NetBSD Planet

May 22, 2013

BSD on Google+ BSD news! NetBSD releases - Binary FreeBSD Packages - BSDTalk - DPorts - BSDMag
BSD news!

NetBSD releases - Binary FreeBSD Packages - BSDTalk - DPorts - BSDMag

May 21, 2013

Announcing NetBSD 6.1
The NetBSD Project is pleased to announce NetBSD 6.1, the first feature update of the NetBSD 6 release branch. It represents a selected subset of fixes deemed important for security or stability reasons, as well as new features and enhancements. Please note that all fixes in the prior ...

NetBSD on Google+ BSD Magazine, free May 2013 issue. A free download in PDF format. Issue_contents: *SpiderFoot 2.0...
BSD Magazine, free May 2013 issue.

A free download in PDF format.

Issue_contents:

*SpiderFoot 2.0: The Open Source Footprinting Tool
*FreeBSD Jails Firewall with PF *Improvements to Jail Management via the Warden
*msearch: MidnightBSD Search
*Useful Utilities for PF
*FreeBSD Programming Primer: Write HTML, CSS, PHP, and SQL Code
*DTrace: A Deeper Approach

BSD magazine :: Issues
BSD magazine is a quarterly totally devoted to different distros of BSD. The magazine comes with a DVD with the latest BSD distribution.

May 20, 2013

Hubert Feyrer NetBSD 6.1 and 6.0.2 released
Following NetBSD's release scheme, two new releases are available now. NetBSD 6.1 is the next release from the netbsd-6 release, and it contains security fixes, bug fixes and some new feature. NetBSD 6.0.2 is the second stability update for NetBSD 6.0, and it also contains bugfixes and security fixes, but no new features. See the release map graph on the NetBSD website for a visual representation of the relationship between releases. Major news in 6.1 include:
- Security: prevent kernel panics via userland requests from kqueue, a random number generator update to prevent weak cryptographic keys and a vulnerability in grep.
- Networking: many updates to NetBSD's new packet filter npf, and improved SMP operations.
- Embedded: Raspberry Pi now has working USB and ethernet, support for the watchdog timer in some Marvell SoCs, fixes to the Kirkwood IRQ code
- Platforms: device driver for Hydra and ASDG Zorro2 bus network cards on Amiga, x68k's bootloader can now boot from CD and network, and dtrace support on amd64.
- Drivers: add LSI Thunderbolt (SAS2208) controllers, Apple's Thunderbolt to Gigabit Ethernet adapter, and improve stability with multiple concurrent file system snapshots.
... plus numerous bugfixes. For more details see the release notes of NetBSD 6.1 and NetBSD 6.0.2. NetBSD is a volunteer project ran by a non-profit organization and with no commercial backing. As such, your donations are very important to the project, and can fund developing in various areas, including:
- Improving network stack concurrency and performance.
- Development of modern file systems and improvement of existing ones.
- Features which are useful in embedded environments, such as high resolution timers and execute in place (XIP) support.
- Automatic testing and quality assurance.
For more information about donating, visit http://www.NetBSD.org/donations/ The NetBSD Foundation is a 501(c)(3) organization in the US, and donations may be tax deductible.

May 19, 2013

OS News NetBSD 6.1 released
"The NetBSD Project is pleased to announce NetBSD 6.1, the first feature update of the NetBSD 6 release branch. It represents a selected subset of fixes deemed important for security or stability reasons, as well as new features and enhancements. Please note that all fixes in the prior security/bugfix updates (NetBSD 6.0.1 and 6.0.2) are also in 6.1."

BSD on Google+ NetBSD 6.0.2 and 6.1 released. I'm not familiar with NetBSD release process so I'm not sure what this...

NetBSD 6.0.2 and 6.1 released.

I'm not familiar with NetBSD release process so I'm not sure what this simultaneous release signifies. But for what it's worth, both 6.0.2 and 6.1 were released on May 18th, 2013.

NetBSD: Recent Changes and News
On this page you will find a summary of significant changes to NetBSD. For those interested in every change to the source tree, there is no substitute for subscribing to the source-changes mailing list. Significant news related to the NetBSD Project is also included here.

May 18, 2013

NetBSD Blog NetBSD 6.1 (and 6.0.2!) Released
The NetBSD Project is pleased to announce NetBSD 6.1, the first feature update of the NetBSD 6 release branch. It represents a selected subset of fixes deemed important for security or stability reasons, as well as new features and enhancements.

Simultaneously, the NetBSD Project is pleased to announce NetBSD 6.0.2, the second security/bugfix update of the NetBSD 6.0 release branch. It represents a selected subset of fixes deemed important for security or stability reasons, without new features.

For more details, please see the 6.1 release notes and the 6.0.2 release notes
Complete source and binaries for NetBSD 6.1 and 6.0.2 are available for download at many sites around the world. A list of download sites providing FTP, AnonCVS, SUP, and other services may be found at http://www.NetBSD.org/mirrors/.
BSD Talk bsdtalk226 - FreeBSD and Netflix
Interview during BSDCan 2013 with Scott Long, Alistair Crooks, and David Discher from Netflix. File Info: 11Min, 5MB. Ogg link: http://cis01.uma.edu/~wbackman/bsdtalk/bsdtalk226.ogg
NetBSD.org NetBSD 6.1 Released
NetBSD.org NetBSD 6.0.2 Released

May 17, 2013

NetBSD Blog NetBSD 6.1 Release Candidate 4
The fourth release candidate of NetBSD 6.1 is now available for download at: http://ftp.NetBSD.org/pub/NetBSD/NetBSD-6.1_RC4/. It is expected that this will be the final release candidate, with the official release following very soon.

(Please note that while the third release candidate (RC3) was tagged and built, it was never officially released)

NetBSD 6.1 will be the first feature update for the NetBSD 6 branch. There are many new drivers, some new features, and many bug fixes! Fixes since RC2 include:
- Updated the fix for SA-2013-003 (RNG bug may result in weak cryptographic keys)
- Fixes to npfctl(8) parsing and error handling
- Fix sendto(2) issue with IPv6 UDP datagrams. PR#47408.
- Raspberry Pi: fix handling of large packets in USB host controller
- Fixed an RPC memory corruption issue. PR#13082
- Fixed ACPI issues affecting some AMD systems. PR#47016, PR#47648.
- Change vax MAXPARTITION from 16 to 12, addressing boot issues on some systems
- Bump libpthread minor version to libpthread.so.1.1 for the addition of pthread_cond_setclock() earlier in the 6.1 release cycle; note that this is *NOT* the same as libpthread.so.1.1 in NetBSD-current. (libpthread.so in NetBSD-current is already at version 1.2)
- Provide libc stubs to libpthread, allowing libpthread to be dlopen()ed.
- Fix a userland-triggered panic on x68k systems.
A complete list of changes can be found at:
http://ftp.NetBSD.org/pub/NetBSD/NetBSD-6.1_RC4/CHANGES-6.1

Please help us test this and any upcoming release candidates as much as possible. Remember, any feedback is good feedback. We'd love to hear from you, whether you've got a complaint or a compliment.
BSD Talk bsdtalk225 - PC-BSD with Kris Moore
Interview during BSDCan 2013 with Kris Moore from iXsystems. We talk about some of the new features of PC-BSD. File Info: 12Min, 6MB. Ogg Link http://cis01.uma.edu/~wbackman/bsdtalk/bsdtalk225.ogg

May 15, 2013

Freecode fio 2.1
fio is an I/O tool meant to be used both for benchmark and stress/hardware verification. It has support for 13 different types of I/O engines (sync, mmap, libaio, posixaio, SG v3, splice, null, network, syslet, guasi, solarisaio, and more), I/O priorities (for newer Linux kernels), rate I/O, forked or threaded jobs, and much more. It can work on block devices as well as files. fio accepts job descriptions in a simple-to-understand text format. Several example job files are included. fio displays all sorts of I/O performance information, including complete IO latencies and percentiles. Fio is in wide use in many places, for both benchmarking, QA, and verification purposes. It supports Linux, FreeBSD, NetBSD, OS X, OpenSolaris, AIX, HP-UX, and Windows.
Release Notes: Integration of the gfio GTK frontend. Better Android integration. The initial file fill honors data compression settings. An option for controlling randomness of I/O (percentage_random) instead of being fully random or fully sequential. Fixes a bug in uneven pattern sizes for verification. Various other important fixes.

Tags: Benchmark, Filesystems

Licenses: GPLv2

May 11, 2013

Freecode schily 2013-05-10
The "Schily" Tool Box is a set of tools written or managed by Jörg Schilling. It includes programs like: cdrecord, cdda2wav, readcd, mkisofs, smake, bsh, btcflash, calc, calltree, change, compare, count, cpp (K&R original), devdump, hdump, isodebug, isodump, isoinfo, isovfy, label, mt, p, patch, sccs, scgcheck, scpio, sdd, sfind, sformat, smake, sh (Bourne Shell), star, star_sym, suntar, gnutar, tartest, termcap, and ved.
Release Notes: cdrtools is now at version 3.01a14, and now supports root-less operation on Linux using fcaps. #include file reordering was undertaken to avoid warnings on older platforms. Job processing code was moved from smake/make.c to smake/job.c. A typo in include/schily/stat.h that caused setting of nanoseonds in timestamps to be impossible for NetBSD and OpenBSD was fixed.

Tags: Software Development, Build Tools, Utilities

Licenses: CDDL

May 09, 2013

Emile Heitor NetBSD configuration management

I’ve been obsessed with SaltStack for over a week. This infrastructure management suite is exactly what I needed for both my personal and professional servers: simple but modular, written in python, not depending on a thousand unnecessary complex messaging stacks as it bundles zeromq, capable of both orchestration and configuration management, all this through comprehensive, well documented API and commands.

Only drawback was it had poor NetBSD support. Was :)

It’s been a long time since I’ve dug into python, so it took me a little bit of effort, but Salt now has full support of pkgin in its generic packaging functions, knows how to handle NetBSD services and is capable of dealing with NetBSD‘s sysctl(8) and sysctl.conf.

Those pieces of code have been merged upstream, I hope they’ll be available in version 0.16!

Some examples:

$ cat packages/init.sls 
mypkgs:
  pkg.installed:
    - pkgs:
      - vim
      - tmux
      - bash
      - bash-completion
      - sudo

$ sudo salt '*' state.sls packages
watto:
----------
    State: - pkg
    Name:      mypkgs
    Function:  installed
        Result:    True
        Comment:   All specified packages are already installed.
        Changes:   
korriban:
----------
    State: - pkg
    Name:      mypkgs
    Function:  installed
        Result:    True
        Comment:   All specified packages are already installed.
        Changes:   
tatooine:
----------
    State: - pkg
    Name:      mypkgs
    Function:  installed
        Result:    True
        Comment:   All specified packages are already installed.
        Changes:   
coruscant:
----------
    State: - pkg
    Name:      mypkgs
    Function:  installed
        Result:    True
        Comment:   All specified packages are already installed.
        Changes:   
ragnos:
----------
    State: - pkg
    Name:      mypkgs
    Function:  installed
        Result:    True
        Comment:   All specified packages are already installed.
        Changes:   
exar:
----------
    State: - pkg
    Name:      mypkgs
    Function:  installed
        Result:    True
        Comment:   All specified packages are already installed.
        Changes:

$ sudo salt '*' cmd.run 'uname -a'
tatooine:
    Linux tatooine 3.2.0-4-686-pae #1 SMP Debian 3.2.41-2 i686 GNU/Linux
watto:
    NetBSD watto.home.imil.net 6.1_RC4 NetBSD 6.1_RC4 (GENERIC) i386
exar:
    NetBSD exar 6.0_STABLE NetBSD 6.0_STABLE (EXAR) #0: Sun Nov 25 12:39:12 CET 2012  root@exar:/usr/src/sys/arch/i386/compile/EXAR i386
coruscant:
    NetBSD coruscant 6.0 NetBSD 6.0 (XEN3_DOM0) amd64
korriban:
    NetBSD korriban.imil.net 6.0_STABLE NetBSD 6.0_STABLE (KORRIBAN) #0: Tue Jan  1 23:20:36 CET 2013  [email protected]:/usr/src/sys/arch/amd64/compile/KORRIBAN amd64
ragnos:
    NetBSD ragnos 6.0 NetBSD 6.0 (RAGNOS) #2: Wed Oct 17 11:33:31 CEST 2012  root@ragnos:/usr/src/sys/arch/i386/compile/RAGNOS i386

$ sudo salt '*' pkg.version vim   
watto:
    7.3.762
exar:
    7.3.762
korriban:
    7.3.712
coruscant:
    7.3.762
ragnos:
    7.3.762
tatooine:
    2:7.3.547-7

$ sudo salt '*' service.status sshd
tatooine:
    False
watto:
    True
coruscant:
    True
exar:
    True
korriban:
    True
ragnos:
    True

If you whish to use these modules without tainting your Salt package installation, simply copy them to a _modules directory within the file_roots.

Happy Salting!

The post NetBSD configuration management appeared first on Emile "iMil" Heitor 's home.

May 07, 2013

NetBSD on Google+ No Title

May 06, 2013

NetBSD on Google+ #OpenBSD #NetBSD #DragonFlyBSD

#OpenBSD #NetBSD #DragonFlyBSD

BSD News 05/06/13 | DiscoverBSD
The OpenBSD project today formally released OpenBSD 5.3, the project's 34th release on the steady six monthly release cycle. Notable news in the present release include the a production ready release ...

May 02, 2013

Emile Heitor CPU dynamic scaling on NetBSD
I know about estd for a while, that daemon “dynamically sets the CPU-frequency on Enhanced SpeedStep, PowerNow, and APCI P-States-enabled CPUs depending on current cpu-utilization” (manpage excerpt). Thing is, I’ve never seen any CPU changing from its current speed while monitoring the machdep.powernow.frequency.current sysctl.

In order to understand what was happening, I started estd with the -o flag, which outputs the CPU-frequencies as they are set. I then realized that the “ligh watermark percentage” and “low watermark percentage” default values were way too high (respectively 40 and 80) and were never reached, so the CPU speed was never changed.

With lower values, I was able to see the CPU speed increasing and lowering as expected. So I added the following line to the /etc/rc.conf file:
```
estd_flags="-l 5 -h 15 -a -m 800 -d"
```
meaning that the low watermark is set at 5 and the high watermark at 15, which were the values I’ve considered being the right ones while watching estd -o -a console output.

Since then, whenever a CPU intensive operation occurs, I can see the CPU speed rising with the following conky parameter:
```
CPU Frequency: ${alignr}${exec /sbin/sysctl -n machdep.powernow.frequency.current}
```
The post CPU dynamic scaling on NetBSD appeared first on Emile "iMil" Heitor 's home.

April 28, 2013

BSD on Google+ I've read this a few days ago, but I'm still at a loss why this would be useful. Maybe someone with more...
I've read this a few days ago, but I'm still at a loss why this would be useful. Maybe someone with more knowledge about netbsd could enlighten me.

