
_lma_start = .;
LONG(lma_start);
*(.data .data.* .gnu.linkonce.d.*)
} : rw
/* exception frames for C++ */
.eh_frame : {
__eh_frame_start__ = .;
KEEP (*(.eh_frame))
LONG(0)
} : rw
.init_array : {
PROVIDE_HIDDEN (__init_array_start = .);
KEEP (*(SORT(.init_array.*)))
KEEP (*(.init_array))
PROVIDE_HIDDEN (__init_array_end = .);
}
.gcc_except_table : { KEEP(*(.gcc_except_table)) }
.dynamic : { *(.dynamic) }
/* .ARM.exidx is sorted, so has to go in its own output section */
__exidx_start = .;
.ARM.exidx : {
*(.ARM.exidx* .gnu.linkonce.armexidx.*)
}
__exidx_end = .;
.ARM.extab : {
*(.ARM.extab*)
} : rw
. = ALIGN(4);
.bss : AT (ADDR(.bss) - offset) {
*(.bss .bss.* .gnu.linkonce.b.* COMMON)
}
/* end of program image -- must be after last section */
_prog_img_end = .;
/DISCARD/ : {
*(.note)
*(.note.ABI-tag)
*(.comment)
}
}

202
base-codezero/tool/gen_romfs Executable file
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#!/usr/bin/python
import os, re, getopt, sys
from stat import ST_SIZE
from subprocess import PIPE, Popen
verbose = 0
# return address of 4K page following the spefified address
def round_page(addr):
page_size = 0x1000
return (addr + page_size) & ~(page_size - 1)
def first_free_addr_after_program(elf, cross_prefix = ""):
try:
objdump = cross_prefix + "objdump"
objdump_output = Popen([objdump, "-p", elf],
stdout=PIPE).communicate()[0]
except OSError:
print "Error: execution of " + objdump + " failed, invalid cross-tool prefix?"
exit(3)
#
# The output of 'objdump -p' contains the list of program segments. Each
# segment has two lines of text, the first containing the 'vaddr' value and
# the latter containing the 'memsz' value. For each line, we match for both
# 'vaddr' and 'memsz' fields. When observing a line with a 'memsz' field,
# we know that the previous line contained the corresponding 'vaddr' and
# that the end address of the segment is the sum of the current 'vaddr'
# and 'memsz' values.
#
max_end_addr = 0
for line in objdump_output.splitlines():
match_vaddr = re.compile(".*vaddr (0x[0-9a-f]*).*").match(line)
match_memsz = re.compile(".*memsz (0x[0-9a-f]*).*").match(line)
if (match_vaddr):
vaddr = int(match_vaddr.group(1), 0)
if (match_memsz):
memsz = int(match_memsz.group(1), 0)
max_end_addr = max(max_end_addr, vaddr + memsz)
# align the first free address at the next page boundary
return round_page(max_end_addr)
def generate_modules_asm(modules):
"""
Generate assembly code aggregating boot-module data from specified files.
The generated assembly code looks as follows:
/*
* The ELF image consists only of a data section. At file offset 0, there
* is a magic cookie that core validates when accessing the ROM fs. It is
* followed by the end address of the meta data.
*/
.section .data
.string "GROM" /* magic cookie used by core to identify a ROM fs image*/
.long header_end /* end of ROM fs meta data */
/*
* Each module is represented by a struct of 3 long values. The first
* value is pointer to the module name. A null-pointer marks the end of
* the module list.
*/
.long mod1_name /* pointer to the null-terminated module name */
.long mod1_start /* pointer to the module data */
.long mod1_end - mod1_start /* size of the module data */
.long 0
/*
* For each module, there exists a null-terminated string labeled with
* 'mod<index>_name' referenced by the module list above.
*/
mod1_name:
.string "name of data module"
.byte 0
header_end:
/*
* The data of each module must be aligned at a page boundary to enable
* the mapping of individual modules to different address spaces.
*/
.align 4096
mod1_start: .incbin "data"
mod1_end:
"""
asm_src = ""
# header
asm_src += ".section .data\nmodule_list:\n"
asm_src += ".ascii \"GROM\"\n"
asm_src += ".long header_end\n"
# module list
i = 1
for module in modules:
asm_src += ".long mod" + str(i) + "_name\n"
asm_src += ".long mod" + str(i) + "_start\n"
asm_src += ".long mod" + str(i) + "_end - mod" + str(i) + "_start\n"
i = i + 1
asm_src += ".long 0\n"
# module names
i = 1
for module in modules:
asm_src += "mod" + str(i) + "_name: .string \"" + os.path.split(module)[1] + "\"; .byte 0\n"
i = i + 1
asm_src += "header_end:\n"
# module data
i = 1
for module in modules:
asm_src += ".p2align 12,0\n"
asm_src += "mod" + str(i) + "_start: .incbin \"" + module + "\"; "
asm_src += "mod" + str(i) + "_end:\n"
i = i + 1
return asm_src
instructions = """
usage: gen_romfs [-v] [-p <cross-prefix>] -c <core-elf> -o <output> [modules ...]
Generates Genode ROM file system as ELF file loadable into a Codezero container
-c|--core ELF binary of Genode's core
-o|--output name of ELF image to generate
-p|--prefix cross toolchain prefix
-v|--verbose print details about generated ROM file systemn
"""
def usage():
print instructions
def user_error(message):
print "Error: " + message
usage
sys.exit(2)
# default values for command-line arguments
cross_prefix = ""
core_elf = ""
dst_elf = ""
# parse command line arguments
try:
opts, modules = getopt.getopt(sys.argv[1:],
"c:o:p:v",
["core=", "output=", "prefix=", "verbose"])
except getopt.GetoptError:
usage()
sys.exit(2)
for opt, arg in opts:
if opt in ("-c", "--core"):
core_elf = arg
elif opt in ("-o", "--output"):
dst_elf = arg
elif opt in ("-p", "--prefix"):
cross_prefix = arg
elif opt in ("-v", "--verbose"):
verbose = 1
else:
user_error("invalid argument \"" + arg + "\"")
# validate arguments
if (core_elf == ""): user_error("no core binary specified")
if (len(modules) == 0): user_error("no modules specified")
if (dst_elf == ""): user_error("no output file spefied")
# determine destination address of the modules ELF image
modules_start_addr = first_free_addr_after_program(core_elf, cross_prefix)
if (verbose):
print "module address: " + hex(modules_start_addr)
# generate assembly code aggregating the module data
asm_src = generate_modules_asm(modules)
if (verbose):
print "generated assember code:"
for line in asm_src.splitlines():
print " " + line
# invoke assembler and linker through the gcc front end
gcc_cmd = [cross_prefix + "gcc",
"-nostdlib",
"-x", "assembler",
"-Wl,--entry=0",
"-Wl,--section-start=.data=" + hex(modules_start_addr),
"-o", dst_elf,
"-"]
if (verbose):
print "gcc command line:"
print " " + ' '.join(gcc_cmd)
Popen(gcc_cmd, stdin=PIPE).communicate(asm_src)[0]

