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d34e8f6e9d
In some cases initializing the alarm timers can lead to non-negligable overhead from programs that link against qemu-tool.o. At least, setting a max-resolution WinMM alarm timer via mm_start_timer() (the current default for Windows) can increase the "tick rate" on Windows OSs and affect frequency scaling, and in the case of tools that run in guest OSs such has qemu-ga, the impact can be fairly dramatic (+20%/20% user/sys time on a core 2 processor was observed from an idle Windows XP guest). This patch doesn't address the issue directly (not sure what a good solution would be for Windows, or what other situations it might be noticeable), but it at least limits the scope of the issue to programs that "opt-in" to using the main-loop.c functions by only enabling alarm timers when qemu_init_main_loop() is called, which is already required to make use of those facilities, so existing users shouldn't be affected. Reviewed-by: Paolo Bonzini <pbonzini@redhat.com> Signed-off-by: Michael Roth <mdroth@linux.vnet.ibm.com> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
370 lines
14 KiB
C
370 lines
14 KiB
C
/*
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* QEMU System Emulator
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*
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* Copyright (c) 2003-2008 Fabrice Bellard
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#ifndef QEMU_MAIN_LOOP_H
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#define QEMU_MAIN_LOOP_H 1
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#ifdef SIGRTMIN
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#define SIG_IPI (SIGRTMIN+4)
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#else
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#define SIG_IPI SIGUSR1
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#endif
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/**
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* qemu_init_main_loop: Set up the process so that it can run the main loop.
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*
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* This includes setting up signal handlers. It should be called before
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* any other threads are created. In addition, threads other than the
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* main one should block signals that are trapped by the main loop.
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* For simplicity, you can consider these signals to be safe: SIGUSR1,
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* SIGUSR2, thread signals (SIGFPE, SIGILL, SIGSEGV, SIGBUS) and real-time
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* signals if available. Remember that Windows in practice does not have
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* signals, though.
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*
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* In the case of QEMU tools, this will also start/initialize timers.
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*/
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int qemu_init_main_loop(void);
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/**
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* main_loop_init: Initializes main loop
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*
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* Internal (but shared for compatibility reasons) initialization routine
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* for the main loop. This should not be used by applications directly,
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* use qemu_init_main_loop() instead.
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*
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*/
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int main_loop_init(void);
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/**
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* main_loop_wait: Run one iteration of the main loop.
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*
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* If @nonblocking is true, poll for events, otherwise suspend until
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* one actually occurs. The main loop usually consists of a loop that
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* repeatedly calls main_loop_wait(false).
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*
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* Main loop services include file descriptor callbacks, bottom halves
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* and timers (defined in qemu-timer.h). Bottom halves are similar to timers
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* that execute immediately, but have a lower overhead and scheduling them
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* is wait-free, thread-safe and signal-safe.
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*
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* It is sometimes useful to put a whole program in a coroutine. In this
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* case, the coroutine actually should be started from within the main loop,
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* so that the main loop can run whenever the coroutine yields. To do this,
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* you can use a bottom half to enter the coroutine as soon as the main loop
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* starts:
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*
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* void enter_co_bh(void *opaque) {
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* QEMUCoroutine *co = opaque;
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* qemu_coroutine_enter(co, NULL);
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* }
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*
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* ...
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* QEMUCoroutine *co = qemu_coroutine_create(coroutine_entry);
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* QEMUBH *start_bh = qemu_bh_new(enter_co_bh, co);
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* qemu_bh_schedule(start_bh);
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* while (...) {
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* main_loop_wait(false);
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* }
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*
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* (In the future we may provide a wrapper for this).
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*
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* @nonblocking: Whether the caller should block until an event occurs.
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*/
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int main_loop_wait(int nonblocking);
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/**
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* qemu_notify_event: Force processing of pending events.
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*
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* Similar to signaling a condition variable, qemu_notify_event forces
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* main_loop_wait to look at pending events and exit. The caller of
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* main_loop_wait will usually call it again very soon, so qemu_notify_event
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* also has the side effect of recalculating the sets of file descriptors
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* that the main loop waits for.
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*
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* Calling qemu_notify_event is rarely necessary, because main loop
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* services (bottom halves and timers) call it themselves. One notable
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* exception occurs when using qemu_set_fd_handler2 (see below).
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*/
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void qemu_notify_event(void);
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#ifdef _WIN32
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/* return TRUE if no sleep should be done afterwards */
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typedef int PollingFunc(void *opaque);
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/**
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* qemu_add_polling_cb: Register a Windows-specific polling callback
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*
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* Currently, under Windows some events are polled rather than waited for.
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* Polling callbacks do not ensure that @func is called timely, because
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* the main loop might wait for an arbitrarily long time. If possible,
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* you should instead create a separate thread that does a blocking poll
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* and set a Win32 event object. The event can then be passed to
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* qemu_add_wait_object.
