fuck netgear

Fuck them right in the ear.

The web UI sucks, doesn’t actually work properly under a free browser (errr… okay, Gecko based) – namely the page where you can change the IP of the router.

In modem mode, it seems to still be able to do PPPoA authentication – which makes really weird shit happen. like a netmask of 255.255.255.255 – which I’m not actually convinced is a ADSL modem problem, possible internode instead. Think about how the hell you’re meant to access your gateway.

Oh, and the port forwarding doesn’t work!!!

It’s a Netgear DG632 ADSL Modem Router.

Although it does run linux (or at least some GPL and some LGPL software). Why the hell can’t i just get a console into the darn thing.

just what i wanted to spend time on after a day moving.

Slashdot | Sun Open-Sourcing UltraSPARC Design

Slashdot | Sun Open-Sourcing UltraSPARC Design

This is pretty ultra-cool news. Especially in academic circles and for upcoming chip designers.

I’m sure that there’s decent business models in place so that they don’t cannibalise their hardware sales.

What would be very cool is if cheap manufactures pick up slightly older chip generations and produce them for dirt-cheap prices. This means more commodity hardware – which is very good for humanity.

It also makes it possible to run an even more open platform where even the source to your CPU is available!

new .emacs snippet

for the non lisp hackers – this sets some c mode options depending on the name of the path to the source file.


;; run this for mysql source
(defun mysql-c-mode-common-hook () (setq indent-tabs-mode nil))

;; linux kernel style
(defun linux-c-mode-common-hook () linux-c-mode)

(setq my-c-mode-common-hook '(lambda ()
(turn-on-font-lock)
(setq comment-column 48)
)
)

;; predicates to check
(defvar my-style-selective-mode-hook nil)

(add-hook 'my-style-selective-mode-hook
'((string-match "MySQL" (buffer-file-name)) . mysql-c-mode-common-hook)
)

(add-hook 'my-style-selective-mode-hook
'((string-match "linux" (buffer-file-name)) . linux-c-mode-common-hook)
)

;; default hook
(add-hook 'my-style-selective-mode-hook
'(t . my-c-mode-common-hook) t)

;; find which hook to run depending on predicate
(defun my-style-selective-mode-hook-function ()
"Run each PREDICATE in `my-style-selective-mode-hook' to see if the
HOOK in the pair should be executed. If the PREDICATE evaluate to non
nil HOOK is executed and the rest of the hooks are ignored."
(let ((h my-style-selective-mode-hook))
(while (not (eval (caar h)))
(setq h (cdr h)))
(funcall (cdar h))))

;; Add the selective hook to the c-mode-common-hook
(add-hook 'c-mode-common-hook 'my-style-selective-mode-hook-function)

disk space allocation (part 4: allocating an extent)

For XFS, in normal operation, an extent is only allocated when data has to be written to disk. This is called delayed allocation. If we are extending a file by 50MB – that space is deducted from the total free space on the filesystem, but no decision on where to place that data is made until we start writing it out – due to memory pressure or the kernel automatically starts writing the dirty pages out (the sync once every 5 seconds on linux).

When an extent needs to be allocated, XFS looks it up in one of two b+trees it has of free space. There is one sorted by starting block number (so you can search for “an extent near here”) and one by size (so you can search for “an extent of x size”).

The ideal situation being that you want as large an extent as possible as close to the tail end of the file as possible (i.e. just making the current extent bigger).

The worst-case scenario is having to allocate extents to multiple files at once with all of them being written out synchronously (O_SYNC or memory pressure) as this will cause lots of small extents to be created.

disk space allocation (part 3: storing extents on disk)

Here I’m going to talk about how file systems store what part of the disk a part of the file occupies. If your database files are very fragmented, performance will suffer. How much depends on a number of things however.

XFS can store some extents directly in the inode (see xfs_dinode.h). If I’m reading things correctly, this can be 2 extents per fork (data fork and attribute fork). If more than this number of extents are needed, a btree is used instead.

HFS/HFS+ can store up to 8 extents directly in the catalog file entry (see Apple TechNote 1150 – which was updated in March 2004 with information on the journal format). If the file has more than 8 extents, a lookup then needs to be done into the extents overflow file. Interestingly enough, in MacOS X 10.4 and above (i think it was 10.4… may have been 10.3 as well) if a file is less than 20MB and has more than 8 extents, on an open, the OS will automatically try to defragment that file. Arguably you should just fix your allocation strategy, but hey – maybe this does actually help.

File systems such as ext2, ext3 and reiserfs just store a list of block numbers. In the case of ext2 and ext3, the futher into a file you are, the more steps are required to find the disk block number associated with that block in the file.

So what does an extent actually look like? Well, for XFS, the following excerpt from xfs_bmap_btree.h is interesting:

#define ISUNWRITTEN(x) ((x)->br_state == XFS_EXT_UNWRITTEN)

typedef struct xfs_bmbt_irec
{
xfs_fileoff_t br_startoff; /* starting file offset */
xfs_fsblock_t br_startblock; /* starting block number */
xfs_filblks_t br_blockcount; /* number of blocks */
xfs_exntst_t br_state; /* extent state */
} xfs_bmbt_irec_t;

It’s also rather self explanetry. Holes (for sparse files) in XFS don’t have extents, and an extent doesn’t have to have been written to disk. This allows you to preallocate space in chunks without having written anything to it. Reading from an unwritten extent gets you zeros (otherwise it would be a security hole!).

Sweden!

I’m in the Stockholm office at the moment. on the network, grabbing mail and all that foo.