44
base-fiasco/Makefile Normal file
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#
# \brief Download, and unpack Fiasco and addtional needed tools (sigma0, bootstrap)
# \author Stefan Kalkowski
# \date 2011-07-18
#
VERBOSE ?= @
ECHO = @echo
DOWNLOAD_DIR = download
CONTRIB_DIR = contrib
FIASCO_ARCHIVE = 3rd_fiasco.tar.bz2
FIASCO_URI = http://downloads.sourceforge.net/project/genode/3rd/$(FIASCO_ARCHIVE)
#
# Print help information by default
#
help:
$(ECHO)
$(ECHO) "Prepare the Fiasco base repository"
$(ECHO)
$(ECHO) "--- available commands ---"
$(ECHO) "prepare - download and extract the Fiasco source code"
$(ECHO) "clean - clean everything except downloaded archives"
$(ECHO) "cleanall - clean everything including downloaded archives"
$(ECHO)
$(DOWNLOAD_DIR)/$(FIASCO_ARCHIVE):
$(ECHO) "downloading source code to '$(DOWNLOAD_DIR)/'"
$(VERBOSE)mkdir -p $(DOWNLOAD_DIR)
$(VERBOSE)wget -c $(FIASCO_URI) -O $@
$(CONTRIB_DIR): $(DOWNLOAD_DIR)/$(FIASCO_ARCHIVE)
$(ECHO) "unpacking source code to '$(CONTRIB_DIR)/'"
$(VERBOSE)tar xjf $<
$(VERBOSE)mv 3rd $@
$(VERBOSE)touch $@
prepare: $(CONTRIB_DIR)
clean:
$(VERBOSE)rm -rf $(CONTRIB_DIR)
cleanall: clean
$(VERBOSE)rm -rf $(DOWNLOAD_DIR)

4
base-fiasco/README Normal file
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This repository contains the L4/Fiasco-specific implementation of Genode.
For instructions to build and start the Fiasco version of Genode, please
consult the documentation located at 'base-fiasco/doc/fiasco.txt'.