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*
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* Polling callbacks really have nothing Windows specific in them, but
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* as they are a hack and are currently not necessary under POSIX systems,
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* they are only available when QEMU is running under Windows.
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*
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* @func: The function that does the polling, and returns 1 to force
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* immediate completion of main_loop_wait.
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* @opaque: A pointer-size value that is passed to @func.
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*/
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int qemu_add_polling_cb(PollingFunc *func, void *opaque);
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/**
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* qemu_del_polling_cb: Unregister a Windows-specific polling callback
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*
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* This function removes a callback that was registered with
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* qemu_add_polling_cb.
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*
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* @func: The function that was passed to qemu_add_polling_cb.
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* @opaque: A pointer-size value that was passed to qemu_add_polling_cb.
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*/
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void qemu_del_polling_cb(PollingFunc *func, void *opaque);
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/* Wait objects handling */
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typedef void WaitObjectFunc(void *opaque);
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/**
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* qemu_add_wait_object: Register a callback for a Windows handle
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*
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* Under Windows, the iohandler mechanism can only be used with sockets.
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* QEMU must use the WaitForMultipleObjects API to wait on other handles.
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* This function registers a #HANDLE with QEMU, so that it will be included
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* in the main loop's calls to WaitForMultipleObjects. When the handle
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* is in a signaled state, QEMU will call @func.
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*
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* @handle: The Windows handle to be observed.
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* @func: A function to be called when @handle is in a signaled state.
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* @opaque: A pointer-size value that is passed to @func.
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*/
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int qemu_add_wait_object(HANDLE handle, WaitObjectFunc *func, void *opaque);
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/**
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* qemu_del_wait_object: Unregister a callback for a Windows handle
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*
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* This function removes a callback that was registered with
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* qemu_add_wait_object.
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*
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* @func: The function that was passed to qemu_add_wait_object.
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* @opaque: A pointer-size value that was passed to qemu_add_wait_object.
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*/
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void qemu_del_wait_object(HANDLE handle, WaitObjectFunc *func, void *opaque);
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#endif
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/* async I/O support */
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typedef void IOReadHandler(void *opaque, const uint8_t *buf, int size);
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typedef int IOCanReadHandler(void *opaque);
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typedef void IOHandler(void *opaque);
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/**
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* qemu_set_fd_handler2: Register a file descriptor with the main loop
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*
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* This function tells the main loop to wake up whenever one of the
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* following conditions is true:
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*
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* 1) if @fd_write is not %NULL, when the file descriptor is writable;
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*
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* 2) if @fd_read is not %NULL, when the file descriptor is readable.
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*
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* @fd_read_poll can be used to disable the @fd_read callback temporarily.
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* This is useful to avoid calling qemu_set_fd_handler2 every time the
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* client becomes interested in reading (or dually, stops being interested).
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* A typical example is when @fd is a listening socket and you want to bound
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* the number of active clients. Remember to call qemu_notify_event whenever
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* the condition may change from %false to %true.
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*
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* The callbacks that are set up by qemu_set_fd_handler2 are level-triggered.
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* If @fd_read does not read from @fd, or @fd_write does not write to @fd
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* until its buffers are full, they will be called again on the next
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* iteration.
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*
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* @fd: The file descriptor to be observed. Under Windows it must be
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* a #SOCKET.
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*
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* @fd_read_poll: A function that returns 1 if the @fd_read callback
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* should be fired. If the function returns 0, the main loop will not
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* end its iteration even if @fd becomes readable.
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*
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* @fd_read: A level-triggered callback that is fired if @fd is readable
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* at the beginning of a main loop iteration, or if it becomes readable
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* during one.
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*
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* @fd_write: A level-triggered callback that is fired when @fd is writable
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* at the beginning of a main loop iteration, or if it becomes writable
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* during one.
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*
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* @opaque: A pointer-sized value that is passed to @fd_read_poll,
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* @fd_read and @fd_write.
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*/
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int qemu_set_fd_handler2(int fd,
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IOCanReadHandler *fd_read_poll,
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IOHandler *fd_read,
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IOHandler *fd_write,
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void *opaque);
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/**
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* qemu_set_fd_handler: Register a file descriptor with the main loop
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*
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* This function tells the main loop to wake up whenever one of the
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* following conditions is true:
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*
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* 1) if @fd_write is not %NULL, when the file descriptor is writable;
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*
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* 2) if @fd_read is not %NULL, when the file descriptor is readable.
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*
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* The callbacks that are set up by qemu_set_fd_handler are level-triggered.
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* If @fd_read does not read from @fd, or @fd_write does not write to @fd
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* until its buffers are full, they will be called again on the next
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* iteration.