RT-11 filesystem support for makefs
tech-userlevel archive. [Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index][Old Index]. RT-11 filesystem support for makefs. To: tech-userlevel%netbsd.org@localhost; Subject: RT...

April 23, 2013

NetBSD Blog A Rump Kernel Hypervisor for the Linux Kernel
Ever since I realized that the anykernel was the best way to construct a modern general purpose operating system kernel, I have been performing experiments by running unmodified NetBSD kernel drivers in rump kernels in various environments (nb. here driver does not mean a hardware device driver, but any driver like a file system driver or TCP driver). These experiments have included userspaces of various platforms, binary kernel modules on Linux and others, and compiling kernel drivers to javascript and running them natively in a web browser. I have also claimed that the anykernel allows harnessing drivers from a general purpose OS onto more specialized embedded computing devices which are becoming the new norm. This is an attractive possibility because while writing drivers is easy, making them handle all the abnormal conditions of the real world is a time-consuming process. Since the above-mentioned experiments were done on POSIX platforms (yes, even the javascript one), the experiments did not fully support the claim. The most interesting, decidedly non-POSIX platform I could think of for experimentation was the Linux kernel. Even though it had been several years since I last worked in the Linux kernel, my hypothesis was that it would be easy and fast to get unmodified NetBSD kernel drivers running in the Linux kernel as rump kernels.

A rump kernel runs on top of the rump kernel hypervisor. The hypervisor provides high level interfaces to host features, such as memory allocation and thread creation. In this case, the Linux kernel is the host. In principle, there are three steps in getting a rump kernel to run in a given environment. In reality, I prefer a more iterative approach, but the development can be divided into three steps all the same.
1. implement generic rump kernel hypercalls, such as memory allocation, thread creation and synchronization
2. figure out how to compile and run the rump kernel plus hypervisor in the target environment
3. implement I/O related hypercalls for whatever I/O you plan to do
Getting basic functionality up and running was a relatively straightforward process. The only issue that required some thinking was an application binary interface (ABI) mismatch. I was testing on x86 where Linux kernel ABI uses -mregparm=3, which means that function arguments are passed in registers where possible. NetBSD always passes arguments on the stack. When two ABIs collide, the code may run, but since function arguments passed between the two ABIs result in garbage, eventually an error will be hit perhaps in the form of accessing invalid memory. The C code was easy enough to "fix" by applying the appropriate compiler flags. In addition to C code, a rump kernel uses a handful of assembly routines from NetBSD, mostly pertaining to optimizations (e.g. ffs()), but also to access the atomic memory operations of the platform. After assembly routines had been handled, it was possible to load a Linux kernel module which bootstraps a rump kernel in the Linux kernel and does some file system operations on the fictional kernfs file system. A screenshot of the resulting dmesg output is shown below.

It is one thing to execute a computation and an entirely different thing to perform I/O. To test I/O capabilities, I ran a rump kernel providing a TCP/IP driver inside the Linux kernel. For a networking stack to be able to do anything sensible, the interface layer needs to be able to shuffle packets. The quickest way to implement the hypercalls for packet shuffling was to use the same method as a userspace virtual TCP/IP stack might use: read/write packets using the tap device. Some might say that doing this from inside the kernel is cheating, but given that the alternative was to copypaste the tuntap driver and edit it slightly, I call my approach constructive laziness.

The demo itself opens a TCP socket to port 80 on vger.kernel.org (IP address 0x43b484d1 if you want to be really precise), does a HTTP get for "/" and displays the last 500 bytes of the result. TCP/IP is handled by the rump kernel, not by the Linux kernel. Think of it as the Linux kernel having two alternative TCP/IP stacks. Again, a screenshot of the resulting dmesg is shown below. Note that unlike in the first screenshot, there is no printout for the root file system because the configuration used here does not include any file system support. Yes, you can ping 10.0.2.17.

As hypothesized, a rump kernel hypervisor for the Linux kernel was easy and straightforward to implement. Furthermore, it could be done without making any changes to the existing hypercall interface thereby reinforcing the belief that unmodified NetBSD kernel drivers can run on top of most any embedded firmwares just by implementing a light hypervisor layer.

There were no challenges in the experiment, only annoyances. As Linux does not support rump kernels, I had to revert back to the archaic full OS approach to kernel development. The drawbacks of the full OS approach include for example suffering multi-second reboot cycles during iterative development. The other tangential issue that I spent a disproportionately large amount of time with was thinking about how releasing this code would affect existing NetBSD code due to GPL involvement. My conclusion was that this does not matter since all code used by the current demo is open source anyway, and if someone wants to use my code in a product, it is their problem, not mine.

For people interested in examining the implementation, I put the source code for the hypervisor along with the test code in a git repo here. The repository also contains the demos linked from this article. The NetBSD kernel drivers I used are available from ftp.netbsd.org or by getting buildrump.sh and running ./buildrump.sh checkout.
Freecode cdrtools 3.01a14
cdrtools (formerly cdrecord) creates home-burned CDs/DVDs with a CDR/CDRW/DVD/BluRay recorder. It works as a burn engine for several applications. It supports CD/DVD/BD recorders from many different vendors; all SCSI-3/mmc- and ATAPI/mmc-compliant drives should also work. Supported features include IDE/ATAPI, parallel port, and SCSI drives; audio CDs, data CDs, and mixed CDs; full multi-session support; CD-RWs, DVD-R/-RW, DVD+R/+RW, BD-R/BD-RE; and TAO, DAO, RAW, and human-readable error messages. cdrtools includes remote SCSI support and can access local or remote CD/DVD/BD writers.
Release Notes: A typo in include/schily/stat.h related to nanosecond handling on NetBSD and OpenBSD was fixed. suid-root-less installation is now supported on Linux using fcaps (generally available since Linux 2.6.24). -new-dir-mode in mkisofs now just supersedes the effect of -dir-mode on directories that have been "invented" by mkisofs.

Tags: Software Distribution, Archiving, multimedia, Sound/Audio, CD Audio, CD Writing, CD Ripping, Boot

Licenses: CDDL

April 21, 2013

Emile Heitor pkgsrc and github archives
I recently switched pkgin‘s repository from SourceForge‘s CVS to GitHub. Long story short, I heard here and there that SF was considering to drop CVS support and I found GitHub service to be more responsive and elegant. Also, I was looking for an excuse to learn git :)

Anyway, GitHub interface may be sexy, they used to have some kind of “upload” section which has been dropped. That may sound like a simple story, but the fact is when it comes to packaging a GitHub-hosted application, things are not that simple when the author has not explicitly tagged a specific release. Another use case, in which I actually am, is when you have an ongoing development, like pkgin in pkgsrc WIP and do not want to tag every test-release.

The way I found to handle that case with pkgsrc is to use GitHub’s commit archives. In short, I will use that kind of URL:
```
https://github.com/NetBSDfr/pkgin/archive/34b823c158e62e4d347de74499a075a2259382c5.tar.gz
```
which is redirected like this by GitHub:
```
HTTP/1.1 302 Found
Server: GitHub.com
Date: Sun, 21 Apr 2013 21:05:17 GMT
Content-Type: text/html; charset=utf-8
Connection: keep-alive
Status: 302 Found
Cache-Control: max-age=0, private
Strict-Transport-Security: max-age=2592000
X-Frame-Options: deny
Set-Cookie: logged_in=no; domain=.github.com; path=/; expires=Thu, 21-Apr-2033 21:05:17 GMT; HttpOnly
Location: https://nodeload.github.com/NetBSDfr/pkgin/tar.gz/34b823c158e62e4d347de74499a075a2259382c5
X-Runtime: 13
Content-Length: 156
Vary: Accept-Encoding

HTTP/1.1 200 OK
Server: GitHub.com
Date: Sun, 21 Apr 2013 21:05:18 GMT
Content-Type: application/x-gzip
Connection: keep-alive
Content-Length: 187510
Content-Disposition: attachment; filename=pkgin-34b823c158e62e4d347de74499a075a2259382c5.tar.gz
Vary: Accept-Encoding
```
and permits to point to a particular commit, no matter if it has been tagged or not.

A typical pkgsrc Makefile will look like this:
```
VERSION=                34b823c158e62e4d347de74499a075a2259382c5
DISTNAME=               ${VERSION}
PKGNAME=                pkgin-20130412
CATEGORIES=             pkgtools
MASTER_SITES=           https://github.com/NetBSDfr/pkgin/archive/
FETCH_USING=            curl

# [...]

WRKSRC=                 ${WRKDIR}/pkgin-${VERSION}

# [...]
```
Note that FETCH_USING= curl is mandatory here in order to follow redirect codes along with https.

There you go, happy GitHub packaging!

Update

Here’s another approach pointed out by Amitai Schlair (schmonz@):
```
GIT_COMMIT=	dd51ac5

DISTNAME=	${GIT_COMMIT}
PKGNAME=	p5-App-Prove-Plugin-ProgressBar-0.01
CATEGORIES=	devel perl5
MASTER_SITES=	-http://nodeload.github.com/Ovid/App-Prove-Plugin-ProgressBar/tar.gz/${GIT_COMMIT}

# [...]

WRKSRC=		${WRKDIR}/App-Prove-Plugin-ProgressBar-${GIT_COMMIT}
```
Here, Amitai doesn’t use HTTPS so specifying curl as the fetch method is not mandatory. The dash before the URL in the MASTER_SITES line means that DISTNAME will not be appended when fetching, which is very handy when it comes to GitHub archives.

The post pkgsrc and github archives appeared first on Emile "iMil" Heitor 's home.

April 15, 2013

Freecode quagga 0.99.22.1
Quagga is a routing software suite, providing implementations of OSPFv2, OSPFv3, RIPv1 and v2, RIPng, IS-IS, and BGP4+ for Unix platforms, particularly FreeBSD, Linux, and NetBSD.
Release Notes: This is a stable release, addressing some small issues (no security impact) with 0.99.22. The primary change is a fix to an ospfd issue that has a relatively strong impact, as in 0.99.22 all AS-External routes with a forwarding address are broken when used on point-to-point links. Users of ospfd are therefore strongly urged to update.

Release Tags: stable minor

Tags: Networking, Routing

Licenses: GPLv2

April 11, 2013

BSD Talk bsdtalk224 - Marshall Kirk McKusick and George Neville-Neil
In interview with Marshall Kirk McKusick and George Neville-Neil about the FreeBSD Foundation. More information at http://www.freebsdfoundation.org/ File Info: 34Min, 16MB. Ogg link: http://cis01.uma.edu/~wbackman/bsdtalk/bsdtalk224.ogg Ending audio is the opening to "Carp License" from the OpenBSD 3.5 release.

April 09, 2013

Hubert Feyrer NetBSD is part of Google's Summer of Code 2013
News is out that NetBSD is part of Google's Summer of Code 2013 (GSoC) again. GSoC is about students doing work for Open Source projects over the summer, and getting paid while doing so. By Google. For projects proposed by both students and the Open Source projects.
Click on the above link for more information on GSoC in general, there is also a list of proposed projects for this year in NetBSD.
Next steps are:
April 9 - 21: Would-be student participants discuss application ideas with mentoring organizations.
April 22, 19:00 UTC: Student application period opens.
May 3, 19:00 UTC: Student application deadline.
Interim Period: Mentoring organizations review and rank student proposals; where necessary, mentoring organizations may request further proposal detail from the student applicant.
May 6: Mentoring organizations should have requested slots via their profile in Melange by this point.
May 8: Slot allocations published to mentoring organizations From there, students work on their projects with the help of their mentors. There's a "midterm" report due with a first part of the money paid, the rest is paid if the project is finished successfully.
During the project, students are encouraged to publish news about their process to the world in blogs and other ways found appropriate by their mentoring organizations.
Past NetBSD projects can be found on SourceForce.
Interested? Act now!

April 08, 2013

Freecode fio 2.0.15
fio is an I/O tool meant to be used both for benchmark and stress/hardware verification. It has support for 13 different types of I/O engines (sync, mmap, libaio, posixaio, SG v3, splice, null, network, syslet, guasi, solarisaio, and more), I/O priorities (for newer Linux kernels), rate I/O, forked or threaded jobs, and much more. It can work on block devices as well as files. fio accepts job descriptions in a simple-to-understand text format. Several example job files are included. fio displays all sorts of I/O performance information, including complete IO latencies and percentiles. Fio is in wide use in many places, for both benchmarking, QA, and verification purposes. It supports Linux, FreeBSD, NetBSD, OS X, OpenSolaris, AIX, HP-UX, and Windows.
Release Notes: This release adds an --eta-newline option to insert ETA new line at fixed intervals. Fixes for the CPU clock, notably PPC. Fixes for workloads with read/write file locking. A fix for skewed latencies with rated IOPS. Fixes a bug with block sizes varying more than 64x. Improves the LFSR implementation. Fixes missing JSON bandwidth output. Various fixes for the Android platform. Uses ginstall on Solaris. Fixes man page installation. Other bugfixes and improvements.

Tags: Benchmark, Filesystems

Licenses: GPLv2

April 05, 2013

Amitai Schlair pkgsrcCon 2013: Rehabilitating pkglint
Schmonzcast #14: Last week I returned from Berlin, where I gave a talk at pkgsrcCon 2013. As a pkgsrc developer since 2002, and a member of its steering committee since 2005, I’ve attended every pkgsrcCon but one (Paris 2006, as the spring semester of my freshman year at Columbia was ending). pkgsrcCon is a self-organized, purpose-specific conference for people interested in pkgsrc; it’s short, sweet, and low-key; and thus far it’s always been held in a European city well worth visiting. At this year’s conference I spoke about applying ‘Test-Eventually Development’ to pkglint (a tool for package maintainers), and how all of us volunteer developers ought to team up to slowly but surely apply the same techniques to pkgsrc’s unique and valuable internals. Even if you don’t know much about pkgsrc, a passing familiarity with TDD suffices to follow my line of reasoning. And if you know and love pkgsrc, we’d love to have your help.

March 30, 2013

Emile Heitor GLMF 159
Il est là, il est chaud, et il contient deux articles de mon cru:
- 3NMP: NetBSD, Nginx, Naxsi, MySQL, PHP
- Nouvelles commandes et nouveaux démons dans NetBSD 6.0
Enjoy!

The post GLMF 159 appeared first on Emile "iMil" Heitor 's home.

March 29, 2013

NetBSD.org Updated Security Advisory: NetBSD-SA2013-003 RNG Bug May Result in Weak Cryptographic Keys (REVISED)

March 26, 2013

NetBSD on Google+ This has been known about for a month but it looks like El Reg just got hold of it.
This has been known about for a month but it looks like El Reg just got hold of it.

Whoops! Tiny bug in NetBSD 6.0 code ruins SSH crypto keys • The Register
The brains behind NetBSD have warned a bug in the open-source OS creates weak cryptographic keys that can be cracked by attackers. Users attempting to secure sensitive communications, such as SSH term...