Spent yesterday in London with Leandra, finally having arrived after the plane was delayed for four hours in Melbourne. Urgh.

There’s snow! it’s cool.

will have to check how photos look at some point.

and oh, good to be back in europe – good jam.

disk space allocation (part 2: examining your database files)

memberdb/log.MYD:
 EXT: FILE-OFFSET      BLOCK-RANGE      AG AG-OFFSET        TOTAL
   0: [0..943]:        5898248..5899191  3 (36536..37479)     944
   1: [944..1023]:     6071640..6071719  3 (209928..210007)    80
   2: [1024..1127]:    6093664..6093767  3 (231952..232055)   104
   3: [1128..1279]:    6074800..6074951  3 (213088..213239)   152
   4: [1280..1407]:    6074672..6074799  3 (212960..213087)   128
   5: [1408..1423]:    6074264..6074279  3 (212552..212567)    16
memberdb/log.MYI:
 EXT: FILE-OFFSET      BLOCK-RANGE        AG AG-OFFSET        TOTAL
   0: [0..7]:          10165832..10165839  5 (396312..396319)     8

The interesting thing about this is that the log table grows very slowly. This table stores a bunch of debugging output for my memberdb applicaiton. It should possibly be a partitioned ARCHIVE table (and probably will in the future).

The thing about a file growing slowly over time is that it’s more likely to have more than 1 extent (I’ll examine why in the near future).

My InnoDB data and log files only have 1 extent.. I think I’ve done a xfs_fsr on my file system though.

disk space allocation (part 1: seeing what’s happenned)

(a little while ago I was writing a really long entry on everything possible. I realised that this would be a long read for people and that less people would look at it, so I’ve split it up).

This sprung out of doing work on the NDB disk data tree. Anything where efficient use of the filesystem is concerned tickles my fancy, so I went to have a look at what was going on.

Filesystems store what part of the disk belongs to what file in one of two ways. The first is to keep a list of every disk block (typically 4kb) that’s being used by the file. A 400kb file will have 100 block numbers. The second way is to store a range (extent). That is, a 400kb file could use 100 blocks starting at disk block number 1000.

XFS has a tool called xfs_bmap. It gives you a list of the extents allocated to a file.

So, let’s have a look at what it tells us about some recordings on my MythTV box.

myth@orpheus:~$ ls -lah myth-recordings/10_20050912183000_20050912190000.nuv
 -rw-r--r--  1 myth myth 452M 2005-09-12 19:00 myth-recordings/10_20050912183000_20050912190000.nuv
myth@orpheus:~$ xfs_bmap -v myth-recordings/10_20050912183000_20050912190000.nuv
myth-recordings/10_20050912183000_20050912190000.nuv:
 EXT: FILE-OFFSET       BLOCK-RANGE          AG AG-OFFSET             TOTAL
   0: [0..639]:         228712176..228712815  7 (21106232..21106871)    640
   1: [640..1663]:      83674040..83675063    2 (24358056..24359079)   1024
   2: [1664..923519]:   83675368..84597223    2 (24359384..25281239) 921856
   3: [923520..924031]: 84631272..84631783    2 (25315288..25315799)    512

Just to make things fun, this is all in 512byte blocks. But anyway, the real interesting thing is the number of extents. Ideally, every file would have one extent as this means that we avoid disk seeks – *the* most expensive disk operation.

XFS also provides the xfs_fsr tool (File System Repacker) that can defragment files (even on a mounted file system). On IRIX this used to run out of cron – fun when a bunch of machines hit a CXFS volume all at the same time.

Foot High In Tray

When the In tray gets to be over a foot high, you know it’s time to actually go through it.

It’s small again now – less than an hour (while doing other things).

I should really move to interrupt mode instead of batch mode.

Although most of the things that go into my in tray really only need filing, i’ve already taken the action.

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arjen_lentz: MySQL thread cache

arjen_lentz: MySQL thread cache

It should be noted however that creating and destroying threads on some platforms is a very very cheap operation. Linux with NPTL (esp on x86) is one such platform.

(even without NPTL on x86 it’s stil pretty cheap).

On PPC with LinuxThreads it’s quite expensive.

On PPC with MacOS X it’s also very expensive.

I think i’ve blogged about this previously.

But users on MacOS X, Windows and Linux without NPTL should certainly consider using the thread cache. Otherwise, if you’re on x86 with NPTL you probably don’t have to bother – or at least you notice a very small benefit.

GNOME board discussions

Seeing that I’m on the board of a FOSS related group (Linux Australia), I naturally take an interest in how similar organisations do things.

So it’s been interesting watching what GNOME Foundation has been doing. I haven’t been watching that closely, but planet GNOME helps :)

jdub blogs about his choices in the upcoming vote on GNOME Foundation board stuff. He does have a good point here, as do others indicating they’ll vote the other way.

Jeff is totally right that it’s not the board that should be the great doers – they should represent and get the admin stuff done (or delegate it to appropriate parties – such as accountants).

I think we’ve gotten better with LA stuff by educating members on this issue. People are learning that you shouldn’t vote for the person who’s had the most cvs commits to $project. You should vote for the person who can make sure the organisation can continue but is also approachable and will bring views to the rest of the board (i.e. represent).

One idea is to maybe have an advisory committee. This can be larger and represent all interested parties. The (smaller) board could then go to them for advice on what the larger group thinks.

I do think that 11 sounds big – but just reducing numbers won’t necessarily fix any problems.

Good luck guys – you are living in interesting times!