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*
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* @fd: The file descriptor to be observed. Under Windows it must be
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* a #SOCKET.
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*
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* @fd_read: A level-triggered callback that is fired if @fd is readable
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* at the beginning of a main loop iteration, or if it becomes readable
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* during one.
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*
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* @fd_write: A level-triggered callback that is fired when @fd is writable
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* at the beginning of a main loop iteration, or if it becomes writable
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* during one.
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*
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* @opaque: A pointer-sized value that is passed to @fd_read and @fd_write.
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*/
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int qemu_set_fd_handler(int fd,
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IOHandler *fd_read,
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IOHandler *fd_write,
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void *opaque);
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typedef struct QEMUBH QEMUBH;
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typedef void QEMUBHFunc(void *opaque);
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/**
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* qemu_bh_new: Allocate a new bottom half structure.
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*
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* Bottom halves are lightweight callbacks whose invocation is guaranteed
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* to be wait-free, thread-safe and signal-safe. The #QEMUBH structure
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* is opaque and must be allocated prior to its use.
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*/
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QEMUBH *qemu_bh_new(QEMUBHFunc *cb, void *opaque);
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/**
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* qemu_bh_schedule: Schedule a bottom half.
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*
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* Scheduling a bottom half interrupts the main loop and causes the
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* execution of the callback that was passed to qemu_bh_new.
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*
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* Bottom halves that are scheduled from a bottom half handler are instantly
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* invoked. This can create an infinite loop if a bottom half handler
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* schedules itself.
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*
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* @bh: The bottom half to be scheduled.
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*/
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void qemu_bh_schedule(QEMUBH *bh);
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/**
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* qemu_bh_cancel: Cancel execution of a bottom half.
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*
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* Canceling execution of a bottom half undoes the effect of calls to
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* qemu_bh_schedule without freeing its resources yet. While cancellation
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* itself is also wait-free and thread-safe, it can of course race with the
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* loop that executes bottom halves unless you are holding the iothread
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* mutex. This makes it mostly useless if you are not holding the mutex.
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*
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* @bh: The bottom half to be canceled.
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*/
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void qemu_bh_cancel(QEMUBH *bh);
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/**
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*qemu_bh_delete: Cancel execution of a bottom half and free its resources.
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*
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* Deleting a bottom half frees the memory that was allocated for it by
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* qemu_bh_new. It also implies canceling the bottom half if it was
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* scheduled.
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*
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* @bh: The bottom half to be deleted.
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*/
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void qemu_bh_delete(QEMUBH *bh);
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#ifdef CONFIG_POSIX
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/**
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* qemu_add_child_watch: Register a child process for reaping.
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*
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* Under POSIX systems, a parent process must read the exit status of
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* its child processes using waitpid, or the operating system will not
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* free some of the resources attached to that process.
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*
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* This function directs the QEMU main loop to observe a child process
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* and call waitpid as soon as it exits; the watch is then removed
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* automatically. It is useful whenever QEMU forks a child process
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* but will find out about its termination by other means such as a
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* "broken pipe".
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*
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* @pid: The pid that QEMU should observe.
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*/
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int qemu_add_child_watch(pid_t pid);
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#endif
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/**
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* qemu_mutex_lock_iothread: Lock the main loop mutex.
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*
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* This function locks the main loop mutex. The mutex is taken by
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* qemu_init_main_loop and always taken except while waiting on
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* external events (such as with select). The mutex should be taken
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* by threads other than the main loop thread when calling
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* qemu_bh_new(), qemu_set_fd_handler() and basically all other
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* functions documented in this file.
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*
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* NOTE: tools currently are single-threaded and qemu_mutex_lock_iothread
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* is a no-op there.
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*/
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void qemu_mutex_lock_iothread(void);
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/**
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* qemu_mutex_unlock_iothread: Unlock the main loop mutex.
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*
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* This function unlocks the main loop mutex. The mutex is taken by
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* qemu_init_main_loop and always taken except while waiting on
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* external events (such as with select). The mutex should be unlocked
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* as soon as possible by threads other than the main loop thread,
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* because it prevents the main loop from processing callbacks,
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* including timers and bottom halves.
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*
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* NOTE: tools currently are single-threaded and qemu_mutex_unlock_iothread
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* is a no-op there.
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*/
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void qemu_mutex_unlock_iothread(void);
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/* internal interfaces */
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void qemu_iohandler_fill(int *pnfds, fd_set *readfds, fd_set *writefds, fd_set *xfds);
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void qemu_iohandler_poll(fd_set *readfds, fd_set *writefds, fd_set *xfds, int rc);
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void qemu_bh_schedule_idle(QEMUBH *bh);
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int qemu_bh_poll(void);
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void qemu_bh_update_timeout(int *timeout);
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#endif
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