March 24, 2013

Hubert Feyrer Ansible & EC2 - Playbooks for orchestrating NetBSD into the cloud
As follower of my blog you have seen the steps towards getting NetBSD instances started in Amazon's EC2 cloud with a simple web application deployed on one EC2 instance and the database on another one.
These blog articles were very detailed on purpose, to have full logfiles available just in case needed. I have used these logs to prepare my pkgsrcCon 2013 talk about Ansible and Amazon's EC2, so things can be looked at without actually running anything. As it turns out this was good, because the 32bit NetBSD instances that I've used during my pkgsrcCon demonstration actually decided to do a kernel panic, and the presentation was a bit more on the theoretical side than I originally planned.
Now after pkgsrcCon is over, I would like to publish the presentation slides with all the details, and especially the playbooks and all other files to look at - enjoy!

March 23, 2013

NetBSD Blog pointers to rpi docs 2013Q1
We get a lot of comments asking for tips on using the raspberry pi so I thought I would point out some docs:
evbarm/rpi wiki docs
An example of the rpi.img can be found here:
http://nyftp.netbsd.org/pub/NetBSD-daily/HEAD/201303221130Z/evbarm/binary/gzimg/ notice the HEAD (NetBSD -current), datestamp, arch path for future reference

There are also some concerns about building a kernel/img on your own.
building NetBSD
build.sh is one of the best features of NetBSD. You can cross compile from almost any other unix-like system with very little difficulty.

March 21, 2013

Hubert Feyrer Ansible, EC2 and NetBSD final milestone 4 reached: Web and DB on separate VMs in the cloud

In the fourth and last step on my journey to use Ansible to bring a non-trivial system of a Web server and a DB server into Amazon's EC2 cloud, this is the final step. After starting out with a local VMware VM and making first steps with Ansible and EC2, the previous step was to push a single system into the cloud. Now, the final step is to setup two distinct VMs, one for the database and one for the webserver, and then make them known to each other.

The single steps are:

Prepare the two VMs
Basic setup for all systems
Install the database server
Install the webserver
Connect database and webserver

Again, here are all the steps in detail:

As before, ensure local time is correct when talking to Amazon, and also make sure the SSH agent has the proper key loaded.

% date
Thu Mar 21 00:45:37 CET 2013
% ssh-add -l
2048 d5:25:19:3d:59:40:35:32:03:f7:c5:83:de:19:b6:d0 ../../euca2ools/key-eucaHF.pem (RSA)

Make sure security groups are setup properly. We use one group for the database server, and one for the webserver. This defines the access permissions from the internet, and also allows to identify systems for their individual configuration and also for connecting them in the final step:

% euca-describe-groups
...
GROUP   sg-ae54b3c5     749335780469    ec2-dbservers   Database servers
PERMISSION      749335780469    ec2-dbservers   ALLOWS  tcp     22      22      FROM    CIDR    0.0.0.0/0
PERMISSION      749335780469    ec2-dbservers   ALLOWS  tcp     3306    3306    FROM    CIDR    0.0.0.0/0
PERMISSION      749335780469    ec2-dbservers   ALLOWS  icmp    -1      -1      FROM    CIDR    0.0.0.0/0
GROUP   sg-a854b3c3     749335780469    ec2-webservers  Web servers
PERMISSION      749335780469    ec2-webservers  ALLOWS  tcp     22      22      FROM    CIDR    0.0.0.0/0
PERMISSION      749335780469    ec2-webservers  ALLOWS  tcp     80      80      FROM    CIDR    0.0.0.0/0
PERMISSION      749335780469    ec2-webservers  ALLOWS  icmp    -1      -1      FROM    CIDR    0.0.0.0/0

Now, run our playbook to setup the two VMs. This uses the single playbook from the previous milestone, and just runs it twice with different security groups:

% ansible-playbook -i hosts-HF config-ec2-prepare-db+web-vm.yml

PLAY [localhost] ********************* 

TASK: [ec2-webservers | Launch new EC2 instance] ********************* 
changed: [127.0.0.1]

TASK: [ec2-webservers | Give the system 30 seconds to boot up] ********************* 
changed: [127.0.0.1]

TASK: [ec2-webservers | Get rid of SSH "Are you sure you want to continue connecting (yes/no)?" query] ********************* 
changed: [127.0.0.1]

TASK: [ec2-webservers | Fix /usr/bootstrap.sh to run pkgin with -y] ********************* 
changed: [127.0.0.1] => (item={'cmd': 'install /usr/bootstrap.sh /usr/bootstrap.sh.orig'})
changed: [127.0.0.1] => (item={'cmd': 'chmod +w /usr/bootstrap.sh'})
changed: [127.0.0.1] => (item={'cmd': 'sed "s,bin/pkgin update,bin/pkgin -y update," /usr/bootstrap.sh'})
changed: [127.0.0.1] => (item={'cmd': 'chmod -w /usr/bootstrap.sh'})

TASK: [ec2-webservers | Install pkgin via /usr/bootstrap.sh] ********************* 
changed: [127.0.0.1] => (item={'cmd': u'env PATH=/usr/sbin:${PATH} /usr/bootstrap.sh binpkg'})

TASK: [ec2-webservers | Copy over Ansible binary package] ********************* 
changed: [127.0.0.1]

TASK: [ec2-webservers | Install Ansible dependencies] ********************* 
changed: [127.0.0.1]

TASK: [ec2-webservers | Install Ansible package (manually)] ********************* 
changed: [127.0.0.1]

TASK: [ec2-webservers | Setup lame /usr/bin/python symlink] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Launch new EC2 instance] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Give the system 30 seconds to boot up] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Get rid of SSH "Are you sure you want to continue connecting (yes/no)?" query] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Fix /usr/bootstrap.sh to run pkgin with -y] ********************* 
changed: [127.0.0.1] => (item={'cmd': 'install /usr/bootstrap.sh /usr/bootstrap.sh.orig'})
changed: [127.0.0.1] => (item={'cmd': 'chmod +w /usr/bootstrap.sh'})
changed: [127.0.0.1] => (item={'cmd': 'sed "s,bin/pkgin update,bin/pkgin -y update," /usr/bootstrap.sh'})
changed: [127.0.0.1] => (item={'cmd': 'chmod -w /usr/bootstrap.sh'})

TASK: [ec2-dbservers | Install pkgin via /usr/bootstrap.sh] ********************* 
changed: [127.0.0.1] => (item={'cmd': u'env PATH=/usr/sbin:${PATH} /usr/bootstrap.sh binpkg'})

TASK: [ec2-dbservers | Copy over Ansible binary package] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Install Ansible dependencies] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Install Ansible package (manually)] ********************* 
changed: [127.0.0.1]

TASK: [ec2-dbservers | Setup lame /usr/bin/python symlink] ********************* 
changed: [127.0.0.1]

PLAY RECAP ********************* 
127.0.0.1                      : ok=18   changed=18   unreachable=0    failed=0

Just to make sure, check that the two instances run properly, and are in the right security groups, ec2-webservers and ec2-dbservers:

% euca-describe-instances
RESERVATION     r-a419f9d9      749335780469    ec2-webservers
INSTANCE        i-21b7c441      ami-5d0f8034    ...
RESERVATION     r-641efe19      749335780469    ec2-dbservers
INSTANCE        i-54a2ab3e      ami-5d0f8034    ...

Next, bring the two freshly setup systems (which are already capable of acting as ansible targets) up to our basic system setup:

% env ANSIBLE_HOSTS=./ec2.py ansible-playbook config-ec2-basic.yml

PLAY [security_group_ec2-webservers;security_group_ec2-dbservers] ********************* 

TASK: [ping] ********************* 
ok: [ec2-54-235-44-118.compute-1.amazonaws.com]
ok: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Install tcsh] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Add user feyrer] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Create ~feyrer/.ssh directory] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Enable ssh login with ssh-key] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Install sudo] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Enable PW-less sudo-access for everyone in group 'wheel'] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Disable ssh logins as root] ********************* 
ok: [ec2-54-235-44-118.compute-1.amazonaws.com]
ok: [ec2-54-234-139-151.compute-1.amazonaws.com]

PLAY RECAP ********************* 
ec2-54-234-139-151.compute-1.amazonaws.com : ok=8    changed=6    unreachable=0    failed=0    
ec2-54-235-44-118.compute-1.amazonaws.com : ok=8    changed=6    unreachable=0    failed=0

Check:

% ssh ec2-54-234-139-151.compute-1.amazonaws.com id
uid=1000(feyrer) gid=100(users) groups=100(users),0(wheel)
% 
% ssh ec2-54-235-44-118.compute-1.amazonaws.com id
uid=1000(feyrer) gid=100(users) groups=100(users),0(wheel)

Now that the two machines run with our basline configuration, install their individual software and settings. First the database server:

% env ANSIBLE_HOSTS=./ec2.py ansible-playbook config-ec2-dbserver.yml

PLAY [security_group_ec2-dbservers] ********************* 

TASK: [Install mysql] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Install MySQL rc.d script] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Start MySQL service] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Install python-mysqldb (for mysql_user module)] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Setup DB] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Add db-user] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Copy over DB template] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Import DB data] ********************* 
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

PLAY RECAP ********************* 
ec2-54-235-44-118.compute-1.amazonaws.com : ok=8    changed=8    unreachable=0    failed=0    

 Check and see if the database works as expected:
% ssh -t ec2-54-235-44-118.compute-1.amazonaws.com mysql -u webapp -p webapp
Enter password: ****
...
mysql> show tables;
+------------------+
| Tables_in_webapp |
+------------------+
| names            |
+------------------+
1 row in set (0.01 sec)

mysql> select * from names;
+----+--------+------+
| id | first  | last |
+----+--------+------+
|  1 | Donald | Duck |
|  2 | Daisy  | Duck |
+----+--------+------+
2 rows in set (0.00 sec)

mysql> bye


 Excellent. Now setup the webserver, too:
  
% env ANSIBLE_HOSTS=./ec2.py ansible-playbook config-ec2-webserver.yml

PLAY [security_group_ec2-webservers] ********************* 

TASK: [Installing ap24-php53 package and dependencies] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Install Apache rc.d script] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Enable and start Apache service] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Enable PHP in Apache config file] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': 'LoadModule.*mod_php5.so', 'l': 'LoadModule php5_module lib/httpd/mod_php5.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': 'AddHandler.*x-httpd-php', 'l': 'AddHandler application/x-httpd-php .php'})

TASK: [Make Apache read index.php] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Add simple PHP test - see http://10.0.0.181/phptest.php] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Install phpmyadmin] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Enable phpmyadmin in Apache config] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Fix Apache access control for phpmyadmin] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Enable PHP modules in PHP config file] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*zlib.so', 'l': 'extension=zlib.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*zip.so', 'l': 'extension=zip.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*mysqli.so', 'l': 'extension=mysqli.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*mysql.so', 'l': 'extension=mysql.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*mcrypt.so', 'l': 'extension=mcrypt.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*mbstring.so', 'l': 'extension=mbstring.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*json.so', 'l': 'extension=json.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*gd.so', 'l': 'extension=gd.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*gettext.so', 'l': 'extension=gettext.so'})
changed: [ec2-54-234-139-151.compute-1.amazonaws.com] => (item={'re': '^extension.*bz2.so', 'l': 'extension=bz2.so'})

TASK: [Create directory for webapp] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Deploy example webapp] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

TASK: [Create webapp symlink for easy access] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

NOTIFIED: [restart apache] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]

PLAY RECAP ********************* 
ec2-54-234-139-151.compute-1.amazonaws.com : ok=14   changed=14   unreachable=0    failed=0    


 Again, test:
% links -dump ec2-54-234-139-151.compute-1.amazonaws.com/
                                   It works!
%
% links -dump http://ec2-54-234-139-151.compute-1.amazonaws.com/phptest.php | head
   PHP Logo                                                                   
                                                                              
                               PHP Version 5.3.17                             

   System          NetBSD ip-10-80-61-33.ec2.internal 6.0.1 NetBSD 6.0.1      
                   (XEN3PAE_DOMU) i386                                        
   Build Date      Dec 14 2012 10:31:13                                       
                   './configure' '--with-config-file-path=/usr/pkg/etc'       
                   '--with-config-file-scan-dir=/usr/pkg/etc/php.d'           
                   '--sysconfdir=/usr/pkg/etc' '--localstatedir=/var'         
% 
% links -dump http://ec2-54-234-139-151.compute-1.amazonaws.com/webapp/
   Showing table hf.names:

   Cannot connect to database: Can't connect to local MySQL server through
   socket '/tmp/mysql.sock' (2)(2002)


 Close to optimum, but the last error is actually expectet: In
  order for proper operation, the Database needs to grant the
  webserver access, and the web server needs to know where the
  database server is. So let's connect them!
  

  This step is done by preparing a shell script on both systems, which
  will then be ran to  - depending on the system's security group - perform the
  proper steps:
% env ANSIBLE_HOSTS=./ec2.py ansible-playbook config-ec2-connections.yml

PLAY [security_group_ec2-webservers;security_group_ec2-dbservers] ********************* 

TASK: [Collect EC2 host information] ********************* 
ok: [ec2-54-234-139-151.compute-1.amazonaws.com]
ok: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Prepare connection-script in /tmp/do-connect-vms.sh] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

TASK: [Run connection-script] ********************* 
changed: [ec2-54-234-139-151.compute-1.amazonaws.com]
changed: [ec2-54-235-44-118.compute-1.amazonaws.com]

PLAY RECAP ********************* 
ec2-54-234-139-151.compute-1.amazonaws.com : ok=3    changed=2    unreachable=0    failed=0    
ec2-54-235-44-118.compute-1.amazonaws.com : ok=3    changed=2    unreachable=0    failed=0    


 With that final step, our test web application works, and the
  webserver can access the database properly:
% links -dump http://ec2-54-234-139-151.compute-1.amazonaws.com/webapp/
   Showing table hf.names:

   +--------------------+
   | id | first  | last |
   |----+--------+------|
   | 1  | Donald | Duck |
   |----+--------+------|
   | 2  | Daisy  | Duck |
   +--------------------+

     ----------------------------------------------------------------------

   Enter new values:

   first:     _____________________ 
   last:      _____________________ 
   [ Submit ]

So much for this exercise. I'll talk about the ansible and euca2ools packages at pkgsrcCon 2013 in Berlin. Join in if you're curious about what the actual playbooks used in the above examples look like, or stay tuned to find my presentation and all the data after pkgsrcCon 2013.

Hubert Feyrer Happy 20th Birthday, NetBSD! (Update)
20 years back from today, NetBSD was initially checked into CVS. Revision 1.1 of src/Makefile was committed on March 21st 1993 on 09:45:37 by Chris Demetriou (cgd@):
```
% cvs log -Nr1.1 Makefile
...
revision 1.1
date: 1993/03/21 09:45:37;  author: cgd;  state: Exp;
branches:  1.1.1;
Initial revision 
```
NetBSD was started as successor to the Berkeley System Distribution (BSD) Unix with a focus on multiplatform support.
Personally, I've followed NetBSD since the day in 1993 when the Amiga port popped up, which was the first platform that the newly forked operating system was ported to after its separation from BSD.
Many things have happened in the past 20 years, and a lot could be shown and told for the history books at this point. But I guess that can be done later - I'd be happy to help out with such a project if someone wants to start it, though :)
For today I'm very happy that NetBSD is available on a wide range on platforms, runs the software that I want and gives me the assurrance it will be around tomorrow and hopefully for the next 20 years, too.
Cheers, NetBSD!
Update: Jeremy Reed pointed me at his BSDnewletter posting, which gives a number of details of NetBSD's history. Recommended reading!
NetBSD.org NetBSD is 20 years old today!

