Replaces commands/write. No Minix-specific changes needed.
The NetBSD version lacks a few features that were present
in the Minix version: cbreak mode, verbose, and shell escapes,
but the main write(1) functionality is there and working.
Change-Id: I87b9589c54d3595d26247d221bb3d1f613feeb8c
* Add _SC_LINE_MAX to unistd.h (value of 15 from NetBSD).
* Add _SC_LINE_MAX case to sysconf(3) in libc.
* usr.bin/nl itself required no Minix specific changes.
Change-Id: I10f056ccdf4f212beb1272f735f41303e5036c05
- exclude .git instead of .svn when using local source (-c);
- put the git tag (or "copy") in /etc/version rather than something
outdated related to SVN;
- remove SVN-specific -s flag (suggested by Erik).
Change-Id: Ia35eb95c39ae93ebae5638c9dd7847428593b813
. make filesystems on primary partitions to make it
easier on the minix partition util
. so sfdisk isn't required as an external tool
. also make partition and hitherto x86-only utilities
arch-independent
Change-Id: Ib4e07e45d038d084dde1858917d3deb7f0616532
* Allow to change the timer frequency using the hz paramter.
* Unmask the interrupt only after registering the handler.
* Pass the hz parameter in the command line.
A script that creates a HD image ready to be booted by an x86
emulator, ready to work in a crossbuild environment.
It's really just for qemu/kvm as there's no boot code in
the MBR and no bootloader installed so we rely on the in-kvm
multiboot implementation for now. This is very convenient for
passing args too.
To minimize reliance on external tools, we use the Minix
'partition' utility to write the partition table of the HD
image, which therefore has to be compiled natively.
. new script releasetools/x86_hdimage.sh
. natively compile minix 'partition' utility
. make <machine/partition.h> 64-bit safe for it
Change-Id: If645b4691536752271e0b8a8ed59a34f248dace4
NetBSD provides an in-kernel EDID parser, validator, and printer
along with other useful functions. This code will be re-used by
the Minix fb driver as it is a complete and well tested
implementation.
Change-Id: I46fe3005d9957cd90d4972030ddcce7bc3bd7924
To do so, a few dependencies have been imported:
* external/bsd/lutok
* external/mit/lua
* external/public-domain/sqlite
* external/public-domain/xz
The Kyua framework is the new generation of ATF (Automated Test
Framework), it is composed of:
* external/bsd/atf
* external/bsd/kyua-atf-compat
* external/bsd/kyua-cli
* external/bsd/kyua-tester
* tests
Kyua/ATF being written in C++, it depends on libstdc++ which is
provided by GCC. As this is not part of the sources, Kyua is only
compiled when the native GCC utils are installed.
To install Kyua do the following:
* In a cross-build enviromnent, add the following to the build.sh
commandline: -V MKBINUTILS=yes -V MKGCCCMDS=yes
WARNING:
At this point the import is still experimental, and not supported
on native builds (a.k.a make build).
Change-Id: I26aee23c5bbd2d64adcb7c1beb98fe0d479d7ada
- use the proper make variable to ignore file lists
SLOPPY_FLIST instead of CHECKFLIST, which was a minix hack.
- Add BUILDOPTIONS such that the users can activate optional
features without editing the script.
Change-Id: Id731db96c38c2118c4c58e007f2804008a7a893f
- Enable installing binutils from the base system.
- Import texinfo which is required for the binutils tools
to be compiled.
- Also adapted the fetch rules to correctly generate the
gitignore files for gcc, and allow the case of multiple
modules in the same directory, as found in gnu/dist.
Warning: This patch has an entry in docs/UPDATING
Change-Id: Ib781734e8fd7f9c6265fa65d62ba2cf3fccbc5ba
. to benefit from the contribution found by rjkovacic@gmail.com
in the minix makewhatis and submitted upstream, see NetBSD
PR/47958
Change-Id: I147e1afe0088ab16e7b171f74330d1c6f44a13cf
If present a file called .settings will be sourced when
calling the arm_sdimage.sh script. This allows to configure
the build setting for arm build without the need to specify
the flags each time arm_sdimage.sh is called.
For example to configure arm_sdimage.sh to target the
beaglebone put the following content in your .settings file.
