From c21c3b0befeb46a51b6bf3758ffa30813bea0ff0 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sat, 9 Mar 2024 14:19:22 +0100 Subject: Adding upstream version 1.44.3. Signed-off-by: Daniel Baumann --- .../monkey/mk_core/deps/libevent/whatsnew-2.1.txt | 690 +++++++++++++++++++++ 1 file changed, 690 insertions(+) create mode 100644 fluent-bit/lib/monkey/mk_core/deps/libevent/whatsnew-2.1.txt (limited to 'fluent-bit/lib/monkey/mk_core/deps/libevent/whatsnew-2.1.txt') diff --git a/fluent-bit/lib/monkey/mk_core/deps/libevent/whatsnew-2.1.txt b/fluent-bit/lib/monkey/mk_core/deps/libevent/whatsnew-2.1.txt new file mode 100644 index 000000000..0be54ae11 --- /dev/null +++ b/fluent-bit/lib/monkey/mk_core/deps/libevent/whatsnew-2.1.txt @@ -0,0 +1,690 @@ + What's new in Libevent 2.1 + Nick Mathewson + +0. Before we start + +0.1. About this document + + This document describes the key differences between Libevent 2.0 and + Libevent 2.1, from a user's point of view. It's a work in progress. + + For better documentation about libevent, see the links at + http://libevent.org/ + + Libevent 2.1 would not be possible without the generous help of + numerous volunteers. For a list of who did what in Libevent 2.1, + please see the ChangeLog! + + NOTE: I am very sure that I missed some thing on this list. Caveat + haxxor. + +0.2. Where to get help + + Try looking at the other documentation too. All of the header files + have documentation in the doxygen format; this gets turned into nice + HTML and linked to from the libevent.org website. + + There is a work-in-progress book with reference manual at + http://www.wangafu.net/~nickm/libevent-book/ . + + You can ask questions on the #libevent IRC channel at irc.oftc.net or + on the mailing list at libevent-users@freehaven.net. The mailing list + is subscribers-only, so you will need to subscribe before you post. + +0.3. Compatibility + + Our source-compatibility policy is that correct code (that is to say, + code that uses public interfaces of Libevent and relies only on their + documented behavior) should have forward source compatibility: any + such code that worked with a previous version of Libevent should work + with this version too. + + We don't try to do binary compatibility except within stable release + series, so binaries linked against any version of Libevent 2.0 will + probably need to be recompiled against Libevent 2.1.4-alpha if you + want to use it. It is probable that we'll break binary compatibility + again before Libevent 2.1 is stable. + +1. New APIs and features + +1.1. New ways to build libevent + + We now provide an --enable-gcc-hardening configure option to turn on + GCC features designed for increased code security. + + There is also an --enable-silent-rules configure option to make + compilation run more quietly with automake 1.11 or later. + + You no longer need to use the --enable-gcc-warnings option to turn on + all of the GCC warnings that Libevent uses. The only change from + using that option now is to turn warnings into errors. + + For IDE users, files that are not supposed to be built are now + surrounded with appropriate #ifdef lines to keep your IDE from getting + upset. + + There is now an alternative cmake-based build process; cmake users + should see the relevant sections in the README. + + +1.2. New functions for events and the event loop + + If you're running Libevent with multiple event priorities, you might + want to make sure that Libevent checks for new events frequently, so + that time-consuming or numerous low-priority events don't keep it from + checking for new high-priority events. You can now use the + event_config_set_max_dispatch_interval() interface to ensure that the + loop checks for new events either every N microseconds, every M + callbacks, or both. + + When configuring an event base, you can now choose whether you want + timers to be more efficient, or more precise. (This only has effect + on Linux for now.) Timers are efficient by default: to select more + precise timers, use the EVENT_BASE_FLAG_PRECISE_TIMER flag when + constructing the event_config, or set the EVENT_PRECISE_TIMER + environment variable to a non-empty string. + + There is an EVLOOP_NO_EXIT_ON_EMPTY flag that tells event_base_loop() + to keep looping even when there are no pending events. (Ordinarily, + event_base_loop() will exit as soon as no events are pending.) + + Past versions of Libevent have been annoying to use with some + memory-leak-checking tools, because Libevent allocated some global + singletons but provided no means to free them. There is now a + function, libevent_global_shutdown(), that you can use to free all + globally held resources before exiting, so that your leak-check tools + don't complain. (Note: this function doesn't free non-global things + like events, bufferevents, and so on; and it doesn't free anything + that wouldn't otherwise get cleaned up by the operating system when + your process exit()s. If you aren't using a leak-checking tool, there + is not much reason to call libevent_global_shutdown().) + + There is a new event_base_get_npriorities() function to return