March 19, 2013

SP Zeidler attending AsiaBSDcon - a first time visit to Tokyo, and Japan
I live in the commuting zone of Munich, Germany.
I have just returned from a trip to Tokyo to speak at AsiaBSDcon.
This text is supposed to serve both as a reminder for me for next year (if I can find a topic I'll definitely submit a talk again) and for other first-time visitors.

Travel

The trip out was also my first long-distance flight, and in the case of Munich-Tokyo, non-stop means a 12 hour flight.
- Do not get onto such a flight straight from work after a full work day. At least find a shower at the airport and do a change of clothes before boarding the plane.
- A flight with a stop-over may actually be more pleasant, if longer in total.
- Check in early online and pick an aisle seat, preferably one where you can stretch your legs a bit too (advice void where you don't fly Economy on the cheapest ticket you could get, as you should on the conference's money. Also, the experience for thin-and-short people may differ - I'm 1.72m and rather wide).
- Be able to shed clothes to fit the "max" temperature forecast for Tokyo - you'll be dragging luggage around, that's plenty of exercise to keep you warm. Expect Tokyo to be at least 10 degrees warmer than Munich.
  Do the same for the trip back: I left a sunny Tokyo with what for me is t-shirt temperature (the locals disagreed), and was welcomed back by Munich airport with 4° C and sleet, which had turned to below 0° C and snowing at my home train station.
- For me only, likely: get a larger suitcase. Sticking to cabin luggage size doesn't make sense if you are checking it in anyway. Forget about returning with less stuff than you brought.
- Jetlag: There's a 9 hour time difference Munich to Tokyo. The advice I got worked for me, I got over it in a day (where I'd expect a day of recovery for a trip like that even without time zone changes): keep awake until local early bedtime and then get up at normal local time, and go outside for a walk, thus using daylight to reset the clock. This was helped a lot by the weather being nice to me, and not presenting me with worse than a light drizzle over the whole stay (predominantly sunny, even).
- Given that I didn't need two days downtime to cope with jetlag, I could have flown out on Wednesday as well. The Tuesday ticket was ~100 Euro cheaper, if the conference paid list price at the hotel picking the shorter stay would have been more economical in total.
- Getting a Suica/N'ex ticket, and thus the Suica card at Tokyo airport was a very good recommendation by the conference organizers (thanks). Expect to stand in line at the ticket office for a while, and then to have to leave for the next train immediately so you catch the train you have a ticket for. If you fly out from Tokyo within 10 days of arrival, you can get a round trip card for the Narita Express, directly.
- Public transport within Tokyo is dirt cheap, compared to Munich. Putting about 20 Euro on the card (2000 Yen in addition to the initial charge) was way overblown.
- There seem to be at least 3 routes to just about any point you want to get to on the public transport system. A warning: having a station near won't mean you won't walk a lot, some stations' exits are so far apart that they would be distinct stops in inner Munich. Lines are coded by color and a latin letter, and the metro uses the next stop as a direction indicator. There are a lot of English labelled directions around. I picked going to Akihabara and to Ikebukuro for short directed shopping raids on my own, and got around ok, if not exactly on the routes I had planned beforehand and as short as I had expected.
- The stations for the speaker hotel (Villa Fontaine Kudanshita) were/are Jimbocho (around the corner, closest entry, longest walking around underground, long staircase with no escalator at the exit), Suidobashi (in my experience, most pleasant to use) and Kudanshita.
- The station for the venue is Iidabashi south-west end (that's one of the two-stop stations), but from the speaker hotel it's a rather pleasant walk mostly along little streets not noticeably longer than getting to and from the stations.
- Budgeting a daily allowance for food: I had heard that Tokyo was very expensive, so expected around 100 Euro a day. This is seriously off on the high end, very nice (and plentiful) dinners were 20-30 Euro/person. Also, during the conference proper, if you attend the social, lunch and dinner are covered - there's basically no time to spend money, except if you go to a bar after dinner.
- For the trip home, time-budget the Narita Express to not be running due to weather conditions. The ordinary express train to the airport leaves from the same platform and will accept a ticket for a cancelled Narita Express, but will take closer to 1:45 for the trip due to more frequent stops and will start at a time offset, obviously. I had planned to be at the airport two and a half hours before boarding time to make sure I didn't miss my plane due to train delays, and just made still acceptable baggage drop and pass-the-controls time; since my gate was at the tip of the terminal, I didn't get to sit down to wait for boarding - shaving it a bit close for my taste.
Tokyo: Observations and Experiences

Visiting a city where you are effectively illiterate and don't speak a word of the language, plus manners and body language are different is an intimidating idea. Fortunately for me, Tokyo is pretty accommodating to visitors who (only) read Latin script and speak English, and while I would not expect to be able to make best possible time between two random points of the Tokyo subway map, I am now confident that I would be able to get from point A to B whatever they are (especially: to get to the hotel or venue) with a bit of extra time and wandering around to find something labelled in English, with zero preparation whatsoever.
Crowds in Tokyo seem to be amazingly pulsed. For me respectively in my experience, body language is off enough to make the automatic evasion algorithms fail, i.e. when I walked through an oncoming crowd I evaded to the same side as the person coming towards me frequently, whereas "at home" this barely ever happens without me even taking notice. Fortunately, when I am in a touristy setting I can just step aside and let the wave pass, and not be a mobile source of turbulence in the flow. When in a hurry, picking a person going the same way and trailing them like a duckling works pretty well - same, obviously, when following a guide. :)
Japan drives on the left side of the street. On escalators, stand on the left.
Mind the 110V line voltage. Get an adapter for a two-pronged socket, there may not be any three-pronged sockets in the hotel room.
Pedestrian traffic lights for street crossings of one or two lanes in total seem to be considered purely advisory by the locals; I picked up their cues (check and cross if there's no cars) without ill effect.
Car drivers seem to be very aware and considerate of pedestrians. A pedestrian giving up right of way for a car that's starving at a crossing seems to be unexpected, just slowing down noticeably and nodding at the driver doesn't seem enough cue.
Street population density, in general: walking around in Akihabara on a Saturday afternoon was about on par with walking between Stachus and Marienplatz off the touristy seasons on a Saturday afternoon, full but not reaching annoying levels, same with Ikebukuro on a Friday afternoon.
Another strong (and pretty immediate) impression I got is that Tokyo is what you get if you take an ordinary large city, and then compress it by a factor of four, while keeping the width of the thoroughfares. Then set another city next to it, repeat a few times.
Some of that compression is achieved by making buildings higher. Also, there are shops on other levels than the ground floor in places that are not something like malls.
Attention, weird people crossing? less goths or punks, instead people (well, women and girls) in neon-colored tulle or furs. About as many women in kimono (I did not notice any men in traditional garb) as you'd expect women in Dirndl in Munich outside of Oktoberfest season; I was told that it was a graduation day for students and that was celebration finery.
Less women in sensible shoes, instead pumps or sneakers (and the latter obviously not to business clothes). Walking in very small steps seems to be considered feminine and some execute it even if not forced by a ridiculously tight skirt.
The canonic length of skirt seems to be "a bit shorter than the hollow of the knee", which makes sense if you see how women sit (when not on chairs). Generally, sitting .. I was taught as a girl to not sit on the floor, it's bad for you (more likelihood of bladder infections for females), it's just not being done. Obviously, in Japan one does sit on the floor (inside, on a cushion, but still). Also, my jeans (any of them) turned out rather not fit to fold up my legs at a significantly acute angle, with the result that when I tried to sit at table, my feet went to sleep in turns due to lack of circulation. If going out to dinner with Japanese hosts, it seems a good idea to either warn them that you have issues sitting down on a cushion (the variant with the hollow under the table obviously just requires being able to get down on the floor, only a potential problem for the elderly or infirm, or seriously tight jeans), or get distinctly wider trousers or a skirt. Not going to wear such a short one though. :)
I've loved most of the Japanese food I got around to trying, yet. I've cheated and been eating at Sushi restaurants most work Fridays for a while, so I can handle chopsticks adequately well. I can imagine learning Japanese to the skill level I have for French: say good morning, good night, please and thank you, and everything that is likely to appear on a menu. Due to the remarkable (and very practical) drinks ordering system, being able to read the words for water, apple juice and grapefruit juice as well as cold tea would be very useful. And I didn't even get around to eating a bowl of soup with udon (which is one of my favorite dishes at home).
Akihabara (if you get out on the right end of the station and actually find the right area) is lots of little shops with electronics, many of them featuring used goods. About Schillerstrasse times ten. From my by necessity cursory inspection, the selection of actual electronics by and large is about the same as available in Munich; the selection of accessories is huge, variable, and including the utterly ridiculous. :) Definitely a sight to see. I got myself a mouse pad with a glittering-big-cat-spots pattern as a souvenir.
Also, prices for a lot of stuff are surprisingly cheap. Others, quite the opposite.
My excursion to Ikebukuro was to buy a toy or two to bring for my cats. I get the distinct impression that keeping a cat (or two) in Tokyo is a luxury not afforded by many (in Germany, a fifth of the households has cats). I picked toys and snacks not available at home (that being the point), and the shiny-bug-on-a-glass-fiber-spring toy is very successful and making even the old cat jump around like a kitten. :) I'd expect a similar item to be half the price in Munich, though, and I went to a department store with a pet section; there seem to be more boutiques selling art with cats on it (if such a shop exists in Munich I've not noticed it) than shops selling supplies for cats. That seems to be a symptom of rather severe cat deprivation.
On speaking English with Japanese (by necessity: I don't speak a word of Japanese and would be shy to try phrases lest I talk about eels in hovercrafts by mispronunciation): Japanese sounds distinctly percussive to me, and the rate of syllables a Japanese speaker can produce is impressive to frightening. Alas, parsing audio input at that rate is a learned skill that I didn't have time to develop, so while talking to (or rather understanding) relaxed (and slow-speaking) Japanese worked rather well, in other instances I had serious trouble following speech even though, in retrospect, it probably consisted of the appropriate words with the appropriate pronunciation, just in rapid fire.
The English skills encountered were as expected, rather well developed with the conference attendants I talked to, understanding-a-lot-better-than-speaking with the random ticket clerks I interacted with. Given the larger difficulty of learning English for Japanese speakers than German speakers, this is actually pretty impressive.
Regarding manners, either the people I interacted with are too used to non-Japanese to bat an eye at mine, were too polite to twitch enough for me to notice or I didn't blunder regarding the major differences between expected behavior that badly. My experience was pleasant, I hope my hosts' experience was too.
The hotel room was well appointed, small but (compared to European hotel rooms I've staid at) not unusually so, and entirely adequate for sleep, freshen up, look at mail, go out schedules like a town visit or a conference. Instead of hotel wifi, a wired ethernet port and two power sockets flush mounted in the top of the desk; an ethernet cable was supplied. There also was a large TV that I didn't turn on once. The blow-dryer was a useful model, not the useless heat-but-no-wind model most European hotels sport due to regulations limiting air throughput. That was fortunate, since the blow-dryer I typically travel with only does 220V (so I had left it at home). The soap dispenser produced bergamot-scented foam, very nice. The fixtures were "two valves, hot and cold, one outlet", no handling problems for me there.
The toilet experience is funny. :) Unless the toilet (room) was unheated (which was not true at any of the places I used), the heated seat seems a bit pointless, though. The "shower" setting might come in handy on occasion, the "bidet" setting for me does not end up anywhere useful.
I'm used to a mattress with at least 15cm give. The bed in the hotel room, true to local custom, has about 5cm. The first morning I woke up with lower back pain from a warped spine (men may not run into that problem due to usually not having wide hips), the second night I seem to have learned to pick a better sleeping position and that problem didn't reoccur. But enough on the TMI section.

The Conference

I fought with stage nerves and spent most of Friday fiddling with my slides, adding illustrations and examples which were partially culled again. Thankfully, my talk was early, in the second slot on Saturday, so I was able to enjoy the rest of the conference. Feedback to my talk was that it was ok, it would be useful to also receive criticism, especially how useful the distribution of talking and slide points was to attendants with less familiarity with spoken English.
As usual, breakfast, lunch, dinner and breaks were the most valuable parts of the conference. I picked up some ideas from the talks I attended, as well. They are all in the "time-consuming" quarter of Things To Do, so we'll see if and how and when I get around to them.
I quite liked the 10min talks format. Since it allowed to talk about uncooked eggs as well, it was rather information-dense -and- news.
AsiaBSDcon gender distribution is quite the familiar, aka slightly depressing.
The number of Germans, OTOH, was amazing.
EuroBSDcons manage to produce input overflow for me, this AsiaBSDcon was worse in that respect.
I think I met half the NetBSD developers at the conference, talked to a quarter, and will be able to put face and name together for about 2/3 of who I consciously met. Time definitely was too short :) Also, if I manage next year, I'll try to get t-shirt colors and sizes via mail beforehand; this year the flu I had three weeks before the conference seriously impacted plans, and getting the talk and slides done had to take precedence. Jörgs tip that the .jp NetBSD developers tended to "long and thin" and M and L were most useful sizes mostly played out, so those t-shirts I managed to pack found good new homes.

Conclusion

It was fun. I want to do it again (just not this week, or next, and with a bit more preparation time next time. Mercy!). It was exhausting. The latter would get better with repetition, since the sheer amount of new people, new places, new ways to interact would lessen.

comments

March 18, 2013

NetBSD Blog NetBSD 6.1 Release Candidate 2
The second release candidate of NetBSD 6.1 is now available for download at: http://ftp.NetBSD.org/pub/NetBSD/NetBSD-6.1_RC2/

NetBSD 6.1 will be the first feature update for the NetBSD 6 branch. There are many new drivers, some new features, and many bug fixes! Fixes since RC1 include:
- Various terminfo fixes (PR#46793, PR#47090, PR#47490, PR#47532)
- Fixed a segfault in awk(1) (PR#47553)
- Moved boottime50 and its associated sysctl into the compat module. (PR#47579)
- Updated tzdata to 2013b, with the latest timezone info
- Fixed a crash when the security.curtain sysctl is enabled (PR#47598)
- Fixed some IPF locking issues
- Fix a crash on statically-linked programs for NetBSD/alpha
A complete list of changes can be found at:
http://ftp.NetBSD.org/pub/NetBSD/NetBSD-6.1_RC2/CHANGES-6.1

Please help us test this and any upcoming release candidates as much as possible. Remember, any feedback is good feedback. We'd love to hear from you, whether you've got a complaint or a compliment.