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#
# Automatically generated make config: don't edit
# Fiasco kernel version: SVN
# Thu Jul 21 16:51:09 2011
#
#
# Target configuration
#
CONFIG_IA32=y
# CONFIG_AMD64 is not set
# CONFIG_ARM is not set
CONFIG_PF_PC=y
# CONFIG_PF_UX is not set
# CONFIG_PF_REALVIEW is not set
# CONFIG_PF_INTEGRATOR is not set
# CONFIG_PF_XSCALE is not set
# CONFIG_PF_SA1100 is not set
CONFIG_ABI_V2=y
# CONFIG_ARM_PXA is not set
# CONFIG_ARM_SA is not set
# CONFIG_ARM_920T is not set
# CONFIG_ARM_926 is not set
# CONFIG_ARM_1176 is not set
# CONFIG_ARM_MPCORE is not set
# CONFIG_ARM_CORTEX_A8 is not set
# CONFIG_IA32_486 is not set
CONFIG_IA32_586=y
# CONFIG_IA32_686 is not set
# CONFIG_IA32_P2 is not set
# CONFIG_IA32_P3 is not set
# CONFIG_IA32_P4 is not set
# CONFIG_IA32_PM is not set
# CONFIG_IA32_K6 is not set
# CONFIG_IA32_K7 is not set
# CONFIG_IA32_K8 is not set
# CONFIG_AMD64_K8 is not set
CONFIG_SCHED_PIT=y
# CONFIG_SCHED_RTC is not set
# CONFIG_SCHED_APIC is not set
# CONFIG_WORKAROUND_AMD_FPU_LEAK is not set
CONFIG_REGPARM3=y
#
# Kernel options
#
CONFIG_HANDLE_SEGMENTS=y
# CONFIG_PL0_HACK is not set
CONFIG_TASK_CAPS=y
# CONFIG_USER_LOCKS is not set
CONFIG_CONTEXT_4K=y
CONFIG_IO_PROT=y
# CONFIG_IO_PROT_IOPL_3 is not set
CONFIG_SYNC_TSC=y
CONFIG_FINE_GRAINED_CPUTIME=y
#
# Debugging
#
CONFIG_INLINE=y
# CONFIG_NDEBUG is not set
# CONFIG_NO_FRAME_PTR is not set
# CONFIG_STACK_DEPTH is not set
# CONFIG_LIST_ALLOC_SANITY is not set
# CONFIG_BEFORE_IRET_SANITY is not set
CONFIG_GSTABS=y
# CONFIG_WATCHDOG is not set
CONFIG_SERIAL=y
CONFIG_JDB=y
# CONFIG_JDB_LOGGING is not set
# CONFIG_JDB_ACCOUNTING is not set
# CONFIG_JDB_MISC is not set
CONFIG_POWERSAVE_GETCHAR=y
# CONFIG_WARN_NONE is not set
# CONFIG_WARN_WARNING is not set
CONFIG_WARN_ANY=y
#
# Compiling
#
CONFIG_CC="gcc"
CONFIG_CXX="g++"
CONFIG_HOST_CC="gcc"
CONFIG_HOST_CXX="g++"
# CONFIG_VERBOSE is not set
# CONFIG_MAINTAINER_MODE is not set
CONFIG_LABEL=""
CONFIG_EXPERIMENTAL=y
CONFIG_PERF_CNT=y
CONFIG_BIT32=y
CONFIG_WARN_LEVEL=2
CONFIG_XARCH="ia32"
CONFIG_IA32_TARGET="Intel Pentium"
CONFIG_ABI="v2"
CONFIG_DECEIT_BIT_DISABLES_SWITCH=y

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#
# Automatically generated by configuration tool: don't edit
#
#
# Target Architecture
#
BUILD_ARCH_x86=y
BUILD_ARCH_arm=n
BUILD_ARCH_amd64=n
BUILD_ARCH='x86'
CPU='586'
BUILD_ABI_l4v2=y
BUILD_ABI_linux=n
BUILD_ABI='l4v2'
#
# Paths and Directories
#
DROPS_INSTDIR='$(DROPS_STDDIR)'
#
# Verboseness and Messages
#
DEPEND_VERBOSE_SWITCH=n
DEPEND_VERBOSE='@'
VERBOSE_SWITCH=n
SHOWMESSAGES=y
BID_COLORED_PHASES=y
#
# Compilers and Tools
#
BIDc_USE_SPECIAL_CC=y
HOST_CC="gcc -m32"
HOST_CXX="g++ -m32"
CC="$(SYSTEM_TARGET)gcc -m32"
CXX="$(SYSTEM_TARGET)g++ -m32"
#
# Tools
#
YACC='byacc'
LEX='flex'
CTAGS='ctags'
ETAGS='etags'
#
# Options
#
HAVE_LDSO=n
INT_CPP_NAME_SWITCH=y
INT_LD_NAME_SWITCH=y
BID_STRIP_PROGS=n
BID_GSTAB_SW=y
BID_CFLAGS_GSTAB='-gstabs+'
BID_GCC_OMIT_FP=n
BID_GENERATE_MAPFILE=n
BID_BUILD_DOC=y
#
# Advanced
#
USE_UCLIBC=y
USE_DIETLIBC=n
BUILD_LOADER=n
BUILD_LOADER_PICS='libl4util.a libl4util_root.a libsigma0.a libnames.a libloaderif.a libcon.a libl4rm.a libbootmod.a libcon.a libconstream-server.a libdm_generic.a libdm_mem.a libgeneric_ts.a liblogserver.a liblogserver_capsule.a libsemaphore.a libthread.a libslab.a libgeneric_fprov.a libl4env_err.a libl4env.a libroot.a libc_be_l4env_start_stop.a libc_be_minimal_log_io.a libc_be_simple_mem.a libc_be_mmap.a libc_be_mmap_util.a libuclibc_support.a librtc.a libl4env-l4lx.a'
L4_CALL_SYSCALLS=y
L4_ABS_SYSCALLS=y
BID_CPPFLAGS_SYSCALLS='-DCONFIG_L4_CALL_SYSCALLS -DCONFIG_L4_ABS_SYSCALLS'
USE_TASKLIB=n
RELEASE_MODE=n
BID_BUILD_L4DIR_ONLY=n
CONFIG_LABEL='__none__'
#
# Paths
#
LINUX24_INCDIR='$(OBJ_BASE)/include/linux-24 $(DROPS_STDDIR)/include/linux-24'
LINUX26_INCDIR='$(OBJ_BASE)/include/$(ARCH)/l4/linux-26-headers $(DROPS_STDDIR)/include/$(ARCH)/l4/linux-26-headers $(OBJ_BASE)/include/l4/linux-26-headers $(DROPS_STDDIR)/include/l4/linux-26-headers'
DDE_INCDIR='$(OBJ_BASE)/include/$(ARCH)/l4/dde_linux $(DROPS_STDDIR)/include/$(ARCH)/l4/dde_linux'
DDE26_INCDIR='$(OBJ_BASE)/include/$(ARCH)/l4/dde_linux26 $(DROPS_STDDIR)/include/$(ARCH)/l4/dde_linux26 $(OBJ_BASE)/include/l4/dde_linux26 $(DROPS_STDDIR)/include/l4/dde_linux26'
SDL_INCDIR='$(OBJ_BASE)/include/l4/sdl $(DROPS_STDDIR)/include/l4/sdl'