the + number of priorities set in the event base. + + Libevent 2.0 added an event_new() function to construct a new struct + event on the heap. Unfortunately, with event_new(), there was no + equivalent for: + + struct event ev; + event_assign(&ev, base, fd, EV_READ, callback, &ev); + + In other words, there was no easy way for event_new() to set up an + event so that the event itself would be its callback argument. + Libevent 2.1 lets you do this by passing "event_self_cbarg()" as the + callback argument: + + struct event *evp; + evp = event_new(base, fd, EV_READ, callback, + event_self_cbarg()); + + There's also a new event_base_get_running_event() function you can + call from within a Libevent callback to get a pointer to the current + event. This should never be strictly necessary, but it's sometimes + convenient. + + The event_base_once() function used to leak some memory if the event + that it added was never actually triggered. Now, its memory is + tracked in the event_base and freed when the event_base is freed. + Note however that Libevent doesn't know how to free any information + passed as the callback argument to event_base_once is still something + you'll might need a way to de-allocate yourself. + + There is an event_get_priority() function to return an event's + priority. + + By analogy to event_base_loopbreak(), there is now an + event_base_loopcontinue() that tells Libevent to stop processing + active event callbacks, and re-scan for new events right away. + + There's a function, event_base_foreach_event(), that can iterate over + every event currently pending or active on an event base, and invoke a + user-supplied callback on each. The callback must not alter the events + or add or remove anything to the event base. + + We now have an event_remove_timer() function to remove the timeout on + an event while leaving its socket and/or signal triggers unchanged. + (If we were designing the API from scratch, this would be the behavior + of "event_add(ev, NULL)" on an already-added event with a timeout. But + that's a no-op in past versions of Libevent, and we don't want to + break compatibility.) + + You can use the new event_base_get_num_events() function to find the + number of events active or pending on an event_base. To find the + largest number of events that there have been since the last call, use + event_base_get_max_events(). + + You can now activate all the events waiting for a given fd or signal + using the event_base_active_by_fd() and event_base_active_by_signal() + APIs. + + On backends that support it (currently epoll), there is now an + EV_CLOSED flag that programs can use to detect when a socket has + closed without having to read all the bytes until receiving an EOF. + +1.3. Event finalization + + [NOTE: This is an experimental feature in Libevent 2.1.3-alpha. Though + it seems solid so far, its API might change between now and the first + release candidate for Libevent 2.1.] + +1.3.1. Why event finalization? + + Libevent 2.1 now supports an API for safely "finalizing" events that + might be running in multiple threads, and provides a way to slightly + change the semantics of event_del() to prevent deadlocks in + multithreaded programs. + + To motivate this feature, consider the following code, in the context + of a mulithreaded Libevent application: + + struct connection *conn = event_get_callback_arg(ev); + event_del(ev); + connection_free(conn); + + Suppose that the event's callback might be running in another thread, + and using the value of "conn" concurrently. We wouldn't want to + execute the connection_free() call until "conn" is no longer in use. + How can we make this code safe? + + Libevent 2.0 answered that question by saying that the event_del() + call should block if the event's callback is running in another + thread. That way, we can be sure that event_del() has canceled the + callback (if the callback hadn't started running yet), or has waited + for the callback to finish. + + But now suppose that the data structure is protected by a lock, and we + have the following code: + + void check_disable(struct connection *connection) { + lock(connection); + if (should_stop_reading(connection)) + event_del(connection->read_event); + unlock(connection); + } + + What happens when we call check_disable() from a callback and from + another thread? Let's say that the other thread gets the lock + first. If it decides to call event_del(), it will wait for the + callback to finish. But meanwhile, the callback will be waiting for + the lock on the connection. Since each threads is waiting for the + other one to release a resource, the program will deadlock. + + This bug showed up in multithreaded bufferevent programs in 2.1, + particularly when freeing bufferevents. (For more information, see + the "Deadlock when calling bufferevent_free from an other thread" + thread on libevent-users starting on 6 August 2012 and running through + February of 2013. You might also like to read my earlier writeup at + http://archives.seul.org/libevent/users/Feb-2012/msg00053.html and + the ensuing discussion.) + +1.3.2. The EV_FINALIZE