BASE_URL=http://www.minix3.org/arm/beaglebone
FLAG=-DAM335X
CONSOLE=tty00
Change-Id: Ide0341a255bc7f41dc5c30d0a43e71b01a8ea55c
Keep kernel and modules in the first 256MB of memory in preparation
for the beaglebone. That target only has 256 MB of memory.
Change-Id: I3d92247b5d4e5d3aab7388fe01c2f5713d6a4593
We are planning on using the NetBSD config system to perform build
system configuration when targeting different hardware variants.
This functionality however is not integrated yet and we currently
rely on using ifdef's in the code. This commit add the DDM37XX flag.
Change-Id: Ia25dfa520c7df4b648f4d1a583808de774acff63
- Added the possibility to define the number of parallel jobs from the
command line with (example, default is 1):
$ JOBS=8 ./releasetools/arm_sdimage.sh
- Generate filesystem filling the reserved partition area, instead of
being smaller.
- Added a possibility to specify additional parameter to the build.sh
script from the command line with (example):
$ BUILDVARS='-N0 -V MYVAR=yes' ./releasetools/arm_sdimage.sh
Change-Id: I5c34268ebf7d45a8d3408b45b1dc5051d775826c
There where two reasons for needing root access while making ARM builds. The
first reason was that we needed root permissions to create device nodes and
assign permissions to files. The second reason we needed root was that we used
loop mounted files to copy the build output to the file backed storage.
The first problem is solved by building in unprivileged mode (adding -U) during
compilation. The second problem is solved by using mcopy to put files on the
fat partition and use the mkfs.mfs proto files to create MFS file system.
Future work might be to replace this script by the netbsd makefs tool.
Change-Id: Ibba61d4cad053f7c1ede26169d5214065a4939d8
We used to load the memory driver above the other modules to allow
the memory driver (ramdisk) to grow. We no longer want or need this
this as we have a working mmc driver.
* Also cleanup a bit the makefile.
* Also removing small inconsistency for arm builds where log would be
skipped if doing a make hdboot, but not when cross-compiling.
Change-Id: Ic9e20655234a667ea8a967d05589d4df46c2d521
Import the NetBSD rdate command and remove the Minix rdate command.
The default behaviour for both is the same. The NetBSD version adds
options to just display the time, adjust the time using adjtime(),
and set the time without printing the time.
Porting Notes:
- Compiles cleanly out of the box without any warnings
- Path changes from /usr/bin/rdate to /usr/sbin/rdate
- checked pkgsrc for any usages of rdate (none found)
- checked src for any usages of rdate (none found)
Testing:
- all command line options work (tested with time.nist.gov server)
- Native and cross build OK
Change-Id: I613449763891a896527f337999c006a970c3924c
pkgin now depends on pkg_install. If pkg_install appears after pkgin
in PREINSTALLED_PACKAGES, there will be an error because pkg_install
was installed as a dependency for pkgin.
* Use the same output directory as was previously the standard.
* Add copying of uEnv and cmdline to the obj directory to allow booting from tftp.
* No longer start qemu at the end of the process.
* Use sudo if the script was called as non root user.
Change-Id: I53143b1ce6633e764d173c3eb883c2efa3e6a5b7
To use the new SD building script, Linux has to be configured with
loop.max_part=15 on the command line (or set at module load time)
to make the loopback device see the partitions.
This commit removes a lot of differences between the ARM and x86
boot ramdisk and rc scripts. It changes the ARM build from running
from ramdisk to requiring a full filesystem on the SD image and
booting into it.
. ramdisk: remove some arm-only utilities only used for running
from the shell
. remove ARM-only rc.arm, proto.arm.small, ttys and mylogin.sh
boot-time ramdisk files
. change kernel to add "arch" variable so userland knows what
we're running on from sysenv
. make ARM use the regular ramdisk rc file, changed to distinguish
i386-only and ARM-only drivers; requires rootdevname to be set
. change /etc/rc and /usr/etc/rc to start i386-only drivers only on
i386 systems
. change the kernel/arm to have a special case for the memory
driver to load it higher so it can be bigger
. add uEnv.txt, cmdline.txt and a for now highly linux-dependent
SD preparation script arm_sdimage.sh to the git repository in
releasetools/
Change-Id: I68910ba4e96ee80f7a12b65e48b5d39b43ca6397