[ViewVC] Diff of: cvs/libev/ev.pod

Comparing libev/ev.pod (file contents):
Revision 1.280 by sf-exg, Tue Feb 16 12:17:57 2010 UTC vs.
Revision 1.288 by root, Tue Mar 16 00:54:52 2010 UTC

 So when you encounter spurious, unexplained daemon exits, make sure you
 ignore SIGPIPE (and maybe make sure you log the exit status of your daemon
 somewhere, as that would have given you a big clue).
+=head3 The special problem of accept()ing when you can't
+Many implementations of the POSIX C<accept> function (for example,
+found in port-2004 Linux) have the peculiar behaviour of not removing a
+connection from the pending queue in all error cases.
+For example, larger servers often run out of file descriptors (because
+of resource limits), causing C<accept> to fail with C<ENFILE> but not
+rejecting the connection, leading to libev signalling readiness on
+the next iteration again (the connection still exists after all), and
+typically causing the program to loop at 100% CPU usage.
+Unfortunately, the set of errors that cause this issue differs between
+operating systems, there is usually little the app can do to remedy the
+situation, and no known thread-safe method of removing the connection to
+cope with overload is known (to me).
+One of the easiest ways to handle this situation is to just ignore it
+- when the program encounters an overload, it will just loop until the
+situation is over. While this is a form of busy waiting, no OS offers an
+event-based way to handle this situation, so it's the best one can do.
+A better way to handle the situation is to log any errors other than
+C<EAGAIN> and C<EWOULDBLOCK>, making sure not to flood the log with such
+messages, and continue as usual, which at least gives the user an idea of
+what could be wrong ("raise the ulimit!"). For extra points one could stop
+the C<ev_io> watcher on the listening fd "for a while", which reduces CPU
+usage.
+If your program is single-threaded, then you could also keep a dummy file
+descriptor for overload situations (e.g. by opening F</dev/null>), and
+when you run into C<ENFILE> or C<EMFILE>, close it, run C<accept>,
+close that fd, and create a new dummy fd. This will gracefully refuse
+clients under typical overload conditions.
+The last way to handle it is to simply log the error and C<exit>, as
+is often done with C<malloc> failures, but this results in an easy
+opportunity for a DoS attack.
 =head3 Watcher-Specific Functions
 =over 4
    libev.m4
 =head2 PREPROCESSOR SYMBOLS/MACROS
 Libev can be configured via a variety of preprocessor symbols you have to
-define before including any of its files. The default in the absence of
+define before including (or compiling) any of its files. The default in
-autoconf is documented for every option.
+the absence of autoconf is documented for every option.
+Symbols marked with "(h)" do not change the ABI, and can have different
+values when compiling libev vs. including F<ev.h>, so it is permissible
+to redefine them before including F<ev.h> without breakign compatibility
+to a compiled library. All other symbols change the ABI, which means all
+users of libev and the libev code itself must be compiled with compatible
+settings.
 =over 4
-=item EV_STANDALONE
+=item EV_STANDALONE (h)
 Must always be C<1> if you do not use autoconf configuration, which
 keeps libev from including F<config.h>, and it also defines dummy
 implementations for some libevent functions (such as logging, which is not
 supported). It will also not define any of the structs usually found in
 as well as for signal and thread safety in C<ev_async> watchers.
 In the absence of this define, libev will use C<sig_atomic_t volatile>
 (from F<signal.h>), which is usually good enough on most platforms.
-=item EV_H
+=item EV_H (h)
 The name of the F<ev.h> header file used to include it. The default if
 undefined is C<"ev.h"> in F<event.h>, F<ev.c> and F<ev++.h>. This can be
 used to virtually rename the F<ev.h> header file in case of conflicts.
-=item EV_CONFIG_H
+=item EV_CONFIG_H (h)
 If C<EV_STANDALONE> isn't C<1>, this variable can be used to override
 F<ev.c>'s idea of where to find the F<config.h> file, similarly to
 C<EV_H>, above.
-=item EV_EVENT_H
+=item EV_EVENT_H (h)
 Similarly to C<EV_H>, this macro can be used to override F<event.c>'s idea
 of how the F<event.h> header can be found, the default is C<"event.h">.
-=item EV_PROTOTYPES
+=item EV_PROTOTYPES (h)
 If defined to be C<0>, then F<ev.h> will not define any function
 prototypes, but still define all the structs and other symbols. This is
 occasionally useful if you want to provide your own wrapper functions
 around libev functions.
 fine.
 If your embedding application does not need any priorities, defining these
 both to C<0> will save some memory and CPU.