flag and avoiding deadlock + + To prevent the deadlock condition described above, Libevent + 2.1.3-alpha adds a new flag, "EV_FINALIZE". You can pass it to + event_new() and event_assign() along with EV_READ, EV_WRITE, and the + other event flags. + + When an event is constructed with the EV_FINALIZE flag, event_del() + will not block on that event, even when the event's callback is + running in another thread. By using EV_FINALIZE, you are therefore + promising not to use the "event_del(ev); free(event_get_callback_arg(ev));" + pattern, but rather to use one of the finalization functions below to + clean up the event. + + EV_FINALIZE has no effect on a single-threaded program, or on a + program where events are only used from one thread. + + + There are also two new variants of event_del() that you can use for + more fine-grained control: + event_del_noblock(ev) + event_del_block(ev) + The event_del_noblock() function will never block, even if the event + callback is running in another thread and doesn't have the EV_FINALIZE + flag. The event_del_block() function will _always_ block if the event + callback is running in another thread, even if the event _does_ have + the EV_FINALIZE flag. + + [A future version of Libevent may have a way to make the EV_FINALIZE + flag the default.] + +1.3.3. Safely finalizing events + + To safely tear down an event that may be running, Libevent 2.1.3-alpha + introduces event_finalize() and event_free_finalize(). You call them + on an event, and provide a finalizer callback to be run on the event + and its callback argument once the event is definitely no longer + running. + + With event_free_finalize(), the event is also freed once the finalizer + callback has been invoked. + + A finalized event cannot be re-added or activated. The finalizer + callback must not add events, activate events, or attempt to + "resucitate" the event being finalized in any way. + + If any finalizer callbacks are pending as the event_base is being + freed, they will be invoked. You can override this behavior with the + new function event_base_free_nofinalize(). + +1.4. New debugging features + + You can now turn on debug logs at runtime using a new function, + event_enable_debug_logging(). + + The event_enable_lock_debugging() function is now spelled correctly. + You can still use the old "event_enable_lock_debuging" name, though, + so your old programs shouldnt' break. + + There's also been some work done to try to make the debugging logs + more generally useful. + +1.5. New evbuffer functions + + In Libevent 2.0, we introduced evbuffer_add_file() to add an entire + file's contents to an evbuffer, and then send them using sendfile() or + mmap() as appropriate. This API had some drawbacks, however. + Notably, it created one mapping or fd for every instance of the same + file added to any evbuffer. Also, adding a file to an evbuffer could + make that buffer unusable with SSL bufferevents, filtering + bufferevents, and any code that tried to read the contents of the + evbuffer. + + Libevent 2.1 adds a new evbuffer_file_segment API to solve these + problems. Now, you can use evbuffer_file_segment_new() to construct a + file-segment object, and evbuffer_add_file_segment() to insert it (or + part of it) into an evbuffer. These segments avoid creating redundant + maps or fds. Better still, the code is smart enough (when the OS + supports sendfile) to map the file when that's necessary, and use + sendfile() otherwise. + + File segments can receive callback functions that are invoked when the + file segments are freed. + + The evbuffer_ptr interface has been extended so that an evbuffer_ptr + can now yield a point just after the end of the buffer. This makes + many algorithms simpler to implement. + + There's a new evbuffer_add_buffer() interface that you can use to add + one buffer to another nondestructively. When you say + evbuffer_add_buffer_reference(outbuf, inbuf), outbuf now contains a + reference to the contents of inbuf. + + To aid in adding data in bulk while minimizing evbuffer calls, there + is an evbuffer_add_iovec() function. + + There's a new evbuffer_copyout_from() variant function to enable + copying data nondestructively from the middle of a buffer. + + evbuffer_readln() now supports an EVBUFFER_EOL_NUL argument to fetch + NUL-terminated strings from buffers. + +1.6. New functions and features: bufferevents + + You can now use the bufferevent_getcb() function to find out a + bufferevent's callbacks. Previously, there was no supported way to do + that. + + The largest chunk readable or writeable in a single bufferevent + callback is no longer hardcoded; it's now configurable with + the new functions bufferevent_set_max_single_read() and + bufferevent_set_max_single_write(). + + For consistency, OpenSSL bufferevents now make sure to always set one + of BEV_EVENT_READING or BEV_EVENT_WRITING when invoking an event + callback. + + Calling bufferevent_set_timeouts(bev, NULL, NULL) now removes the + timeouts from socket and ssl bufferevents correctly. + + You can find the priority at which a bufferevent runs with + bufferevent_get_priority(). + + The