March 10, 2013

Amitai Schlair Permanent CVS, temporary Git
I’m giving a talk called “Rehabilitating pkglint” later this month at pkgsrcCon, which means I need to do some work worth talking about. pkglint is a tool for pkgsrc developers to find common errors in packages. It’s not part of pkgsrc infrastructure proper, but it’s a key step in the package development cycle. And it has problems. One proposed solution is to rewrite it.

A rewrite may or may not be a good idea (I bet not), but in either case, the beginning of the solution to pkglint’s problems is to first understand and document its current behavior. I’ve retrofitted (very cautiously) a place to put tests, along with a handful of test cases. A long road of adding coverage and safely refactoring lies ahead. To get as far as I possibly can by the 23rd, I need to be able to:
- Work offline,
- Make experimental and possibly outlandish choices,
- Commit promptly each time one of those choices pays off, and
- Not worry (yet) about having my changes reviewed and approved.
If pkgsrc were managed in a DVCS, I’d be good to go. Since it’s in CVS, I did this:
```
$ echo .git >> ~/.cvsignore
$ echo CVS >> ~/.gitignore_global
$ cd .../pkgsrc/pkgtools/pkglint
$ git init
$ git add .
$ git commit -am 'Add pkglint to git for offline hacking.'
$ git checkout -b rehab
```
Now I’m tracking pkglint in its own little git repository. The master branch tracks upstream, and the rehab branch is where I hack:
```
$ cd .../pkgsrc/pkgtools/pkglint
$ git checkout master
$ cvs update
$ git commit -am 'Track upstream changes from pkgsrc CVS.'
$ git checkout rehab
$ git rebase master
$ vi files/pkglint.t files/pkglint.pl && make test && make clean
$ git commit -am 'More cool stuff on my branch.'
```
This is a slightly clever trick, but not too much so. I’m happy and productive with it so far.

March 07, 2013

NetBSD.org Updated Security Advisory: NetBSD-SA2013-003 RNG Bug May Result in Weak Cryptographic Keys

February 25, 2013

Emile Heitor pkgtools/pkgin, quick fix
Damn I love pkgsrc. Let me tell you this story as an example…

A while ago, a couple of pkgin users told me it was a shame that /usr/pkg/etc/pkgin/repositories.conf was still pointing to a 5.0 URL when pkgin is freshly installed. Thing is, pkgin does support the $osrelease variable, but on NetBSD, the result of kern.osrelease can be 6.0_SOMETHING, which would lead to:
```
ftp://ftp.netbsd.org/pub/pkgsrc/packages/NetBSD/$arch/6.0_SOMETHING/All
```
and this does dot exists on the repository.

So in the REPOSITORIES file, which is used to generate the right repositories.conf entry, I added that line:
```
ftp://ftp.netbsd.org/pub/pkgsrc/packages/NetBSD/$arch/@OSREL@/All
```
And wrote the following trick in pkgtools/pkgin‘s Makefile:
```
.if ${OPSYS} == "NetBSD"
SUBST_CLASSES+=         osrel
SUBST_STAGE.osrel=      pre-configure
SUBST_MESSAGE.osrel=    Adjusting repository OS release
SUBST_FILES.osrel=      REPOSITORIES
SUBST_SED.osrel=        -e "s|@OSREL@|${OS_VERSION:C/_.*//}|"
.endif
```
The SUBST framework, part of pkgsrc, will then use (a portable) sed to replace @OSREL@ with the variable ${OS_VERSION}, which is defined in mk/bsd.prefs.mk (included in the Makefile), but will erase anything like the regexp “_.*”. This magic is done by the :C modifier, which behaves like the :S modifier but is capable of replacing regexps instead of simple strings.

Learn to know the power of pkgsrc…

The post pkgtools/pkgin, quick fix appeared first on Emile "iMil" Heitor 's home.

February 21, 2013

BSD Talk bsdtalk223 - bhyve with Michael Dexter
This episode has been brought to you by rsh, the remote shell command which appeared in 4.2 BSD. Interview with Michael Dexter about bhyve, a BSD hypervisor. More information at http://bhyve.org/ File Info: 23Min, 11MB. Ogg Link: http://cis01.uma.edu/~wbackman/bsdtalk/bsdtalk223.ogg

February 01, 2013

BSD Talk BSDTalk222 - Tinkering with Raspberry Pi
Just a short blurb about FreeBSD on the Raspberry Pi followed by some wise words from Peter Salus at BSDCan2011. File Info: 8Min, 4MB. Ogg Link: http://cis01.uma.edu/~wbackman/bsdtalk/bsdtalk222.ogg

January 25, 2013

Amitai Schlair Synthesizing podcasts
I’m a latecomer to the Destroy All Software party. Lots and lots of catching up to do. Sure would be nice if I could watch at home on my iPad and on the subway with my iPhone and let Downcast keep them in sync about what I’ve seen so far. But DAS doesn’t have a podcast feed and, since it’s coming to an end in the next month or two, probably never will. So I made my own podcast for it. Glossing over most of the details:

Acquire tools
1. Have ikiwiki (I install it from pkgsrc) and a web server (I use bozohttpd, also from pkgsrc).
I was already running ikiwiki and bozohttpd on my laptop for my personal wiki, so I had already jumped through many of these hoops.

Configure the basics
1. Figure out how to get the web server to run at boot and serve the intended directory (on OS X, I often get help from Lingon).
2. Create a very basic ikiwiki configuration, taking care to add_plugin the inline plugin.
3. Create an index.mdwn at the root of the wiki containing pretty much just this: [[!inline atom=yes pages="media/*" sort=title reverse=yes archive=yes]] (tweak to taste).
4. Create a media subdirectory and put the videos there.
5. Run /path/to/ikiwiki --setup /path/to/ikiwiki.setup, then browse the wiki. All the videos should be linked there.
6. Subscribe to the Atom feed in a podcatcher.
And now, a bit of weird OS X magic
1. Create a Folder Action AppleScript on the media folder that does this:
```
on adding folder items to this_folder after receiving added_items
	do shell script "/path/to/ikiwiki --setup /path/to/ikiwiki.setup"
end adding folder items to
```
Voilà!

When Gary announces a new screencast:
1. I download it to media.
2. The current application loses focus for some dumb reason.
3. There is no third thing.
When the iPad and iPhone next refresh their subscriptions, they’ll get the new screencast.
Brett Lymn Building Arduino firmware on NetBSD
I needed to rebuild the firmware for the atmega8u2 used as a usb to serial bridge on an arduino UNO clone. Unfortunately, at the time I was doing this the version of avr-gcc in NetBSD pkgsrc did not support the atmega8u2, even the one in pkgsrc Work In Progress (pkgsrc-wip) was not sufficient. This meant I had to manually build the toolchain myself to get a version of avr-gcc with the atmega8u2 support. Fortunately, the process for performing the build is straightforward. These are the steps I used.

Firstly, I made a working directory for all the various components I needed, I also selected the path /usr/local/avr as a destination for all the resultant binaries and libraries. I did this to keep all the avr related stuff together instead of being splattered around /usr/local which is the default install location.

I downloaded and unpacked the latest binutils sources, changed directory into the bin utils, in there I created a build directory:

tar zxf binutils-2.23.tar.gz
cd binutils-2.23
mkdir build
cd build

Then configured the binutils build with the correct prefix and target, built and installed the binutils:

../configure --prefix=/usr/local/avr --target=avr
gmake
gmake install

Next, I downloaded and unpacked the latest gmp library sources:

tar xjf gmp-5.0.2.tar.bz2
cd gmp-5.0.2

Configured it, build and install:

./configure --prefix=/usr/local/avr
gmake
gmake check
gmake install

Then the mpfr library sources, unpack:

tar xjf mpfr-3.1.1.tar.bz2
cd mpfr-3.1.1

This build needs to reference libraries and includes I had installed in the previous steps so before going further I needed to let the compiler and linker know where the dependencies were:

export CFLAGS="-I/usr/local/avr/include"
export LDFLAGS="-L/usr/local/avr/lib -Wl,-rpath -Wl,/usr/local/avr/lib"

Once this was done I could configure, build and install:

./configure --prefix=/usr/local/avr
gmake
gmake install

The mpc library was next, download, unpack, configure, build and install:

tar zxf mpc-1.0.1.tar.gz
cd mpc-1.0.1
./configure --prefix=/usr/local/avr
gmake
gmake install

Once all the gcc dependencies were built, I could build the compiler itself. Again, download, unpack, created a build directory, configure, build and install:

tar jxf gcc-4.7.2.tar.bz2
cd gcc-4.7.2
mkdir build
cd build
../configure --prefix=/usr/local/avr --target=avr --with-gcc --with-gnu-as --enable-languages=c,c++ --disable-nls --disable-libssp --with-dwarf2
gmake
gmake install

Then I built the AVR c library, for this the avr-gcc compiler was required so I had to add the appropriate bin directory to the PATH:

PATH=/usr/local/avr/bin:$PATH
export PATH

tar jxf avr-libc-1.8.0.tar.bz2
cd avr-libc-1.8.0
mkdir build
cd build
../configure --prefix=/usr/local/avr --build=`../config.guess` --host=avr
gmake
gmake install

Once all the toolchain was in place, rebuilding the firmware was just a matter of following the instructions in the arduino firmware readme file and then using gnu-make to build the firmware. I had to fix a few things the compiler complained about, all of them seemed to be gcc being more strict about writable strings being defined in read-only memory but once these were fixed the firmware built without problem. I had to resort to Windows and flip to load the firmware onto the board, the new firmware booted up and ran fine. I was then able to load modified versions of the firmware to try and debug the problem of this particular arduino board not attaching properly under NetBSD. More on this later.

January 23, 2013

Amitai Schlair CodeMash 2013: Your Dev Toolbox, Everywhere
Schmonzcast #13: I’ve attended (and spoken at) more than a few instances of pkgsrcCon, but I’d never attended a full-on costs-money big-crowd software development conference until two weeks ago. Perhaps counterintuitively, the first thing I did there was an all-day Speaker Workshop. While the air at the hotel was thick with code, what was fresh on my mind was the pain of meticulously planning and presenting half-hour talks at work every week for the past couple months. I wanted to know how it might get easier. The instructor, Leon Gersing, combined a background in theater with perceptive, intuitive teaching. I came away much more aware of what to work on. (For example: my personality is slightly goofy in a way that, once I’m comfortable enough in front of a crowd for it to show through, probably works in my favor.) And when Corey Haines organized a session of lightning talks two days later, I decided to get right to work, then and there (or watch on YouTube). Given the format, I like how it went; for next year’s CodeMash, I plan to submit a full-length talk proposal.

January 21, 2013

Amitai Schlair My unexpected neighbor
[Originally posted to Remember Aaron Swartz]

I maintain pkgsrc packages of some of Aaron’s software, and over the last decade or so would occasionally send him bits and pieces of code. Along the way we somehow discovered that we’d grown up a couple hundred meters apart, separated by a driveway and some trees. (If only we’d known, and been around at the same time, our common interests would doubtless have made us fast friends.)

When sending patches I’d always ask what he’d been up to lately, because it was always something new and ambitious, even audacious. We were just nerds on the Internet whose paths occasionally crossed, but I felt like I knew him better than that. Above all, he had managed to hold fast to a way of thinking about our world — as evidenced by his writing and his actions — that I had forced myself to hold rather more loosely. I always admired him for that.

Had we had the chance to know each other better, I’m quite sure I’d have admired Aaron for much more.

December 08, 2012

Jeremy C. Reed 2012-12-05

Well my web server rebooted. I don't know why. I will post another story about the significance of this to me. Anyways, my /home (where all my website docs were located) was not mounted.

The disklabel output was strange:

16 partitions:
#        size    offset     fstype [fsize bsize cpg/sgs]
 a:   8192016        63     4.2BSD   2048 16384 27560  # (Cyl.      0*-   8127*)
 b:   8192016   8192079       swap                     # (Cyl.   8127*-  16254*)
 c: 156299312        63     4.2BSD   2048 16384 28752  # (Cyl.      0*- 155058*)
 d: 156299375         0     unused      0     0        # (Cyl.      0 - 155058*)
disklabel: partitions a and c overlap
disklabel: partitions b and c overlap

The disk is:

Partition table:
0: NetBSD (sysid 169)
    start 63, size 156299312 (76318 MB, Cyls 0-10337/62/30), Active

So I did some math with bc: Size of c is 156299375-63 = 156299312. Size of d is already known (entire disk). Size of e is 156299375-16384095 = 139915280. Start of e is 8192079+8192016 = 16384095 (end of swap plus size of swap).

And did with disklabel -e:

16 partitions:
#        size    offset     fstype [fsize bsize cpg/sgs]
 a:   8192016        63     4.2BSD   2048 16384 27560  # (Cyl.      0*-   8127*)
 b:   8192016   8192079       swap                     # (Cyl.   8127*-  16254*)
 c: 156299312        63     unused      0     0
 d: 156299375         0     unused      0     0
 e: 139915280  16384095    4.2BSD   2048 16384 28752  # (Cyl.      0*- 155058*)

I guess I could have used disklabel -i for interactive to have it figure out the offsets and sizes for me. Then I fsck'd it. For some reason the fstab had: /dev/wd0c for the home so I changed to wd0e. Then "mount -a" and another reboot to verify it again. Odd that this weird disklabel was in working and in use for long time.

December 01, 2012

Jeremy C. Reed 2012-Dec-01
For a few days I worked on an article for BSD Mag that introduced (briefly) the many new tools and daemons included in NetBSD 6.0. Many of this was new development done on NetBSD, while some is third-party software useful enough to be included with the base NetBSD. The article should be published by the magazine sometime in December. Another article needs to be written to introduce the many rump tools.

I noticed several man pages were missing. So I wrote a draft of mkubootimage(1) even though I haven't used it. (It is now at http://cvsweb.netbsd.org/bsdweb.cgi/src/usr.bin/mkubootimage/mkubootimage.1.) Other missing manuals include: sqlite3 (I may handle that), ztest, kcc (heimtools), digest-service, and gsstool.

Also the Google Code-in is in process. This is a Google sponsored event with high school students doing short (couple hour) tasks to help open source projects. NetBSD has many tasks available and I helped review and give feedback to some students.

October 22, 2012

Julio Merino Setting up my old Mac Mini G4 as a development machine
I've spent quite a few time last week setting up my old Mac Mini G4 — a PPC 1.2GHz with 1GB of RAM running NetBSD/macppc current — as a "workstation" for the development of Kyua and other tools for NetBSD. Yes, this machine is very slow, but that's the whole point of the exercise I'm going to narrate below.

I recently got approval from the NetBSD core team to import Kyua into the NetBSD source tree and replace ATF with it... which is great, but when thinking about it objectively, I am reluctant to unnecessarily "punish" all NetBSD users by increasing the build time of the system significantly. Don't get me wrong: Kyua itself runs efficiently on old machines, but building the code — particularly the hundreds of tests that come with it — takes just too long. This slowdown is not too noticeable on a relatively-modern machine, but it's unacceptable on not-so-old machines.