130
base-fiasco/doc/fiasco.txt Normal file
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=============================================
How to use Genode with the Fiasco microkernel
=============================================
Norman Feske, Christian Helmuth
Abstract
########
This documentation describes the process of building and booting the L4/Fiasco
version of Genode. It assumes that you are familiar with basic concepts
described in the introductory documentation of Genode, namely the "How to start
exploring Genode" document.
Preconditions
#############
The Fiasco version of Genode relies on the following components from
the source tree of the Fiasco microkernel and the L4 environment (which also
need additional tools).
Tools
=====
* Gawk
* Bison
* Python
The Fiasco microkernel
======================
Information about Fiasco are provided at its official website:
! http://os.inf.tu-dresden.de/fiasco/prev/
To download the kernel and integrate it with Genode, issue the following
command from within the 'base-fiasco' directory:
! make prepare
This command will download a prepackaged version of the kernel tested
with Genode. The build process of the kernel is integrated with Genode's
build system. After creating a build directory using 'create_builddir'
with 'fiasco_x86' as argument:
! <genode-dir>/tool/create_builddir fiasco_x86 \
! BUILD_DIR=<build-dir>
From within the new <build-dir>, the kernel can be compiled via
! make kernel
When using Genode's run mechanism, there is no need to explicitly
build the kernel. The run environment (see 'base-fiasco/run/env')
takes care of it. So you can simple execute run scripts from within
the build directory, for example:
! make run/demo
Behind the scenes
=================
For using the L4/Fiasco kernel, some basic user-level components and libraries
are needed. These are subsumed under the name L4 environment an are organized
as a number of packages. These packages provide two types of components. There
are low-level components for booting up and interfacing to Fiasco and there are
higher-level components that compose a basic OS infrastructure. For Genode, we
only rely on the low-level packages.
Previous versions of Genode included all necessary sources from the L4
environment in the '3rd/fiasco/snapshot' subdirectory. From release 10.02, the
'3rd' directory is no longer part of the release archive and also removed from
the subversion repository. Please download the '3rd_fiasco.tar.bz2' archive.
The source are organized as follows
:'tool': contains the tools that are used by the build processes of
the L4 environment and Fiasco. For example, the build process of Fiasco
relies on the 'preprocess' tool.
:'kernel': contains the Fiasco microkernel.
:'l4': contains the L4-environment source tree. The single packages
are located at 'l4/pkg'.
From all the packages of the L4 environment, the following three are of
interest for using Genode:
:'pkg/l4sys': contains the Fiasco system-call bindings.
The system-call bindings are a set of C-header files that define the
application-programming interface for invoking the system calls of
Fiasco.
:'pkg/sigma0':
Sigma0 is the initial memory manager required to use Fiasco.
:'pkg/bootstrap':
Bootstrap is the program that is started by the boot loader.
After being started, Bootstrap prepares the bare machine to
accommodate Fiasco. On many embedded architectures, bootstrap
is used to create a single binary image containing all boot-time
OS components.
To build all components under '3rd/fiasco' after extracting the
archive, issue the following commands:
! mkdir <build-dir>
! make -C 3rd/fiasco BUILD_DIR=<build-dir>/3rd build
The specified '<build-dir>' must be the absolute path to the
directory, which will contain the build directories for the third party
software and the Genode build directory. After the build, your compound
build directory contains the following subdirectories:
:'fiasco_x86':
All generated files and the final binary of Fiasco reside here.
:'l4env':
L4 environment binaries and header files.

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#
# Fiasco-specific default configuration options
#
#
# Directory, where to search for L4 headers
#
# When using this file as template for a customized
# '<builddir>/etc/fiasco.conf'.
#
#L4_DIR = $(HOME)/src/l4build.x86

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#
# Description of build platform
#
#
# To build the Fiasco-specific Genode binaries,
# use one of the the following config options.
#
SPECS = genode fiasco_x86
#
# To build for the ARM integrator platform,
# use the following SPECS value.
#
#SPECS = genode platform_integrator fiasco_arm

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#
# The following options let you define your cross-compile tool chain
#
include $(BASE_DIR)/etc/tools.conf
#CROSS_DEV_PREFIX = arm-softfloat-linux-gnu-

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/*
* \brief Atomic operations for ARM
* \author Norman Feske
* \date 2007-04-28
*/
/*
* Copyright (C) 2007-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__ARM__CPU__ATOMIC_H_
#define _INCLUDE__ARM__CPU__ATOMIC_H_
namespace Genode {
extern "C" long int
l4_atomic_cmpxchg(volatile long int*, long int, long int);
/**
* Atomic compare and exchange
*
* This function compares the value at dest with cmp_val.
* If both values are equal, dest is set to new_val. If
* both values are different, the value at dest remains
* unchanged.
*
* \return 1 if the value was successfully changed to new_val,
* 0 if cmp_val and the value at dest differ.
*/
inline int cmpxchg(volatile int *dest, int cmp_val, int new_val)
{
return l4_atomic_cmpxchg((volatile long int *)dest, cmp_val, new_val);
}
}
#endif /* _INCLUDE__ARM__CPU__ATOMIC_H_ */