function bufferevent_get_token_bucket_cfg() can retrieve the + rate-limit settings for a bufferevent; bufferevent_getwatermark() can + return a bufferevent's current watermark settings. + + You can manually trigger a bufferevent's callbacks via + bufferevent_trigger() and bufferevent_trigger_event(). + +1.7. New functions and features: evdns + + The previous evdns interface used an "open a test UDP socket" trick in + order to detect IPv6 support. This was a hack, since it would + sometimes badly confuse people's firewall software, even though no + packets were sent. The current evdns interface-detection code uses + the appropriate OS functions to see which interfaces are configured. + + The evdns_base_new() function now has multiple possible values for its + second (flags) argument. Using 1 and 0 have their old meanings, though the + 1 flag now has a symbolic name of EVDNS_BASE_INITIALIZE_NAMESERVERS. + A second flag is now supported too: the EVDNS_BASE_DISABLE_WHEN_INACTIVE + flag, which tells the evdns_base that it should not prevent Libevent from + exiting while it has no DNS requests in progress. + + There is a new evdns_base_clear_host_addresses() function to remove + all the /etc/hosts addresses registered with an evdns instance. + +1.8. New functions and features: evconnlistener + + Libevent 2.1 adds the following evconnlistener flags: + + LEV_OPT_DEFERRED_ACCEPT -- Tells the OS that it doesn't need to + report sockets as having arrived until the initiator has sent some + data too. This can greatly improve performance with protocols like + HTTP where the client always speaks first. On operating systems + that don't support this functionality, this option has no effect. + + LEV_OPT_DISABLED -- Creates an evconnlistener in the disabled (not + listening) state. + + Libevent 2.1 changes the behavior of the LEV_OPT_CLOSE_ON_EXEC + flag. Previously, it would apply to the listener sockets, but not to + the accepted sockets themselves. That's almost never what you want. + Now, it applies both to the listener and the accepted sockets. + +1.9. New functions and features: evhttp + + ********************************************************************** + NOTE: The evhttp module will eventually be deprecated in favor of Mark + Ellzey's libevhtp library. Don't worry -- this won't happen until + libevhtp provides every feature that evhttp does, and provides a + compatible interface that applications can use to migrate. + ********************************************************************** + + Previously, you could only set evhttp timeouts in increments of one + second. Now, you can use evhttp_set_timeout_tv() and + evhttp_connection_set_timeout_tv() to configure + microsecond-granularity timeouts. + + There are a new pair of functions: evhttp_set_bevcb() and + evhttp_connection_base_bufferevent_new(), that you can use to + configure which bufferevents will be used for incoming and outgoing + http connections respectively. These functions, combined with SSL + bufferevents, should enable HTTPS support. + + There's a new evhttp_foreach_bound_socket() function to iterate over + every listener on an evhttp object. + + Whitespace between lines in headers is now folded into a single space; + whitespace at the end of a header is now removed. + + The socket errno value is now preserved when invoking an http error + callback. + + There's a new kind of request callback for errors; you can set it with + evhttp_request_set_error_cb(). It gets called when there's a request error, + and actually reports the error code and lets you figure out which request + failed. + + You can navigate from an evhttp_connection back to its evhttp with the + new evhttp_connection_get_server() function. + + You can override the default HTTP Content-Type with the new + evhttp_set_default_content_type() function + + There's a new evhttp_connection_get_addr() API to return the peer + address of an evhttp_connection. + + The new evhttp_send_reply_chunk_with_cb() is a variant of + evhttp_send_reply_chunk() with a callback to be invoked when the + chunk is sent. + + The evhttp_request_set_header_cb() facility adds a callback to be + invoked while parsing headers. + + The evhttp_request_set_on_complete_cb() facility adds a callback to be + invoked on request completion. + +1.10. New functions and features: evutil + + There's a function "evutil_secure_rng_set_urandom_device_file()" that + you can use to override the default file that Libevent uses to seed + its (sort-of) secure RNG. + +2. Cross-platform performance improvements + +2.1. Better data structures + + We replaced several users of the sys/queue.h "TAILQ" data structure + with the "LIST" data structure. Because this data type doesn't + require FIFO access, it requires fewer pointer checks and + manipulations to keep it in line. + + All previous versions of Libevent have kept every pending (added) + event in an "eventqueue" data structure. Starting in Libevent 2.0, + however, this structure became redundant: every pending timeout event + is stored in the timeout heap or in one of the common_timeout queues, + and every pending