-=item EV_PERIODIC_ENABLE
+=item EV_PERIODIC_ENABLE, EV_IDLE_ENABLE, EV_EMBED_ENABLE, EV_STAT_ENABLE,
+EV_PREPARE_ENABLE, EV_CHECK_ENABLE, EV_FORK_ENABLE, EV_SIGNAL_ENABLE,
+EV_ASYNC_ENABLE, EV_CHILD_ENABLE.
-If undefined or defined to be C<1>, then periodic timers are supported. If
+If undefined or defined to be C<1> (and the platform supports it), then
-defined to be C<0>, then they are not. Disabling them saves a few kB of
+the respective watcher type is supported. If defined to be C<0>, then it
-code.
+is not. Disabling watcher types mainly saves codesize.
-=item EV_IDLE_ENABLE
+=item EV_FEATURES
-If undefined or defined to be C<1>, then idle watchers are supported. If
-defined to be C<0>, then they are not. Disabling them saves a few kB of
-code.
-=item EV_EMBED_ENABLE
-If undefined or defined to be C<1>, then embed watchers are supported. If
-defined to be C<0>, then they are not. Embed watchers rely on most other
-watcher types, which therefore must not be disabled.
-=item EV_STAT_ENABLE
-If undefined or defined to be C<1>, then stat watchers are supported. If
-defined to be C<0>, then they are not.
-=item EV_FORK_ENABLE
-If undefined or defined to be C<1>, then fork watchers are supported. If
-defined to be C<0>, then they are not.
-=item EV_ASYNC_ENABLE
-If undefined or defined to be C<1>, then async watchers are supported. If
-defined to be C<0>, then they are not.
-=item EV_MINIMAL
 If you need to shave off some kilobytes of code at the expense of some
-speed (but with the full API), define this symbol to C<1>. Currently this
+speed (but with the full API), you can define this symbol to request
-is used to override some inlining decisions, saves roughly 30% code size
+certain subsets of functionality. The default is to enable all features
-on amd64. It also selects a much smaller 2-heap for timer management over
+that can be enabled on the platform.
-the default 4-heap.
-You can save even more by disabling watcher types you do not need
+A typical way to use this symbol is to define it to C<0> (or to a bitset
-and setting C<EV_MAXPRI> == C<EV_MINPRI>. Also, disabling C<assert>
+with some broad features you want) and then selectively re-enable
-(C<-DNDEBUG>) will usually reduce code size a lot.
+additional parts you want, for example if you want everything minimal,
+but multiple event loop support, async and child watchers and the poll
+backend, use this:
-Defining C<EV_MINIMAL> to C<2> will additionally reduce the core API to
+   #define EV_FEATURES 0
-provide a bare-bones event library. See C<ev.h> for details on what parts
+   #define EV_MULTIPLICITY 1
-of the API are still available, and do not complain if this subset changes
+   #define EV_USE_POLL 1
-over time.
+   #define EV_CHILD_ENABLE 1
+   #define EV_ASYNC_ENABLE 1
+The actual value is a bitset, it can be a combination of the following
+values:
+=over 4
+=item C<1> - faster/larger code
+Use larger code to speed up some operations.
+Currently this is used to override some inlining decisions (enlarging the  roughly
+30% code size on amd64.
+When optimising for size, use of compiler flags such as C<-Os> with
+gcc recommended, as well as C<-DNDEBUG>, as libev contains a number of
+assertions.
+=item C<2> - faster/larger data structures
+Replaces the small 2-heap for timer management by a faster 4-heap, larger
+hash table sizes and so on. This will usually further increase codesize
+and can additionally have an effect on the size of data structures at
+runtime.
+=item C<4> - full API configuration
+This enables priorities (sets C<EV_MAXPRI>=2 and C<EV_MINPRI>=-2), and
+enables multiplicity (C<EV_MULTIPLICITY>=1).
+=item C<8> - full API
+This enables a lot of the "lesser used" API functions. See C<ev.h> for
+details on which parts of the API are still available without this
+feature, and do not complain if this subset changes over time.
+=item C<16> - enable all optional watcher types
+Enables all optional watcher types.  If you want to selectively enable
+only some watcher types other than I/O and timers (e.g. prepare,
+embed, async, child...) you can enable them manually by defining
+C<EV_watchertype_ENABLE> to C<1> instead.
+=item C<32> - enable all backends
+This enables all backends - without this feature, you need to enable at
+least one backend manually (C<EV_USE_SELECT> is a good choice).
+=item C<64> - enable OS-specific "helper" APIs
+Enable inotify, eventfd, signalfd and similar OS-specific helper APIs by
+default.
+=back
+Compiling with C<gcc -Os -DEV_STANDALONE -DEV_USE_EPOLL=1 -DEV_FEATURES=0>
+reduces the compiled size of libev from 24.7Kb code/2.8Kb data to 6.5Kb
+code/0.3Kb data on my GNU/Linux amd64 system, while still giving you I/O
+watchers, timers and monotonic clock support.
+With an intelligent-enough linker (gcc+binutils are intelligent enough