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/*
* \brief Basic locking primitive
* \author Norman Feske
* \date 2006-07-26
*/
/*
* Copyright (C) 2006-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__CANCELABLE_LOCK_H_
#define _INCLUDE__BASE__CANCELABLE_LOCK_H_
#include <base/lock_guard.h>
#include <base/native_types.h>
#include <base/blocking.h>
namespace Genode {
class Cancelable_lock
{
private:
Native_lock _native_lock;
public:
enum State { LOCKED, UNLOCKED };
/**
* Constructor
*/
Cancelable_lock(State initial = UNLOCKED);
/**
* Try to aquire lock an block while lock is not free
*
* This function may throw a Genode::Blocking_canceled exception.
*/
void lock();
/**
* Release lock
*/
void unlock();
/**
* Lock guard
*/
typedef Genode::Lock_guard<Cancelable_lock> Guard;
};
}
#endif /* _INCLUDE__BASE__CANCELABLE_LOCK_H_ */

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/*
* \brief Fiasco-specific layout of IPC message buffer
* \author Norman Feske
* \date 2006-06-14
*/
/*
* Copyright (C) 2006-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__IPC_MSGBUF_H_
#define _INCLUDE__BASE__IPC_MSGBUF_H_
namespace Genode {
/**
* IPC message buffer layout
*/
class Msgbuf_base
{
protected:
Genode::size_t _size;
public:
/*
* Begin of message buffer layout
*/
Fiasco::l4_fpage_t rcv_fpage;
Fiasco::l4_msgdope_t size_dope;
Fiasco::l4_msgdope_t send_dope;
char buf[];
/**
* Return size of message buffer
*/
inline size_t size() const { return _size; };
/**
* Return address of message buffer
*/
inline void *addr() { return &rcv_fpage; };
};
/**
* Instance of IPC message buffer with specified buffer size
*/
template <unsigned BUF_SIZE>
class Msgbuf : public Msgbuf_base
{
public:
char buf[BUF_SIZE];
Msgbuf() { _size = BUF_SIZE; }
};
}
#endif /* _INCLUDE__BASE__IPC_MSGBUF_H_ */

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/*
* \brief Fiasco pager support
* \author Christian Helmuth
* \date 2006-06-14
*/
/*
* Copyright (C) 2006-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__IPC_PAGER_H_
#define _INCLUDE__BASE__IPC_PAGER_H_
/* Genode includes */
#include <base/ipc.h>
#include <base/stdint.h>
#include <base/native_types.h>
#include <fiasco/thread_helper.h>
#include <util/touch.h>
/* Fiasco includes */
namespace Fiasco {
#include <l4/sys/types.h>
}
namespace Genode {
class Mapping
{
private:
addr_t _dst_addr;
Fiasco::l4_fpage_t _fpage;
public:
/**
* Constructor
*/
Mapping(addr_t dst_addr, addr_t src_addr,
bool write_combined, unsigned l2size = L4_LOG2_PAGESIZE,
bool rw = true, bool grant = false)
:
_dst_addr(dst_addr),
_fpage(Fiasco::l4_fpage(src_addr, l2size, rw, grant))
{
if (write_combined)
_fpage.fp.cache = Fiasco::L4_FPAGE_BUFFERABLE;
}
/**
* Construct invalid flexpage
*/
Mapping() : _dst_addr(0), _fpage(Fiasco::l4_fpage(0, 0, 0, 0)) { }
Fiasco::l4_umword_t dst_addr() const { return _dst_addr; }
Fiasco::l4_fpage_t fpage() const { return _fpage; }
/**
* Prepare map operation
*
* On Fiasco, we need to map a page locally to be able to map it to
* another address space.
*/
void prepare_map_operation()
{
addr_t core_local_addr = _fpage.fp.page << 12;
size_t mapping_size = 1 << _fpage.fp.size;
for (addr_t i = 0; i < mapping_size; i += L4_PAGESIZE) {
if (_fpage.fp.write)
touch_read_write((unsigned char volatile *)(core_local_addr + i));
else
touch_read((unsigned char const volatile *)(core_local_addr + i));
}
}
};
/**
* Special paging server class
*/
class Ipc_pager : public Native_capability
{
private:
Native_thread_id _last; /* origin of last fault message */
addr_t _pf_addr; /* page-fault address */
addr_t _pf_ip; /* instruction pointer of faulter */
Mapping _reply_mapping; /* page-fault answer */
public:
/**
* Constructor
*/
Ipc_pager();
/**
* Wait for a new page fault received as short message IPC
*/
void wait_for_fault();
/**
* Reply current page-fault and wait for a new one
*
* Send short flex page and wait for next short-message (register)
* IPC -- pagefault
*/
void reply_and_wait_for_fault();
/**
* Request instruction pointer of current page fault
*/
addr_t fault_ip() { return _pf_ip; }
/**
* Request fault address of current page fault
*/
addr_t fault_addr() { return _pf_addr & ~3; }
/**
* Set parameters for next reply
*/
void set_reply_mapping(Mapping m) { _reply_mapping = m; }
/**
* Set destination for next reply
*/
void set_reply_dst(Native_capability pager_object) {
_last.raw = pager_object.local_name(); }
/**
* Answer call without sending a flex-page mapping
*
* This function is used to acknowledge local calls from one of
* core's region-manager sessions.
*/
void acknowledge_wakeup();
/**
* Return thread ID of last faulter
*/
Native_thread_id last() const { return _last; }
/**
* Return badge for faulting thread
*
* As Fiasco has no server-defined badges for page-fault messages, we
* interpret the sender ID as badge.
*/
unsigned long badge() const {
return convert_native_thread_id_to_badge(_last); }
bool is_write_fault() const { return (_pf_addr & 2); }
/**
* Return true if last fault was an exception
*/
bool is_exception() const
{
/*
* Reflection of exceptions is not supported on this platform.
*/
return false;
}
};
}
#endif /* _INCLUDE__BASE__IPC_PAGER_H_ */