Of course, I could proceed with the import right now (with the code disabled by default) and make it leaner later, but this would cause quite a first bad impression on our users. So it's better to delay the import a little bit until, at least, I have had a chance to simplify some core parts of the code. Mind you, this simplification work is already in progress and quite advanced: it consists on modularizing (as separate processes) some critical parts of the code and writing these with a much simpler style and in plain C.

But back to the original point of my post.

The first thing to mention about this experience is that with some effort and long waits, I've got a pretty decent setup for development even on this old machine. From time to time, I miss having a real Unix desktop at hand for development (no OS X, you are not one of those). The GUI behaves relatively well with a 1920x1200 display, running Fluxbox, traditional xterms, Mutt for GMail access and a bunch of other applications.

Unfortunately, too many things feel really sluggish. A few specific examples:
- Firefox 16 is barely usable. I'm not sure there are many alternatives to decent web browsing for such an old non-Intel platform. Dillo is blazing fast and allows me to access online documentation and mailing list archives (just enough for development), but it's pretty much useless for any other purpose given the "Web 2.0".
- Any operation that involves pkgsrc takes ages. Even when building the simplest packages, one can notice the system crawl through all of the pkgsrc infrastructure. Sometimes this is the fault of a bad algorithm; other times it's just sh(1) being the wrong tool for something as complex as pkgsrc internals.
- Things like basic code editing in Emacs 24 are slow at responding to typing. Disabling font lock mode makes it feel fast again, but it's just surprising to see that even color coding is slow.
I still remember my old and trusty machine from 10 years ago (a Pentium II 233 MHz): with a similar setup, it was significantly snappier. Yes, software has evolved and these packages now have many more features... but really, does editing a text file have to be sluggish?

Leaving aside sluggishness, there is also the problem of instability. NetBSD/macppc is a tier 2 port, and things don't work as well as one would like. I personally would enjoy bringing this port to tier 1... but I currently lack the time (and basic knowledge of the architecture) to do so :-/

Anyway, the result of this exercise: the new code I'm writing to modularize Kyua builds damn fast in this machine, and keeping it this way is the whole point of having such an old machine as a build environment. So I'll try to keep using it to develop these new components of Kyua.

September 10, 2012

Brett Lymn NetBSD on a stick
This is not really a new idea but after a couple of upgrade "oopses" that rendered my machine unbootable due to init getting upset about not finding MAKEDEV I decided I needed a safety net that was a little bit more portable than the USB hard disk enclosure that had saved me in the past.

I had a spare 4Gb USB memory stick which is more than ample to hold a full NetBSD install including X and a few other bits and pieces so I decided to put the memory stick to good use. The advantage of using a memory stick is that it is easy to update, we have the entire NetBSD toolset available, not some cut down version. The downside is that the memory stick does have a limited number of writes so one wouldn't last very long for full time day to day use but as a portable rescue device or even just to be used to test new hardware before buying it can be useful.

On my laptop the memory stick appeared as sd0 so I will use this device in all my examples, for those following along at home you may need to adjust your device naming.

Firstly, I needed to adjust the mbr. The memory stick had a single MSDOS partition on it, this needed to be changed to be a NetBSD one (type 169). To do this I ran fdisk:

fdisk -u /dev/sd0d

The -u flag makes fdisk interactive, prompting you to update certain parameters as you go along. For my purposes I just accepted the defaults to everything until I was prompted to change a partition. At this point I just selected the only partition there and changed the sysid to 169 and set a bootmenu label of NetBSD, all other parameters were left at their default. Once I had finished editing the partitions I accepted the default "none" at the partition prompt to move on. Fdisk prompted me to update the mbr to which I said yes and also said yes to it updating the mbr type to bootsel since I had a boot menu.

Once the mbr was set it was time to edit the disklabel:

disklabel -e /dev/sd0d

This opens up the disk label in an editor. I left most of the settings as is only editing the e: partition, I changed the e: into an a: and change the fstype to "4.2BSD", set the fsize to 2048, the pgsize to 16384 and the cpg/sgs to 0. The line ended up looking like:

a: 7883696 1104 4.2BSD 2048 16384 0 # (Cyl. 0*- 3849)

Then I just saved the changes and quit the editor. With the new disklabel in place I could then create the filesystem:

newfs /dev/sd0a

This took a while to do but eventually completed without problem. Once the file system was built I mounted it:

mount /dev/sd0a /mnt

Then unpacked the installation sets onto the memory stick. I had created my own release files using "build.sh release" but I could have easily just downloaded the official sets, the files I needed were under the binary/sets directory. I just cd'ed to that directory and did:

cdir=`pwd`
for f in *.tgz
do
(cd /mnt && tar zxpf ${cdir}/${f})
done

and waited for a long time, the unpacking was very slow. Once this was done I picked the kernel-GENERIC.gz file from binary/kernel, uncompressed this and copied as /mnt/netbsd.

To make the memory stick bootable I did:

cp /usr/mdec/boot
installboot -fv /dev/sd0d /usr/mdec/bootxx_ffsv1

I had to use the -f flag on installboot because I was getting an error "Old BPB too big", the -f flag forced installboot to continue anyway, the result seemed to work fine.

I created a new fstab:

/dev/sd0a / ffs rw,log 1 1

and edited /mnt/etc/rc.conf to change "rc_configured" to "YES" so the machine would come up multiuser.

After this it was just a matter of rebooting my machine, the BIOS picked up a USB device and started a boot from it. I was presented with a boot menu, when I selected the only option my machine slowly booted from the memory stick. I was able to log in and do everything you would expect to be able to do on a clean NetBSD install.

September 04, 2012

Julio Merino I don't really like C++
Somebody recently tweeted me this message:
As a strong C++ dev and googler (hopefully with some #golang exposure), what's your opinion on @rob_pike post? (goo.gl/xlMi4)
The answer deserves much more than my original reply included, so here it goes.

First of all, I found Rob's article quite interesting. Basically, the authors of Go never expected Go to be more widely adopted by Python users than C++ users. In fact, their original goal was to create a replacement for C++ as a systems programming language. The rationale for this is that C++ users like the verbosity and flexibility of the language, with all of its special cases, while Python users like simplicity and switch to Go when they look for the performance bump. This is all reasonable but there is one detail I don't associate with: Rob claims that whoever is excited by the new C++11 features will not move to Go, because liking new C++ features implies that one likes all the flexibility of C++ and will not enjoy Go's simplicity.

Before I explain why, let's look at my personal scenario: I use C++ for personal projects and Python at work. I enjoy using C++ because of its expressivity and the cool hacks that can be implemented (although that generally goes against readability), and I really like Python due to its simplicity and its extensive standard library. But I dislike C++'s corner cases, lack of real modules, verbosity, huge binaries, slow compilation times... and I dislike Python's non-static typing.

So why do I use C++? Most of my personal projects, if not all, are in some way related to NetBSD. NetBSD has support in the base system for C, C++, POSIX shell and, recently, Lua. If I want my projects to be bundled into the NetBSD base system, I need to use one of these languages; that's clear. Of these languages, shell is not scalable for large projects and I don't know Lua enough to implement large pieces of code (but from what I have learned, Lua has its own problems). Writing C is a waste of time due to its lack of support for basic high level data structures (things like, you know, strings and dictionaries) — and these are a must for any medium-large project. And C++, despite all of the problems mentioned above, is a good compromise.

In other words: the reason I chose C++ for things like ATF and Kyua is only because it simplified my work and it was supported by the NetBSD base system. It's relatively easy to write safe code (the RAII pattern is lovely) in C++ and there is an abundant amount of rich data structures in the base library. (This doesn't mean I will stick to C++ forever in Kyua; in fact, I have some ideas in mind to reduce its usage!)

And finally, this is where I can counter Rob's statement: I am excited about the new C++11 features but not because I really like C++. I will enjoy the new features because they simplify a language that is the only real alternative I have in this context.

Confession: In fact, I don't really like C++. I wish there was a better alternative within the NetBSD base system for large projects, but there is none.

August 27, 2012

Julio Merino Testing NetBSD's share/mk
For a long time, a pet peeve of mine has been the lack of tests for the build infrastructure files of NetBSD: i.e. those bsd.*.mk files that live under /usr/share/mk/ and on which the whole source tree depends.

One could argue that writing tests for these files is not strictly necessary because the successful build of NetBSD is the real final test of whether the files work or not. That's partly true, but unfortunately is not the whole story:
- Other projects depend on these build files and thus rely on their behavior. This can either be by just relying on NetBSD having these files installed, or by using the separate mk-files package (available e.g. in Fedora). The functionality of the build infrastructure should not regress, or it would break these third-party projects. (Think about these files as having a public API outside of NetBSD.)
- Even if the build of NetBSD is the real test of the functionality of the build infrastructure, the build infrastructure supports dozens of options and tweaks to change its behavior. One would need to rebuild NetBSD tens, if not hundreds of times, each with a different combination of build options, to ensure the files work.
- Lastly, when a new functionality is added to the build infrastructure, it is because some component of the source tree needs such functionality. It may latter happen that this component disappears or stops needing such functionality. The functionality becomes unused by the source tree, and thus can regress unexpectedly (breaking third-party packages or introducing bugs, as mentioned earlier).
With this in mind, it's clear that we should have some tests for the share/mk files. Unfortunately, that's easier said than done: the files in share/mk are extremely complex and expose hundreds, if not thousands, of different behaviors each with its own subtleties. Adding tests for these is hard. The fact that this code that was never designed to be unit-tested doesn't help either.

Regardless, I have just submitted some "placeholder" tests to the tree. The major point of these new test programs is to lower the barrier of entry to writing tests for share/mk and, therefore, maybe get other people to write some tests. To predicate with the example, I have populated these skeleton test programs with a couple of test cases each, although as you will see they are very trivial tests.

And, to conclude, why have I done this now? Well: I'm working on integrating Kyua into the source tree and, to make this happen, I need to do a couple of changes to the build infrastructure files. The changes are tricky, so I want to write tests to have some assurance that my modifications work and that, specially, they do not regress over time. Having the placeholder test programs in place makes this much easier, and the real functionality changes easier to review.

August 24, 2012

Brett Lymn lab in the lap adventures
To help me with practicing for a Red Hat certification exam I set up RHEL 5.6 on my laptop. I configured up xen and was using a bunch of virtual machines, each with multiple network interfaces connected to isolated networks. For convenience all the interfaces were configured using DHCP, this way I could build one VM and just clone it to make the other machines - during the clone the network interfaces were given different mac addresses and DHCP just handed out the static allocations for those MAC addresses. This all worked quite smoothly, though it did take a lot of work and searching to put all the bits together and it did help me a lot in going over all the lab exercises before my exam.

I am going to do another course and exam soon but the course will be using RHEL 6.2 for the OS so I thought it would be good to update my install. Red Hat's recommendation is that you do a clean install between major versions but I really didn't want to lose my xen configuration so I attempted to perform an upgrade instead which you can do by hitting escape within the first 60 seconds of the cdrom boot and then adding:

linux upgradeany

to the boot command line. This forces the upgrade regardless of the version. The upgrade seemed to work ok but the first hurdle was the process had not written a new entry in grub.conf to boot the upgraded system. This was easy to fix, just boot up the cd in rescue mode and fix. I then tried to get X working properly but no matter what I did I would either get a black screen or X would come up and just hang. In the end I decided that it probably was going to take me more time to figure out what was wrong with X than it would to do a clean install and redo my VM setups. After a clean install X worked fine, I had some problems initially with the synaptics touchpad but that was just a matter of configuring it in xorg.conf.

I had a USB stick with what I thought was a copy of the old /etc directory plus my VM build scripts and the like. On closer inspection I found these files were a bit out of date. I did do a dd of the entire linux disk to a file on a NetBSD machine so I knew I could get the files back... the trick was how. I could have just put the image back onto my laptop disk but that would have been tedious, having to copy the data over, boot up the old OS, get what I wanted and then reinstall 6.2 again. Fortunately, the NetBSD machine with the dd image on it had enough room to have rhel image uncompressed. I though that what I could do is us vnconfig to create a virtual drive from the file like this:

vnconfig -c vnd0 ./dd_image_file

and then use lvm on NetBSD to access the logical volumes. Unfortunately it looks like the version of the NetBSD kernel I have on that machine is too old and it had issues with lvm. I knew that NetBSD on my laptop worked fine with lvm so what I ended up doing was NFS mounting the file system from the machine with the image (I didn't have enough room on the laptop to hold the disk image locally), then use vnconfig as above to create the virtual disk. I then did:

lvm vgscan

which found the lvm volgroups on vnd0, I then did:

lvm vgchange -a y
mount -t ext2fs /dev/mapper/volgroup-lvol00 /mnt

an there we have it. A disk image on one machine, nfs mounted to another, through a virtual disk driver into lvm. It is a bit tortuous (and a bit slow due to the NFS mount going over wireless) but I can access the files and pull off what I want without having to reinstall.

When I get organised I will do a write up about the lab in the lap.

August 16, 2012

Julio Merino Introducing shtk
Have you ever wanted to have a collection of ready-to-use modules for shell scripts? I have, particularly because I keep reimplementing the same functions over and over and over and over again whenever I write non-trivial shell scripts, and I'm tired of doing so.

That's why I have just abstracted all the common code in the aforementioned tools and put it into a new package called the "Shell Toolkit", or shtk for short. Yeah, this name sounds very pretentious but, really, I don't intend this to be anything big. The only thing I want to do is simplify my life when implementing shell scripts, and hope that other people might find the modules useful. So far, I have taken the generic (and common!) code from sysbuild and sysupgrade, reconciled a few tiny divergences, and moved it into this new shtk package.

In reality, writing something like shtk is sin-borderline. I really should not be using shell scripting for the kind of tools I am implementing (they deserve better data structures and better error checking than what shell provides, for example). However, shell scripting is incredible convenient to get reasonably-good implementations of such tools with minimal effort, and is the only scripting language available in NetBSD's base system. (Yes, yes, there is Lua, but my limited knowledge of Lua would not let me write these tools in any decent manner nor in any reasonable time.)

So, what's in shtk? There are a few functions to deal with command lines (error/warning reporting and such things), some trivial stuff to deal with lists, a bunch of code to interact with cvs and, what I like the most, a module to implement configuration files with some kind of key/value validation.

At the moment, shtk can only be found in pkgsrc under pkgsrc/devel/shtk and I don't currently have any plans to make it more widely available. If there are enough people interested in that with real needs, I could reconsider, but the maintenance effort would be non-trivial.

To showcase the features of shtk, I have updated the sysbuild and sysupgrade packages to depend on this new toolkit while at the same time dropping all this duplicate supporting code. It's a good thing that I wrote exhaustive tests for all possible code paths, because the migration from the built-in modules to shtk was riddled with subtleties that would have impacted end users otherwise.

Now... time to really consider taking the task of rewriting pkg_comp in a more maintainable style so that I can add the features I have wished for for many years (like OS X support).

August 06, 2012

Julio Merino Introducing sysupgrade for NetBSD
Over the last two weeks, you might have had fun rolling your own NetBSD binary releases with sysbuild. But what fun is that if you have no trivial way of upgrading your existing NetBSD installation to a newer version?