+when you use C<-Wl,--gc-sections -ffunction-sections>) functions unused by
+your program might be left out as well - a binary starting a timer and an
+I/O watcher then might come out at only 5Kb.
+=item EV_AVOID_STDIO
+If this is set to C<1> at compiletime, then libev will avoid using stdio
+functions (printf, scanf, perror etc.). This will increase the codesize
+somewhat, but if your program doesn't otherwise depend on stdio and your
+libc allows it, this avoids linking in the stdio library which is quite
+big.
+Note that error messages might become less precise when this option is
+enabled.
 =item EV_NSIG
 The highest supported signal number, +1 (or, the number of
 signals): Normally, libev tries to deduce the maximum number of signals
 statically allocates some 12-24 bytes per signal number.
 =item EV_PID_HASHSIZE
 C<ev_child> watchers use a small hash table to distribute workload by
-pid. The default size is C<16> (or C<1> with C<EV_MINIMAL>), usually more
+pid. The default size is C<16> (or C<1> with C<EV_FEATURES> disabled),
-than enough. If you need to manage thousands of children you might want to
+usually more than enough. If you need to manage thousands of children you
-increase this value (I<must> be a power of two).
+might want to increase this value (I<must> be a power of two).
 =item EV_INOTIFY_HASHSIZE
 C<ev_stat> watchers use a small hash table to distribute workload by
-inotify watch id. The default size is C<16> (or C<1> with C<EV_MINIMAL>),
+inotify watch id. The default size is C<16> (or C<1> with C<EV_FEATURES>
-usually more than enough. If you need to manage thousands of C<ev_stat>
+disabled), usually more than enough. If you need to manage thousands of
-watchers you might want to increase this value (I<must> be a power of
+C<ev_stat> watchers you might want to increase this value (I<must> be a
-two).
+power of two).
 =item EV_USE_4HEAP
 Heaps are not very cache-efficient. To improve the cache-efficiency of the
 timer and periodics heaps, libev uses a 4-heap when this symbol is defined
 to C<1>. The 4-heap uses more complicated (longer) code but has noticeably
 faster performance with many (thousands) of watchers.
-The default is C<1> unless C<EV_MINIMAL> is set in which case it is C<0>
+The default is C<1>, unless C<EV_FEATURES> overrides it, in which case it
-(disabled).
+will be C<0>.
 =item EV_HEAP_CACHE_AT
 Heaps are not very cache-efficient. To improve the cache-efficiency of the
 timer and periodics heaps, libev can cache the timestamp (I<at>) within
 the heap structure (selected by defining C<EV_HEAP_CACHE_AT> to C<1>),
 which uses 8-12 bytes more per watcher and a few hundred bytes more code,
 but avoids random read accesses on heap changes. This improves performance
 noticeably with many (hundreds) of watchers.
-The default is C<1> unless C<EV_MINIMAL> is set in which case it is C<0>
+The default is C<1>, unless C<EV_FEATURES> overrides it, in which case it
-(disabled).
+will be C<0>.
 =item EV_VERIFY
 Controls how much internal verification (see C<ev_loop_verify ()>) will
 be done: If set to C<0>, no internal verification code will be compiled
 called. If set to C<2>, then the internal verification code will be
 called once per loop, which can slow down libev. If set to C<3>, then the
 verification code will be called very frequently, which will slow down
 libev considerably.
-The default is C<1>, unless C<EV_MINIMAL> is set, in which case it will be
+The default is C<1>, unless C<EV_FEATURES> overrides it, in which case it
-C<0>.
+will be C<0>.
 =item EV_COMMON
 By default, all watchers have a C<void *data> member. By redefining
 this macro to a something else you can include more and other types of
 file.
 The usage in rxvt-unicode is simpler. It has a F<ev_cpp.h> header file
 that everybody includes and which overrides some configure choices:
-   #define EV_MINIMAL 1
+   #define EV_FEATURES 8
-   #define EV_USE_POLL 0
+   #define EV_USE_SELECT 1
-   #define EV_MULTIPLICITY 0
-   #define EV_PERIODIC_ENABLE 0
+   #define EV_PREPARE_ENABLE 1
+   #define EV_IDLE_ENABLE 1
-   #define EV_STAT_ENABLE 0
+   #define EV_SIGNAL_ENABLE 1
-   #define EV_FORK_ENABLE 0
+   #define EV_CHILD_ENABLE 1
+   #define EV_USE_STDEXCEPT 0
    #define EV_CONFIG_H <config.h>
-   #define EV_MINPRI 0
-   #define EV_MAXPRI 0
    #include "ev++.h"
 And a F<ev_cpp.C> implementation file that contains libev proper and is compiled:

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Comparing libev/ev.pod (file contents): Revision 1.280 by sf-exg, Tue Feb 16 12:17:57 2010 UTC vs. Revision 1.288 by root, Tue Mar 16 00:54:52 2010 UTC

Diff Legend

Comparing libev/ev.pod (file contents):
Revision 1.280 by sf-exg, Tue Feb 16 12:17:57 2010 UTC vs.
Revision 1.288 by root, Tue Mar 16 00:54:52 2010 UTC