A descriptor, also commonly called a file
handle is an object that a program uses to read or write
an open file, or open network socket, or a variety of other
devices. It is represented by an integer, and you may be
stderr which are descriptors 0, 1, and 2
respectively. Apache needs a descriptor for each log file, plus
one for each network socket that it listens on, plus a handful
of others. Libraries that Apache uses may also require
descriptors. Normal programs don't open up many descriptors at
all, and so there are some latent problems that you may
experience should you start running Apache with many
descriptors (i.e., with many virtual hosts).
The operating system enforces a limit on the number of descriptors that a program can have open at a time. There are typically three limits involved here. One is a kernel limitation, depending on your operating system you will either be able to tune the number of descriptors available to higher numbers (this is frequently called FD_SETSIZE). Or you may be stuck with a (relatively) low amount. The second limit is called the hard resource limit, and it is sometimes set by root in an obscure operating system file, but frequently is the same as the kernel limit. The third limit is called the soft resource limit. The soft limit is always less than or equal to the hard limit. For example, the hard limit may be 1024, but the soft limit only 64. Any user can raise their soft limit up to the hard limit. Root can raise the hard limit up to the system maximum limit. The soft limit is the actual limit that is used when enforcing the maximum number of files a process can have open.
#open files <= soft limit <= hard limit <= kernel limit
You control the hard and soft limits using the
limit (csh) or
directives. See the respective man pages for more information.
For example you can probably use
unlimited to raise your soft limit up to the hard limit.
You should include this command in a shell script which starts
Unfortunately, it's not always this simple. As mentioned above, you will probably run into some system limitations that will need to be worked around somehow. Work was done in version 1.2.1 to improve the situation somewhat. Here is a partial list of systems and workarounds (assuming you are using 1.2.1 or later):
EXTRA_CFLAGS(where nnn is the number of descriptors you wish to support, keep it less than the hard limit). But it will run into trouble if more than approximately 240 Listen directives are used. This may be cured by rebuilding your kernel with a higher FD_SETSIZE.
FD_SETSIZEand rebuild. But the extra Listen limitation doesn't exist.
EXTRA_CFLAGS. You will be limited to approximately 240 error logs if you do this.
/* * Select uses bit masks of file descriptors. * These macros manipulate such bit fields. * FD_SETSIZE may be defined by the user to the maximum valued file * descriptor to be selected; the default here should be == OPEN_MAX */ #ifndef FD_SETSIZE #define FD_SETSIZE 32767 /* must be == OPEN_MAX in
/etc/conf/cf.d/stunefile or use
/etc/conf/cf.d/configurechoice 7 (User and Group configuration) and modify the
NOFILESkernel parameter to a suitably higher value. SCO recommends a number between 60 and 11000, the default is 110. Relink and reboot, and the new number of descriptors will be available.
open_max_hardto 4096 in the proc subsystem. Do a man on sysconfig, sysconfigdb, and sysconfigtab.
max-vnodesto a large number which is greater than the number of apache processes * 4096 (Setting it to 250,000 should be good for most people). Do a man on sysconfig, sysconfigdb, and sysconfigtab.
NO_SLACKto work around a bug in the OS.
In addition to the problems described above there are problems with many libraries that Apache uses. The most common example is the bind DNS resolver library that is used by pretty much every unix, which fails if it ends up with a descriptor above 256. We suspect there are other libraries that similar limitations. So the code as of 1.2.1 takes a defensive stance and tries to save descriptors less than 16 for use while processing each request. This is called the low slack line.
Note that this shouldn't waste descriptors. If you really are pushing the limits and Apache can't get a descriptor above 16 when it wants it, it will settle for one below 16.
In extreme situations you may want to lower the low slack
line, but you shouldn't ever need to. For example, lowering it
can increase the limits 240 described above under Solaris and
BSDI 2.0. But you'll play a delicate balancing game with the
descriptors needed to serve a request. Should you want to play
this game, the compile time parameter is
LOW_SLACK_LINE and there's a tiny bit of
documentation in the header file
Finally, if you suspect that all this slack stuff is causing
you problems, you can disable it. Add
EXTRA_CFLAGS and rebuild. But please report it
to our Bug
Report Page so that we can investigate.