fd or signal event is stored in an evmap. Libevent + 2.1 removes this data structure, and thereby saves all of the code + that we'd been using to keep it updated. + +2.2. Faster activations and timeouts + + It's a common pattern in older code to use event_base_once() with a + 0-second timeout to ensure that a callback will get run 'as soon as + possible' in the current iteration of the Libevent loop. We optimize + this case by calling event_active() directly, and bypassing the + timeout pool. (People who are using this pattern should also consider + using event_active() themselves.) + + Libevent 2.0 would wake up a polling event loop whenever the first + timeout in the event loop was adjusted--whether it had become earlier + or later. We now only notify the event loop when a change causes the + expiration time to become _sooner_ than it would have been otherwise. + + The timeout heap code is now optimized to perform fewer comparisons + and shifts when changing or removing a timeout. + + Instead of checking for a wall-clock time jump every time we call + clock_gettime(), we now check only every 5 seconds. This should save + a huge number of gettimeofday() calls. + +2.3. Microoptimizations + + Internal event list maintainance no longer use the antipattern where + we have one function with multiple totally independent behaviors + depending on an argument: + #define OP1 1 + #define OP2 2 + #define OP3 3 + void func(int operation, struct event *ev) { + switch (op) { + ... + } + } + Instead, these functions are now split into separate functions for + each operation: + void func_op1(struct event *ev) { ... } + void func_op2(struct event *ev) { ... } + void func_op3(struct event *ev) { ... } + + This produces better code generation and inlining decisions on some + compilers, and makes the code easier to read and check. + +2.4. Evbuffer performance improvements + + The EVBUFFER_EOL_CRLF line-ending type is now much faster, thanks to + smart optimizations. + +2.5. HTTP performance improvements + + o Performance tweak to evhttp_parse_request_line. (aee1a97 Mark Ellzey) + o Add missing break to evhttp_parse_request_line (0fcc536) + +2.6. Coarse timers by default on Linux + + Due to limitations of the epoll interface, Libevent programs using epoll + have not previously been able to wait for timeouts with accuracy smaller + than 1 millisecond. But Libevent had been using CLOCK_MONOTONIC for + timekeeping on Linux, which is needlessly expensive: CLOCK_MONOTONIC_COARSE + has approximately the resolution corresponding to epoll, and is much faster + to invoke than CLOCK_MONOTONIC. + + To disable coarse timers, and get a more plausible precision, use the + new EVENT_BASE_FLAG_PRECISE_TIMER flag when setting up your event base. + +3. Backend/OS-specific improvements + +3.1. Linux-specific improvements + + The logic for deciding which arguements to use with epoll_ctl() is now + a table-driven lookup, rather than the previous pile of cascading + branches. This should minimize epoll_ctl() calls and make the epoll + code run a little faster on change-heavy loads. + + Libevent now takes advantage of Linux's support for enhanced APIs + (e.g., SOCK_CLOEXEC, SOCK_NONBLOCK, accept4, pipe2) that allow us to + simultaneously create a socket, make it nonblocking, and make it + close-on-exec. This should save syscalls throughout our codebase, and + avoid race-conditions if an exec() occurs after a socket is socket is + created but before we can make it close-on-execute on it. + +3.2. Windows-specific improvements + + We now use GetSystemTimeAsFileTime to implement gettimeofday. It's + significantly faster and more accurate than our old ftime()-based approach. + +3.3. Improvements in the solaris evport backend. + + The evport backend has been updated to use many of the infrastructure + improvements from Libevent 2.0. Notably, it keeps track of per-fd + information using the evmap infrastructure, and removes a number of + linear scans over recently-added events. This last change makes it + efficient to receive many more events per evport_getn() call, thereby + reducing evport overhead in general. + +3.4. OSX backend improvements + + The OSX select backend doesn't like to have more than a certain number + of fds set unless an "unlimited select" option has been set. + Therefore, we now set it. + +3.5. Monotonic clocks on even more platforms + + Libevent previously used a monotonic clock for its internal timekeeping + only on platforms supporting the POSIX clock_gettime() interface. Now, + Libevent has support for monotonic clocks on OSX and Windows too, and a + fallback implementation for systems without monotonic clocks that will at + least keep time running forwards. + + Using monotonic timers makes Libevent more resilient to changes in the + system time, as can happen in small amounts due to clock adjustments from + NTP, or in large amounts due to users who move their system clocks all over + the timeline in order to keep nagware from nagging them. + +3.6. Faster cross-thread notification on kqueue + + When a thread other than the one in which the main event loop is + running needs