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/*
* \brief Native types on L4/Fiasco
* \author Norman Feske
* \date 2008-07-26
*/
/*
* Copyright (C) 2008-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__BASE__NATIVE_TYPES_H_
#define _INCLUDE__BASE__NATIVE_TYPES_H_
namespace Fiasco {
#include <l4/sys/types.h>
/**
* Return invalid L4 thread ID
*/
inline l4_threadid_t invalid_l4_threadid_t() { return L4_INVALID_ID; }
}
namespace Genode {
typedef volatile int Native_lock;
class Platform_thread;
typedef Fiasco::l4_threadid_t Native_thread_id;
struct Native_thread
{
Native_thread_id l4id;
/**
* Only used in core
*
* For 'Thread' objects created within core, 'pt' points to
* the physical thread object, which is going to be destroyed
* on destruction of the 'Thread'.
*/
Platform_thread *pt;
};
inline unsigned long convert_native_thread_id_to_badge(Native_thread_id tid)
{
/*
* Fiasco has no server-defined badges for page-fault messages.
* Therefore, we have to interpret the sender ID as badge.
*/
return tid.raw;
}
/**
* Empty UTCB type expected by the thread library
*
* On this kernel, UTCBs are not placed within the the context area. Each
* thread can request its own UTCB pointer using the kernel interface.
*/
typedef struct { } Native_utcb;
/*
* On Fiasco, the local_name member of a capability is global
* to the whole system. Therefore, capabilities are to be
* created at a central place that prevents id clashes.
*/
class Native_capability
{
protected:
Fiasco::l4_threadid_t _tid;
long _local_name;
public:
/**
* Default constructor
*/
Native_capability()
: _tid(Fiasco::invalid_l4_threadid_t()), _local_name(0) { }
long local_name() const { return _local_name; }
Fiasco::l4_threadid_t dst() const { return _tid; }
bool valid() const { return l4_is_invalid_id(_tid) == 0; }
/*****************************************************
** Functions to be used by the Fiasco backend only **
*****************************************************/
/**
* Constructor
*
* This constructor can be called to create a Fiasco
* capability by hand. It must never be used from
* generic code!
*/
Native_capability(Fiasco::l4_threadid_t tid,
Fiasco::l4_umword_t local_name)
: _tid(tid), _local_name(local_name) { }
/**
* Access raw capability data
*/
Fiasco::l4_threadid_t tid() const { return _tid; }
};
typedef Fiasco::l4_threadid_t Native_connection_state;
}
#endif /* _INCLUDE__BASE__NATIVE_TYPES_H_ */

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/*
* \brief Fiasco-specific thread helper functions
* \author Norman Feske
* \date 2007-05-03
*/
/*
* Copyright (C) 2007-2011 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__FIASCO__THREAD_HELPER_H_
#define _INCLUDE__FIASCO__THREAD_HELPER_H_
#include <base/printf.h>
namespace Fiasco {
#include <l4/sys/types.h>
inline void print_l4_threadid(l4_threadid_t t)
{
Genode::printf("THREAD %x.%02x\n", t.id.task, t.id.lthread);
Genode::printf(" unsigned version_low:10 = %x\n", t.id.version_low);
Genode::printf(" unsigned lthread:7 = %x\n", t.id.lthread);
Genode::printf(" unsigned task:11 = %x\n", t.id.task);
}
/**
* Sigma0 thread ID
*
* We must use a raw hex value initializer since we're using C++ and
* l4_threadid_t is an union.
*/
const l4_threadid_t sigma0_threadid = { 0x00040000 };
}
#endif /* _INCLUDE__FIASCO__THREAD_HELPER_H_ */

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REQUIRES = fiasco arm
LIBS = cxx lock
SRC_S = crt0.s
SRC_CC = _main.cc
INC_DIR += $(REP_DIR)/src/platform
vpath crt0.s $(REP_DIR)/src/platform/arm
vpath _main.cc $(dir $(call select_from_repositories,src/platform/_main.cc))

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@ -0,0 +1,5 @@
SRC_CC = core_printf.cc
LIBS = cxx console
INC_DIR += $(REP_DIR)/src/base/console
vpath core_printf.cc $(BASE_DIR)/src/base/console