Upgrading NetBSD to a newer version from distribution sets generally looks like the following;
1. Fetch new distribution sets (or roll your own).
2. Upgrade the kernel.
3. Unpack the distribution sets over the root directory, without fat-fingering the command and unpacking etc.tgz along the way.
4. Use etcupdate to merge new changes to configuration files.
5. Use postinstall to validate the upgraded system.
Simple? Yes. Easy? No. The above procedure is obscure to anyone new to NetBSD. (Actually, if you tell anybody that the way to upgrade your machine is by unpacking tarballs over / will stare at you thinking you are kidding. It's 2012.) "Jokes" aside, what is worse is that the procedure is quite monotonous and, therefore, it is very easy for the administrator to make a trivial mistake along the way and screw up a running system. (Been there, done that... multiple times.)

Machines are made to automate trivial and repetitive tasks like the above, and they are actually very good at that. Over the years, I have performed NetBSD updates manually and later written crappy, unreliable scripts to do the upgrades for me. These scripts have never been reusable and they haven't dealt with error conditions gracefully. Furthermore, because these scripts live in my home directory, I have to remember to carry them around every time I set up a new NetBSD box.

It was about time I sat down and rewrote my custom scripts into something more "decent". Something with documentation, with a configuration file, and with tests.

So today, and for all the reason above, I am introducing sysupgrade.

sysupgrade is a script that automates (trivializes) the whole process of upgrading an existing NetBSD installation to a newer release, be it the currently-running system or a non-live system. sysupgrade does so by following the steps outlined above and is coordinated by a configuration file. You can find the tool in pkgsrc/sysutils/sysupgrade, next to sysbuild. The bundled sysupgrade(8) and sysupgrade.conf(5) manual pages, and the default sysupgrade.conf configuration file should get you started and hopefully answer most of your questions.

For the impatient, the following command would upgrade your machine to the specified version target:

$ sysupgrade auto \
ftp://ftp.NetBSD.org/pub/NetBSD/NetBSD-<X.Y.Z>/$(uname -m)

At the moment, please consider sysupgrade to be experimental. It works well for me on my various machines (running both NetBSD 6.0 BETA and -current), and I have been using the upgrade procedure outlined above for years without issues. However, as with any shiny-new software, be careful. If you use NetBSD on a virtual machine, take a snapshot before running this tool; I don't think your machine is going to blow up, but better safe than sorry!

Enjoy, and feedback very welcome!

PS: There is lots of room for improvement. The TODO file in the package directory includes some of the ideas I'd like to work on later.

July 24, 2012

Brett Lymn
More playing with arduinos. I bought an Etherten which I plan to use for my data logger project. It has pretty much all I need on a single board apart from the wireless interface. I managed to source a board with a Nordic nRF905 on it for the wireless - this is the same chip used in the little monitoring display that was supplied with the solar inverter, it talks using SPI so there should be a good chance of getting it going with the arduino.

The first step was uploading sketches to the Etherten. This proved more difficult than I thought it would be after getting the leostick working. The Etherten steadfastly refused to be programmed in NetBSD (in Windows it was fine...). I tried updating the firmware for the usb->serial bridge chip by mostly following the instructions https://andrewmemory.wordpress.com/2011/04/14/upgrading-the-arduino-uno-8u2-using-flip/ though I just used the raw button to get the file down and had to hold the main reset down and then short the bridge chip reset to get it into programming mode. That didn't help me. Next I tried updating the bootloader using optiloader on the leostick, I had to patch the optiloader code:
--- optiloader.ino 2012-07-18 20:53:16.000000000 +0930 +++ ../optiLoader.pde 2012-07-18 20:51:49.000000000 +0930 @@ -50,15 +50,6 @@ // 9 to power more complex Arduino boards that draw more than 40mA, such // as the Arduino Uno Ethernet ! // -// For a leostick the pins are: -// 0: slave reset (arbitrary allocation) -// 14: MISO -// 15: SCK -// 16: MOSI -// -// The pins are only available on the ICSP header, this header -// also supplies the power to the other board too. -// // If the aim is to reprogram the bootloader in one Arduino using another // Arudino as the programmer, you can just use jumpers between the connectors // on the Arduino board. In this case, connect: @@ -98,11 +89,11 @@ /* * Pins to target */ -#define SCK 15 -#define MISO 14 -#define MOSI 16 -#define RESET 0 -#define POWER 1 +#define SCK 13 +#define MISO 12 +#define MOSI 11 +#define RESET 10 +#define POWER 9 // STK Definitions; we can still use these as return codes #define STK_OK 0x10

This is due to the leostick not having the programming pins in the "normal" arduino place. I made up a cable and managed to program the Etherten bootloader but still no joy. While I was mucking around with this I also found an usb-asp on ebay which is an in circuit programmer for atmel chips which happens to be what the arduinos use. The programmer and a 10 to 6 pin adaptor came to less than $7 including postage so I bought those.

The good news is that the usb-asp works fine under NetBSD with the native avrdude, I can upload sketches to the Etherten no problems. Avrdude is complaining that the usbasp needs a firmware update which is another adventure. I have loaded up the AVRisp sketch onto the leostick but I need to make a cross-over adaptor to connect my cable to the usbasp cable, then I can update the firmware.

June 29, 2012

Brett Lymn These are not the bugs you are looking for
There is something vaguely frustrating about finding and fixing a bug in some software thinking that you have found your problem and things will start working right only to find that the problem is still there - you found a bug but not the one you were searching for.

I had this today, I have been off and on trying to track down why aspell seg faults when NetBSD curses is used, the problem has the hallmarks of memory being overwritten. I built a version of libcurses with dmalloc and it was telling me that a boundary was being overrun. After a bit of digging I found that in __init_get_wch there was a memset used to clear a buffer but the size argument was way too big causing memset to stomp past the end of the array. I fixed this and dmalloc no longer complained when I ran my simple test code but aspell still seg faults and the stack backtrace from the core file still looks as mangled as it did before my fix. So, yes, I definitely fixed a bug - just not the one I was aiming to fix.

September 30, 2011

David Brownlee Setting up an 8TB NetBSD file server
If anyone reading this is hoping for a new chapter in my Orange Customer Services Experience they will be sorely disappointed - this post is horribly geeky - just stop reading now.

For anyone else, this will have the slight flavour of a HOWTO - just adjust to taste.

I set this system up a few weeks ago & recorded these notes - I've only just got around to posting this due to time constraints :)

Prolog...

Time to update my home fileserver. Budget: under £500, minimise power usage, noise & size, maximisie disk space.

With current prices that means 2TB disks - five is the natural number to give a power of two data stripe with RAID5. So some quick ebuyer.com browsing later:
- One HP MicroServer (~£140 after rebate)
- 5 * 2TB disks (~£55 each)
- 3.5 to 5.25 mounting adaptor (~£2)
- PCI-Express network card (~£8)
Assemble the box - HP still love their bizarre internal hex headed screws, but at least in this case the door has all of them you would need in a neat row, complete with the hex head allen key - nice.

Next, install NetBSD to a cheap USB key - just boot a standard install CD and run through the steps & setup to allow remote root ssh. Alternatively download a live ISO image - either way the goal is to have something you can boot and then work on in a laptop window from the comfort of the sofa.

Filesystem overview

The plan is to have the majority of the disks in a RAID5, leaving 40GB unused at the start of each disk. This will give:
- 7.3 TB RAID5 /home/media (disks 0,1,2,3,4)
- 40GB RAID1 / (disk 0,1)
- 40GB RAID1 /home (disk 2,3)
- 10GB swap (disk 4)
- 30GB /tmp (disk 4)
Everything except swap and /tmp are raided to avoid data loss in the event of a single disk failure. Multiple disk failure is outside the scope of this page, but setting up a second similar server at a remote location is always a good call :)

This is a pretty generic layout - the reserved space can be easily adjusted up or down at this stage to cater for different usage, if you are paranoid about resilience then the swap should be on RAID1, and if you plan on htting /tmp and swap heavily at the same time then shuffle things around.

The first 40GB of disk4 is actually setup as a single device RAID0 so we can take advantage of raidframe's autoconfigure - if the disks are shuffled around everything will still work.

Setup

Anyway, onto the setup. We shall assume you are logged in via a USB install or Live image:

First lets just confirm we have some disks:

onyx# sysctl hw.disknames
hw.disknames = wd0 wd1 wd2 wd3 wd4 sd0

or the more verbose

onyx# grep ^wd /var/run/dmesg.boot
wd0 at atabus0 drive 0
wd0: <WDC WD20EARS-00MVWB0>
wd0: drive supports 16-sector PIO transfers, LBA48 addressing
wd0: 1863 GB, 3876021 cyl, 16 head, 63 sec, 512 bytes/sect x 3907029168 sectors
wd0: drive supports PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133)
wd0(ahcisata0:0:0): using PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133) (using DMA)
wd1 at atabus1 drive 0
wd1: <WDC WD20EARS-00MVWB0>
wd1: drive supports 16-sector PIO transfers, LBA48 addressing
wd1: 1863 GB, 3876021 cyl, 16 head, 63 sec, 512 bytes/sect x 3907029168 sectors
wd1: drive supports PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133)
wd1(ahcisata0:1:0): using PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133) (using DMA)
wd2 at atabus2 drive 0
wd2: <WDC WD20EARS-00MVWB0>
wd2: drive supports 16-sector PIO transfers, LBA48 addressing
wd2: 1863 GB, 3876021 cyl, 16 head, 63 sec, 512 bytes/sect x 3907029168 sectors
wd2: drive supports PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133)
wd2(ahcisata0:2:0): using PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133) (using DMA)
wd3 at atabus3 drive 0
wd3: <Hitachi HDS5C3020ALA632>
wd3: drive supports 16-sector PIO transfers, LBA48 addressing
wd3: 1863 GB, 3876021 cyl, 16 head, 63 sec, 512 bytes/sect x 3907029168 sectors
wd3: drive supports PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133)
wd3(ahcisata0:3:0): using PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133) (using DMA)
wd4 at atabus4 drive 1
wd4: <Hitachi HDS5C3020ALA632>
wd4: drive supports 16-sector PIO transfers, LBA48 addressing
wd4: 1863 GB, 3876021 cyl, 16 head, 63 sec, 512 bytes/sect x 3907029168 sectors
wd4: 32-bit data port
wd4: drive supports PIO mode 4, DMA mode 2, Ultra-DMA mode 6 (Ultra/133)
wd4(ixpide0:0:1): using PIO mode 4, Ultra-DMA mode 6 (Ultra/133) (using DMA)

Thats maybe a little more information than we really wanted to know... but anyway.

Creating MBR partitions with fdisk

Start by using fdisk to create a single NetBSD partition on each disk, and to make the partition bootable on the first two disks (which have the root filesystem).

onyx# fdisk -iau0 wd0

fdisk: primary partition table invalid, no magic in sector 0
Disk: /dev/rwd0d
NetBSD disklabel disk geometry:
cylinders: 3876021, heads: 16, sectors/track: 63 (1008 sectors/cylinder)
total sectors: 3907029168

BIOS disk geometry:
cylinders: 1023, heads: 255, sectors/track: 63 (16065 sectors/cylinder)
total sectors: 3907029168

Partitions aligned to 2048 sector boundaries, offset 2048

Do you want to change our idea of what BIOS thinks? [n] [RETURN]

Partition 0:
<UNUSED>
The data for partition 0 is:
<UNUSED>
sysid: [0..255 default: 169] [RETURN]
start: [0..243201cyl default: 2048, 0cyl, 1MB] [RETURN]
size: [0..243201cyl default: 3907027120, 243201cyl, 1907728MB] [RETURN]
bootmenu: [] [RETURN]
Do you want to change the active partition? [n] y[RETURN]
Choosing 4 will make no partition active.
active partition: [0..4 default: 0] [RETURN]
Are you happy with this choice? [n] y[RETURN]
Update the bootcode from /usr/mdec/mbr? [n] y[RETURN]

We haven't written the MBR back to disk yet. This is your last chance.
Partition table:
0: NetBSD (sysid 169)
start 2048, size 3907027120 (1907728 MB, Cyls 0-243201/80/63), Active
PBR is not bootable: All bytes are identical (0x00)
1: <UNUSED>
2: <UNUSED>
3: <UNUSED>
Bootselector disabled.
First active partition: 0
Should we write new partition table? [n] y[RETURN]
- Run fdisk -iau0 wd1 giving the same answers
- Run fdisk -u0 wd2 similar except it skips the active & bootcode questions
- Run fdisk -u0 wd3 and fdisk -u0 wd4
Disklabels

Next comes the disklabels. Decide on how much you want to keep from the RAID5 ( I chose 40GB) and how much you want to use for swap (10GB and 30GB). Ideally this amount should be the same on all disks. If its not the RAID5 will just use the smallest remaining value and waste the extra on any other disks.

I labelled my disks "disk0" to "disk4" to match how they show up in the NetBSD autoconfig. This is absolutely not required, and you could even shuffle the SATA cables between every boot - NetBSD automatically assembles the RAID components based on identifiers on each disk, but it pacifies the slight OCD tendency in me.

The start partition is offset by 1m. This tends to match the value in newer NetBSD fdisk and also avoids the old 63 sector insanity which causes misaligned accesses on 4K sector disks.

This uses partition a to be the RAID1 for /, /home, or RAID0 for /tmp & swap, and partition e for the RAID5.

The total size of your disks may be different from the values here. This does not matter as long as the disks are 2TB or less. If they are over 2TB then you need to use GPT rather than MBR partitions, but we do not cover that here.

onyx# disklabel -i wd0
Enter '?' for help

partition> N[RETURN]
Label name [fictitious]: disk0[RETURN]
partition> a[RETURN]
Filesystem type [?] [unused]: raid[RETURN]
Start offset ('x' to start after partition 'x') [0c, 0s, 0M]: 1m[RETURN]
Partition size (' for all remaining) [0c, 0s, 0M]: 40g[RETURN]
a: 83886080 2048 RAID # (Cyl. 2*- 83222*)
partition> e[RETURN]
Filesystem type [?] [4.2BSD]: raid[RETURN]
Start offset ('x' to start after partition 'x') [2.0317461490631103515625c, 2048s, 1M]: a[RETURN]
Partition size (' for all remaining) [3876019c, 3907027120s, 1907728.125M]: $[RETURN]
e: 3823141040 83888128 RAID # (Cyl. 83222*- 3876020)
partition> P[RETURN]
5 partitions:
# size offset fstype [fsize bsize cpg/sgs]
a: 83886080 2048 RAID # (Cyl. 2*- 83222*)
c: 3907027120 2048 unused 0 0 # (Cyl. 2*- 3876020)
d: 3907029168 0 unused 0 0 # (Cyl. 0 - 3876020)
e: 3823141040 83888128 RAID # (Cyl. 83222*- 3876020)
partition> W[RETURN]Label disk [n]? y[RETURN]
Label written
partition> Q[RETURN]

Then repeat for disklabel -i wd1, disklabel -i wd2, disklabel -i wd3, and disklabel -i wd4 only changing the "disk0" each time.