to wake the thread running the main event loop, Libevent + usually writes to a socketpair in order to force the main event loop + to wake up. On Linux, we've been able to use eventfd() instead. Now + on BSD and OSX systems (any anywhere else that has kqueue with the + EVFILT_USER extension), we can use EVFILT_USER to wake up the main + thread from kqueue. This should be a tiny bit faster than the + previous approach. + +4. Infrastructure improvements + +4.1. Faster tests + + I've spent some time to try to make the unit tests run faster in + Libevent 2.1. Nearly all of this was a matter of searching slow tests + for unreasonably long timeouts, and cutting them down to reasonably + long delays, though on one or two cases I actually had to parallelize + an operation or improve an algorithm. + + On my desktop, a full "make verify" run of Libevent 2.0.18-stable + requires about 218 seconds. Libevent 2.1.1-alpha cuts this down to + about 78 seconds. + + Faster unit tests are great, since they let programmers test their + changes without losing their train of thought. + +4.2. Finicky tests are now off-by-default + + The Tinytest unit testing framework now supports optional tests, and + Libevent uses them. By default, Libevent's unit testing framework + does not run tests that require a working network, and does not run + tests that tend to fail on heavily loaded systems because of timing + issues. To re-enable all tests, run ./test/regress using the "@all" + alias. + +4.3. Modernized use of autotools + + Our autotools-based build system has been updated to build without + warnings on recent autoconf/automake versions. + + Libevent's autotools makefiles are no longer recursive. This allows + make to use the maximum possible parallelism to do the minimally + necessary amount of work. See Peter Miller's "Recursive Make + Considered Harmful" at http://miller.emu.id.au/pmiller/books/rmch/ for + more information here. + + We now use the "quiet build" option to suppress distracting messages + about which commandlines are running. You can get them back with + "make V=1". + +4.4. Portability + + Libevent now uses large-file support internally on platforms where it + matters. You shouldn't need to set _LARGEFILE or OFFSET_BITS or + anything magic before including the Libevent headers, either, since + Libevent now sets the size of ev_off_t to the size of off_t that it + received at compile time, not to some (possibly different) size based + on current macro definitions when your program is building. + + We now also use the Autoconf AC_USE_SYSTEM_EXTENSIONS mechanism to + enable per-system macros needed to enable not-on-by-default features. + Unlike the rest of the autoconf macros, we output these to an + internal-use-only evconfig-private.h header, since their names need to + survive unmangled. This lets us build correctly on more platforms, + and avoid inconsistencies when some files define _GNU_SOURCE and + others don't. + + Libevent now tries to detect OpenSSL via pkg-config. + +4.5. Standards conformance + + Previous Libevent versions had no consistent convention for internal + vs external identifiers, and used identifiers starting with the "_" + character throughout the codebase. That's no good, since the C + standard says that identifiers beginning with _ are reserved. I'm not + aware of having any collisions with system identifiers, but it's best + to fix these things before they cause trouble. + + We now avoid all use of the _identifiers in the Libevent source code. + These changes were made *mainly* through the use of automated scripts, + so there shouldn't be any mistakes, but you never know. + + As an exception, the names _EVENT_LOG_DEBUG, _EVENT_LOG_MSG_, + _EVENT_LOG_WARN, and _EVENT_LOG_ERR are still exposed in event.h: they + are now deprecated, but to support older code, they will need to stay + around for a while. New code should use EVENT_LOG_DEBUG, + EVENT_LOG_MSG, EVENT_LOG_WARN, and EVENT_LOG_ERR instead. + +4.6. Event and callback refactoring + + As a simplification and optimization to Libevent's "deferred callback" + logic (introduced in 2.0 to avoid callback recursion), Libevent now + treats all of its deferrable callback types using the same logic it + uses for active events. Now deferred events no longer cause priority + inversion, no longer require special code to cancel them, and so on. + + Regular events and deferred callbacks now both descend from an + internal light-weight event_callback supertype, and both support + priorities and take part in the other anti-priority-inversion + mechanisms in Libevent. + + To avoid starvation from callback recursion (which was the reason we + introduced "deferred callbacks" in the first place) the implementation + now allows an event callback to be scheduled as "active later": + instead of running in the current iteration of the event loop, it runs + in the next one. + +5. Testing + + Libevent's test coverage level is more or less unchanged since before: + we still have over 80% line coverage in our tests on Linux and OSX. + There are some under-tested modules, though: we need to fix those. -- cgit v1.2.3