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@ -0,0 +1,3 @@
SRC_CC = ipc.cc pager.cc
vpath %.cc $(REP_DIR)/src/base/ipc

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@ -0,0 +1,19 @@
#
# Build L4env base libraries, needed by sigma0 and bootstrap
# ignore stage one, visit the L4 build system at second build stage
ifeq ($(called_from_lib_mk),yes)
# packages in 'l4/pkg/'
PKGS = l4sys/lib \
uclibc/lib/uclibc \
uclibc/lib/include \
crtx \
l4util/lib \
cxx
include $(REP_DIR)/mk/l4_pkg.mk
all: $(PKG_TAGS)
endif

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SRC_CC = lock.cc
vpath lock.cc $(REP_DIR)/src/base/lock

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@ -0,0 +1,3 @@
SRC_CC = pager.cc
vpath pager.cc $(REP_DIR)/src/base/pager

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@ -0,0 +1,56 @@
#
# Create prerequisites for building Genode for Fiasco
#
# Prior building Genode programs for Fiasco, the kernel bindings must be
# generated. This is done by building a minimalistic subset of the original
# userland that comes with Fiasco.
#
#
# Execute the rules in this file only at the second build stage when we know
# about the complete build settings, e.g., the 'CROSS_DEV_PREFIX'.
#
ifeq ($(called_from_lib_mk),yes)
#
# Sanity checks
#
ifeq ($(L4_BUILD_DIR),$(BUILD_BASE_DIR)/l4)
all: $(L4_SRC_DIR)
$(L4_SRC_DIR):
$(VERBOSE)$(ECHO) "--> Please, execute 'make prepare' in $(REP_DIR)"
$(VERBOSE)$(ECHO) "--> before compiling Genode apps for Fiasco."
$(VERBOSE)exit 1
endif
#
# Create L4 build directory
#
$(BUILD_BASE_DIR)/l4/.Makeconf.bid.old:
$(VERBOSE)mkdir -p $(dir $@)
$(VERBOSE)cp $(L4_CONFIG) $(@:.old=)
$(VERBOSE_MK) MAKEFLAGS= make $(VERBOSE_DIR) -C $(L4_SRC_DIR)/l4 \
O=$(BUILD_BASE_DIR)/l4 SYSTEM_TARGET="$(CROSS_DEV_PREFIX)" oldconfig
$(BUILD_BASE_DIR)/l4/pkg/uclibc/lib/uclibc:
$(VERBOSE)mkdir -p $(BUILD_BASE_DIR)/l4/pkg/uclibc/lib/uclibc
$(VERBOSE)tar cf - --exclude .svn -C $(L4_SRC_DIR)/../uclibc ARCH-all ARCH-x86 \
| tar xf - -C $(BUILD_BASE_DIR)/l4/pkg/uclibc/lib/uclibc
PKGS = input/include \
drivers/uart/include \
l4sys/include \
l4util/include \
libc_support/include \
libsigma0/include
include $(REP_DIR)/mk/l4_pkg.mk
all: $(PKG_TAGS)
$(PKG_TAGS): $(BUILD_BASE_DIR)/l4/.Makeconf.bid.old
$(PKG_TAGS): $(BUILD_BASE_DIR)/l4/pkg/uclibc/lib/uclibc
endif

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@ -0,0 +1,6 @@
#
# Configuration for L4 build system (for kernel-bindings, sigma0, bootstrap).
#
L4_CONFIG = $(REP_DIR)/config/l4env-config.x86
include $(REP_DIR)/lib/mk/platform.inc

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@ -0,0 +1,8 @@
REQUIRES = fiasco x86
LIBS = cxx lock
SRC_S = crt0.s
SRC_CC = _main.cc
INC_DIR += $(BASE_DIR)/src/platform $(REP_DIR)/src/platform
vpath crt0.s $(dir $(call select_from_repositories,src/platform/x86_32/crt0.s))
vpath _main.cc $(dir $(call select_from_repositories,src/platform/_main.cc))

69
base-fiasco/mk/l4_pkg.mk Normal file
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#
# Utility for building L4 contrib packages
#
# Variables that steer the behaviour of this makefile:
#
# TARGET - name of target
# PKGS - list of L4 packages to visit in order to create
# the target
#
LIBS += platform
ifeq ($(filter-out $(SPECS),x86_32),)
L4_BUILD_ARCH := x86
endif
ifeq ($(filter-out $(SPECS),arm),)
L4_BUILD_ARCH := arm
endif
ifeq ($(L4_BUILD_ARCH),)
all: l4_build_arch_undefined
$(VERBOSE)$(ECHO) "Error: L4_BUILD_ARCH undefined, architecture not supported"
$(VERBOSE)false
endif
L4_PKG_DIR = $(L4_SRC_DIR)/l4/pkg
STARTUP_LIB =
PKG_TAGS = $(addsuffix .tag,$(PKGS))
ifeq ($(VERBOSE),)
L4_VERBOSE = V=1
endif
$(TARGET): $(PKG_TAGS)
#
# We preserve the order of processing 'l4/pkg/' directories because of
# inter-package dependencies. However, within each directory, make is working
# in parallel.
#
.NOTPARALLEL: $(PKG_TAGS)
#
# The '_GNU_SOURCE' definition is needed to convince uClibc to define the
# 'off64_t' type, which is used by bootstrap.
#
%.tag:
$(VERBOSE_MK) MAKEFLAGS= CPPFLAGS="$(CC_MARCH)" \
CFLAGS="$(CC_MARCH)" CXXFLAGS="$(CC_MARCH) -D_GNU_SOURCE" \
ASFLAGS="$(CC_MARCH)" LDFLAGS="$(LD_MARCH)" \
$(MAKE) $(VERBOSE_DIR) O=$(L4_BUILD_DIR) $(L4_VERBOSE) \
-C $(L4_PKG_DIR)/$* \
CC="$(CROSS_DEV_PREFIX)gcc" \
CXX="$(CROSS_DEV_PREFIX)g++" \
LD="$(CROSS_DEV_PREFIX)ld"
$(VERBOSE)mkdir -p $(dir $@) && touch $@
clean cleanall: clean_tags
# if (pseudo) target is named after a directory, remove the whole subtree
clean_prg_objects: clean_dir_named_as_target
clean_dir_named_as_target:
$(VERBOSE)(test -d $(TARGET) && rm -rf $(TARGET)) || true
clean_tags:
$(VERBOSE)rm -f $(PKG_TAGS)