Creating the RAID partitions

Onto the raid setup. For this we just create four files, raid0.conf to raid3.conf, in /root/ will be fine:

For the root filesystem

# raid0.conf - RAID1 on two disks, for 32K block size
START array
1 2 0
# row col spare

START disks
/dev/wd0a
/dev/wd1a

START layout
64 1 1 1
# sectPerSU SUsPerParityUnit SUsPerReconUnit RAID_level

START queue
fifo 100

For /home

# raid1.conf - RAID1 on two disks, for 32K block size
START array
1 2 0
# row col spare

START disks
/dev/wd2a
/dev/wd3a

START layout
64 1 1 1
# sectPerSU SUsPerParityUnit SUsPerReconUnit RAID_level

START queue
fifo 100

For swap and /tmp

# raid2.conf - RAID0 on one disks, for 32K block size
START array
1 1 0
# row col spare

START disks
/dev/wd4a

START layout
64 1 1 0
# sectPerSU SUsPerParityUnit SUsPerReconUnit RAID_level

START queue
fifo 100

For /home/media

# raid3.conf - RAID5 on five disks, for 64K block size
START array
1 5 0
# row col spare

START disks
/dev/wd0e
/dev/wd1e
/dev/wd2e
/dev/wd3e
/dev/wd4e

START layout
32 1 1 5
# sectPerSU SUsPerParityUnit SUsPerReconUnit RAID_level

START queue
fifo 100

Next we create the four raids, give them all unique Serial Numbers (-I), and tell them to autoconfigure on boot (-A). We'll come back to making raid0 automatically be the root filesystem later. If we do it now it will be annoying if we reboot before creating its filesystems.

onyx# raidctl -C raid0.conf raid0 ; raidctl -I 10 raid0 ; raidctl -A yes raid0
onyx# raidctl -C raid1.conf raid1 ; raidctl -I 11 raid1 ; raidctl -A yes raid1
onyx# raidctl -C raid2.conf raid2 ; raidctl -I 12 raid2 ; raidctl -A yes raid2
onyx# raidctl -C raid3.conf raid3 ; raidctl -I 13 raid3 ; raidctl -A yes raid3

Moving on we need to initialise the parity on each raid. We could just run them all at once but its probably better to set the first three going, then when done start the final one (to avoid disk contention). We can use raidctl -S which displays the rebuild progress and only returns when the rebuild is complete. You can continue on while the parity is initialising, and even reboot (in recent netbsd-5 and later) and have it continue the parity, but it does mean actions a slower, and the system is not protected from disk failure until the parity is complete.

onyx# raidctl -i raid0 ; raidctl -i raid1 ; raidctl -i raid2
onyx# raidctl -S raid0 ; raidctl -S raid1 ; raidctl -S raid2
onyx# raidctl -i raid3 ; raidctl -S raid3

Creating the partitions

The default disklabels for raid0 and raid1 are probably fine for us (one large 'a' partition), so we can just get them written to the disks. There are other ways to do this, but just to re-use the 'disklabel -i' command:

onyx# disklabel -i raid0
Enter '?' for help
partition> W[RETURN]
Label disk [n]? y[RETURN]
Label written
partition> Q[RETURN]

Then repeat for raid1. For raid2 we want to setup a 30GB /tmp and 10GB swap so:

onyx# disklabel -i raid2
Enter '?' for help
partition> a[RETURN]
Filesystem type [?] [4.2BSD]: [RETURN]
Start offset ('x' to start after partition 'x') [0c, 0s, 0M]: [RETURN]
Partition size ('$' for all remaining) [327679.75c, 83886016s, 40959.96875M]: 30GB[RETURN]
a: 62914560         0     4.2BSD      0     0     0 # (Cyl.      0 - 245759)
partition> b[RETURN]
Filesystem type [?] [unused]: swap[RETURN]
Start offset ('x' to start after partition 'x') [0c, 0s, 0M]: a[RETURN]
Partition size ('$' for all remaining) [0c, 0s, 0M]: $[RETURN]
b: 20971456 62914560       swap                     # (Cyl. 245760 - 327679*)
partition> W[RETURN]
Label disk [n]? y[RETURN]
Label written
partition> Q[RETURN]

Since raid3 is larger than 2TB, (more or less the whole point of this exercise), we need to setup a GPT table to handle it:

onyx# gpt create raid3
onyx# gpt add -b 128 raid3
[ this will indicate the size of the wedge, in my case 15292563679 - use that number below]
onyx# dkctl raid3 addwedge media 128 15292563679 4.2BSD

This gives us an (automatically created on boot) dk0 device which is around 7.2TB in size. Unfortunately it will not show up as type 4.2BSD until the next boot, so we will have to give newfs the -I flag when we create its filesystem (or reboot).

Creating filesystems

We will go with FFSv2 filesystems. The RAID5 raid was created with 32 sector (16K) per component stripes, so it is important to use a 64k blocksize to avoid writes suffering an expensive read/modify/write cycle, and the other raids will fit a 32k blocksize nicely, so:

onyx# newfs -O2 -b32k raid0a
onyx# newfs -O2 -b32k raid1a
onyx# newfs -O2 -b32k raid2a
onyx# newfs -O2 -b64k -I dk0

Installing

Now that we have all these wonderful raid filesystems, it would be nice to have an operating system to use them. (Unless you have the social life of a kumquat in which case just creating them may be goal enough in itself.)

First we mount them - during install we can use "-o async" to maximise the write speed, as at this point we do not have any data we care about in the event of a crash. Once install is complete we'll use "-o log" for data security. Note also the mount_ffs used for dk0 as we have not yet rebooted to "fix" its issue. Mounting /tmp is not strictly needed, but its a nice test:

onyx# mount -o async /dev/raid0a /altroot
onyx# mkdir /altroot/home ; mount -o async /dev/raid1a /altroot/home
onyx# mkdir /altroot/tmp ; mount -o async /dev/raid2a /altroot/tmp

onyx# mkdir /altroot/home/media ; mount_ffs -o async /dev/dk0 /altroot/home/media
A quick df -to see how much space we have:

onyx# df -h
Filesystem        Size       Used      Avail %Cap Mounted on
/dev/sd0a          14G       6.0G       7.7G 43% /
tmpfs             905M       4.0K       905M   0% /tmp
tmpfs             905M       4.0K       905M   0% /var/tmp
/dev/raid0a        39G       8.0K        37G   0% /altroot
/dev/raid1a        39G       8.0K        37G   0% /altroot/home
/dev/raid2a        30G       4.0K        28G   0% /altroot/tmp
/dev/dk0          7.1T       8.0K       6.7T   0% /altroot/home/media

Next, extract NetBSD to /altroot - if you've booted from USB key and are happy to use that install as a base then just run

onyx# cd / ; pax -rw -pe -X / /altroot

Alternatively extract a NetBSD release *.tgz files into /altroot

Setup /altroot/etc/fstab - a sample might be:

# /etc/fstab
/dev/raid0a   /           ffs    rw,log 1 1
/dev/raid1e   /home       ffs    rw,log 1 2
/dev/raid2a   /tmp        ffs    rw,log 1 2
/dev/raid2b   swap        swap   sw     0 0
/dev/dk0      /home/media ffs    rw,log 1 3
/proc         /proc       procfs rw
kernfs        /kern       kernfs rw
ptyfs         /dev/pts    ptyfs rw

Install boot blocks - we need to do this on *both* wd0 and wd1 so the system can still boot in the event of a single disk failure:

onyx# cd /altroot ; cp usr/mdec/boot .
onyx# installboot /dev/rwd0a usr/mdec/bootxx_ffsv2
onyx# installboot /dev/rwd1a usr/mdec/bootxx_ffsv2

Finally setup raid0 to automatically configure as the root filesystem

onyx# raidctl -A root raid0

... and we're done. Setup apache to serve webdav for your xbmc machines, samba, netatalk, and nfs as required :)

April 06, 2010

Nhat Minh La Not dead yet: xmltools, long after the summer
Soon, it will be the Summer (of Code) again, and this year, too, NetBSD will be participating.^α At around the same time, last year, I was busy writing technical proposals for what would become xmltools, one of the accepted NetBSD SoC projects of 2009. Well, most of you have probably forgotten about that small project; some may even think it was a useless attempt and a waste of time and money, which could have been better spent elsewhere… Err, in fact, I’m writing this to say that my xmltools are not dead! And I still intend to contribute the code to the NetBSD tree sometime in the (near) future.
α : And if you’re a student who’s into systems and stuff, looking for a cool organization to join, with a broad selection of projects, why not give NetBSD a try? :)
That being said, if you take a look at the Git repo, you’ll surely notice that nothing has moved for months… If you fool around a bit more, though, you may notice another project on the same Git host: regxml. Yep, this is a rewrite of my xmltools!
Why a rewrite, you ask? Well, basically because the old implementation was flawed by design, in addition to having become a mess.
The little boring story
And here’s the long answer, for those who care. Feel free to skip this section if it bores you.
During the second part of last year’s SoC, as I was trying to work on xmlsed, I realized my design was flawed. The main problem was that I had based all my efforts around a concept that was, for our purpose, completely inappropriate: node sets.
So what’s a node set? A node set is simply that: a set of nodes. Now, that’s great if you are extracting data from an XML document, as did xmlgrep, but it sucks if you’re going to operate further on that. In particular, removing arbitrary nodes from an XML tree doesn’t yield a tree, and replacing a node set made no sense at all. (How would you replace two far away nodes with one big chunk of XML? There are many ways to go about it… but they’re all wrong IMO.)
So what emerged at the end of the summer was that… I needed a new design, and as my original algorithm had become crippled with dubious ad hoc attempts to support operations that it never could, I needed a new algorithm too. (Besides, there was a deficiency in my algorithm that made it perform in super-polynomial time with some patterns and data sets, which was bad.)
It took me something like one month (since I wasn’t full-time on it) to jot down the new concepts and a (hopefully) good algorithm on paper. Then, for months, I’d try to implement it, but each time, something would feel really wrong, and I’d trash my new implementation. Well, that was till some days ago, when somehow, I got it right, and so the new xmltools were born!
XML intervals
So all this boils down to the following fundamental change: XML node sets have been replaced by XML intervals, as the core objects the xmltools operate on. An XML interval is really just that: a bunch of adjacent siblings and all their children. You should read the included xmltools(7) manual page for more information, from a user’s point of view.
From a more theoretical viewpoint, intervals have two important advantages over sets:
1. Inserting or removing an XML interval in an XML tree keeps it a tree. In other words, XML trees are stable by insertion and deletion of arbitrary XML intervals. (It may not have any meaning anymore, but remember xmltools are about syntax, not semantics.)
2. XML intervals map (injectively) to byte intervals in the XML file, hence all editing operations on XML intervals (sequences of insertions and deletions) can be expressed as operations on sequences of bytes in the file itself.
The first property is what I am convinced will make xmlsed possible. Previously, with node sets, it was a nightmare to give proper semantics to the various operations. But now, we have simple objects that still retain a great deal of expressivity but can be manipulated easily, with simple rules.
Although I do not use the second property yet, I’m definitely thinking about introducing an API for that sometime in the (not quite near) future.
The idea is that you run the XML matcher on a file mapped in memory (mapping new chunks as needed), and get a program script consisting of byte operations, that you can then run very efficiently on the memory-mapped file! Instead of printing an interval, you’d just copy over the entire memory region. Instead of deleting an interval, you’d just ignore that chunk. You get the idea. It could be used for efficient processing of massive data with complex transformation rules, but we’re not quite there, yet. :)
xmltools and NetBSD
As I’ve discussed with David (<dyoung>), I intend to import my core library, as well as xmlgrep into base sometime in the near future (once it has undergone more thorough testing). It depends on Expat for XML parsing, so I’ll need to import that too.
After much thinking, I think I’ll settle with a subdirectory in src/external/bsd, though I use the NetBSD build system, as I want to keep my development model using Git, and the ability to easily make packages of all my tools for non-NetBSD platforms.
The new code base uses (Net)BSD idioms more extensively than the old one (because I’ve got the time to read more NetBSD code since I started in May of last year). (E.g. I’ve followed David’s suggestion that I should make use of sys/queue.h.) Quite surprisingly, it compiles almost as is on GNU/Linux, with three additional defines and two trivial functions. I do provide a simple GNU makefile in addition to the default NetBSD build system makefiles, for GNU/Linux builds. Of course, you’re welcome to try to build it on other systems I don’t have access to!
What the future holds
Well, what’ll come next depends on a lot of factors, some of which are completely outside of my control. But there is one thing you can do: please download, compile, read the man pages, and test xmlgrep and give me some feedback, so I can fix bugs!
```
$ git clone git://git.huoc.org/regxml.git
```
Or through Git-Web: http://git.huoc.org/?p=regxml.git;a=summary
As far as the xmltools project is concerned, I’m now going to concentrate on xmlsed. I already have an idea of the implementation, and I think it’s not going to be too hard… hopefully, I’m not wrong. :)
P.S.: Oh, I forgot to talk about the new algorithm. Well, to get the idea, it’s basically an automaton backed by a backtracking memoizing work-queue-based interpreter, which roams the XML tree and try to match intervals. You should read the xmltools(7) man page for a high-level overview of the technique. Maybe I’ll write something more consistent on the subject later…

March 20, 2010

SP Zeidler Google Summer of Code 2010
Google Summer of Code is a program where Google is employing students for a summer job that consists of the student working on an open source programming project.

My organization, NetBSD, is taking part as a mentoring organization, like we did in previous years, and I am this years main organization administrator for NetBSD.

If you are a student, at least 18 years old, have nothing planned yet for the summer break, know some Unix and can passably program in C, look at our suggested projects page.

You do not have to be a programming god to take part in GSoC; any projects on our list up to medium can be done by someone who knows the basics, has an idea what the project is about, and is willing to work hard on it. You are not going to be left alone with your project, you will have a mentor who will tell you what you need to learn and research and who'll help you if you get stuck.

If you find something that appeals to you, talk to the listed contacts, and go ahead and apply for it if it continues to appeal. More than one application is entirely acceptable, as long as you did your homework on the projects you are applying for.

If you don't find any project that appeals to you with NetBSD (eg because your programming language of choice is anything but C), look if you find something that does hit the sweet spot here.

You will hardly ever get a better jumpstart into high quality programming than by taking part in this program. In most of the lesser difficulty projects on the NetBSD list, the mentor could do the project in less time alone than they'll spend mentoring you; while a finished product is definitely a vital goal, the more important goal is getting you across the initial hurdles of not daring to take part and not knowing how to take part in an open source project, and to teach you good practical programming habits.

While there are programming gods (NetBSD has a few), the project would not work with them alone. And the remainder of the people are just cooking with water and breathing air. And, you know? with a little bit of initial prodding, you might grow to be a programming god eventually.

PS: if you already are a programming god, put your teeth into a high difficulty project. :-)

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