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#
# Specifics for the l4v2 kernel API
#
#
# Read default and builddir-specific config files
#
# In these config files, we find the definition of L4_DIR
#
-include $(call select_from_repositories,etc/fiasco.conf)
-include $(BUILD_BASE_DIR)/etc/fiasco.conf
L4_BUILD_DIR ?= $(BUILD_BASE_DIR)/l4
L4_SRC_DIR ?= $(REP_DIR)/contrib/fiasco/snapshot
#
# L4/sys headers
#
L4_INC_DIR += $(L4_BUILD_DIR)/include \
$(L4_BUILD_DIR)/include/l4v2
#
# Startup code to be used when building a program
#
STARTUP_LIB ?= startup
PRG_LIBS += $(STARTUP_LIB)
clean_contrib:
$(VERBOSE)rm -rf $(BUILD_BASE_DIR)/l4
cleanall: clean_contrib

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@ -0,0 +1,50 @@
#
# Specifics for Fiasco on ARM
#
# The following variables must be defined by a platform spec file:
#
# L4SYS_ARM_CPU - Platform identifiert used for constructing l4sys path
# names corresponding to the ARM platform. For example,
# specify 'arm_int' for the ARM integrator board.
# RAM_BASE - Start address of physical memory. If not specified,
# the start adress 0x0 is used.
#
SPECS += arm fiasco 32bit
#
# ARM-specific L4/sys headers
#
L4_INC_DIR += $(L4_BUILD_DIR)/include/arm/l4v2 \
$(L4_BUILD_DIR)/include/arm
#
# Support for Fiasco's ARM-specific extensions of L4
# and ARM-specific utility functions.
#
REP_INC_DIR += include/arm
#
# Defines for L4/sys headers
#
CC_OPT += -DSYSTEM_$(L4SYS_ARM_CPU)_l4v2
CC_OPT += -DCONFIG_L4_CALL_SYSCALLS -DL4API_l4v2 -DARCH_arm
CC_OPT += -msoft-float -fomit-frame-pointer
AS_OPT += -mfpu=softfpa
#
# Linker options that are specific for L4 on ARM
#
RAM_BASE ?= 0x0
LD_TEXT_ADDR ?= $(shell printf "0x%x" $$(($(RAM_BASE) + 0x00078000)))
CXX_LINK_OPT += -Wl,-Ttext=$(LINK_TEXT_ADDR)
CXX_LINK_OPT += -L$(L4_BUILD_DIR)/lib/$(L4SYS_ARM_CPU)/l4v2
EXT_OBJECTS += -ll4sys
#
# Also include less-specific configuration last
#
include $(call select_from_repositories,mk/spec-32bit.mk)
include $(call select_from_repositories,mk/spec-fiasco.mk)
INC_DIR += $(L4_INC_DIR)

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@ -0,0 +1,25 @@
#
# Specifics for Fiasco L4v2 on x86
#
SPECS += x86_32 fiasco
SPECS += pci ps2 vesa
#
# x86-specific L4v2/sys headers
#
L4_INC_DIR += $(L4_BUILD_DIR)/include/x86/l4v2 \
$(L4_BUILD_DIR)/include/x86
#
# Linker options that are specific for x86
#
LD_TEXT_ADDR ?= 0x01000000
#
# Also include less-specific configuration last
#
include $(call select_from_repositories,mk/spec-x86_32.mk)
include $(call select_from_repositories,mk/spec-fiasco.mk)
INC_DIR += $(L4_INC_DIR)

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@ -0,0 +1,16 @@
#
# Specifics for Freescale i.MX21 platform
#
RAM_BASE = 0xc0000000
#
# Configure target CPU for gcc
#
CC_OPT += -march=armv5
#
# Defines for L4/sys headers
#
CC_OPT += -DCPUTYPE_imx
L4SYS_ARM_CPU = arm_imx

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@ -0,0 +1,14 @@
#
# Specifics for ARM integrator platform
#
#
# Configure target CPU for gcc
#
CC_OPT += -march=armv5
#
# Defines for L4/sys headers
#
CC_OPT += -DCPUTYPE_int
L4SYS_ARM_CPU = arm_int

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