Mercurial > hg > nginx-quic
view src/os/unix/ngx_thread_mutex.c @ 8099:b4ef79ef1c23 quic
QUIC: refined the "c->quic->initialized" flag usage.
The flag is tied to the initial secret creation. The presence of c->quic
pointer is sufficient to enable execution of ngx_quic_close_quic().
The ngx_quic_new_connection() function now returns the allocated quic
connection object and the c->quic pointer is set by the caller.
If an early error occurs before secrets initialization (i.e. in cases
of invalid retry token or nginx exiting), it is still possible to
generate an error response by trying to initialize secrets directly
in the ngx_quic_send_cc() function.
Before the change such early errors failed to send proper connection close
message and logged an error.
An auxilliary ngx_quic_init_secrets() function is introduced to avoid
verbose call to ngx_quic_set_initial_secret() requiring local variable.
| author | Vladimir Homutov <vl@nginx.com> |
|---|---|
| date | Wed, 30 Sep 2020 21:27:52 +0300 |
| parents | 022ea0d17177 |
| children |
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/* * Copyright (C) Igor Sysoev * Copyright (C) Nginx, Inc. */ #include <ngx_config.h> #include <ngx_core.h> /* * All modern pthread mutex implementations try to acquire a lock * atomically in userland before going to sleep in kernel. Some * spins before the sleeping. * * In Solaris since version 8 all mutex types spin before sleeping. * The default spin count is 1000. It can be overridden using * _THREAD_ADAPTIVE_SPIN=100 environment variable. * * In MacOSX all mutex types spin to acquire a lock protecting a mutex's * internals. If the mutex is busy, thread calls Mach semaphore_wait(). * * * PTHREAD_MUTEX_NORMAL lacks deadlock detection and is the fastest * mutex type. * * Linux: No spinning. The internal name PTHREAD_MUTEX_TIMED_NP * remains from the times when pthread_mutex_timedlock() was * non-standard extension. Alias name: PTHREAD_MUTEX_FAST_NP. * FreeBSD: No spinning. * * * PTHREAD_MUTEX_ERRORCHECK is usually as fast as PTHREAD_MUTEX_NORMAL * yet has lightweight deadlock detection. * * Linux: No spinning. The internal name: PTHREAD_MUTEX_ERRORCHECK_NP. * FreeBSD: No spinning. * * * PTHREAD_MUTEX_RECURSIVE allows recursive locking. * * Linux: No spinning. The internal name: PTHREAD_MUTEX_RECURSIVE_NP. * FreeBSD: No spinning. * * * PTHREAD_MUTEX_ADAPTIVE_NP spins on SMP systems before sleeping. * * Linux: No deadlock detection. Dynamically changes a spin count * for each mutex from 10 to 100 based on spin count taken * previously. * FreeBSD: Deadlock detection. The default spin count is 2000. * It can be overridden using LIBPTHREAD_SPINLOOPS environment * variable or by pthread_mutex_setspinloops_np(). If a lock * is still busy, sched_yield() can be called on both UP and * SMP systems. The default yield loop count is zero, but * it can be set by LIBPTHREAD_YIELDLOOPS environment * variable or by pthread_mutex_setyieldloops_np(). * Solaris: No PTHREAD_MUTEX_ADAPTIVE_NP. * MacOSX: No PTHREAD_MUTEX_ADAPTIVE_NP. * * * PTHREAD_MUTEX_ELISION_NP is a Linux extension to elide locks using * Intel Restricted Transactional Memory. It is the most suitable for * rwlock pattern access because it allows simultaneous reads without lock. * Supported since glibc 2.18. * * * PTHREAD_MUTEX_DEFAULT is default mutex type. * * Linux: PTHREAD_MUTEX_NORMAL. * FreeBSD: PTHREAD_MUTEX_ERRORCHECK. * Solaris: PTHREAD_MUTEX_NORMAL. * MacOSX: PTHREAD_MUTEX_NORMAL. */ ngx_int_t ngx_thread_mutex_create(ngx_thread_mutex_t *mtx, ngx_log_t *log) { ngx_err_t err; pthread_mutexattr_t attr; err = pthread_mutexattr_init(&attr); if (err != 0) { ngx_log_error(NGX_LOG_EMERG, log, err, "pthread_mutexattr_init() failed"); return NGX_ERROR; } err = pthread_mutexattr_settype(&attr, PTHREAD_MUTEX_ERRORCHECK); if (err != 0) { ngx_log_error(NGX_LOG_EMERG, log, err, "pthread_mutexattr_settype" "(PTHREAD_MUTEX_ERRORCHECK) failed"); return NGX_ERROR; } err = pthread_mutex_init(mtx, &attr); if (err != 0) { ngx_log_error(NGX_LOG_EMERG, log, err, "pthread_mutex_init() failed"); return NGX_ERROR; } err = pthread_mutexattr_destroy(&attr); if (err != 0) { ngx_log_error(NGX_LOG_ALERT, log, err, "pthread_mutexattr_destroy() failed"); } return NGX_OK; } ngx_int_t ngx_thread_mutex_destroy(ngx_thread_mutex_t *mtx, ngx_log_t *log) { ngx_err_t err; err = pthread_mutex_destroy(mtx); if (err != 0) { ngx_log_error(NGX_LOG_ALERT, log, err, "pthread_mutex_destroy() failed"); return NGX_ERROR; } return NGX_OK; } ngx_int_t ngx_thread_mutex_lock(ngx_thread_mutex_t *mtx, ngx_log_t *log) { ngx_err_t err; err = pthread_mutex_lock(mtx); if (err == 0) { return NGX_OK; } ngx_log_error(NGX_LOG_ALERT, log, err, "pthread_mutex_lock() failed"); return NGX_ERROR; } ngx_int_t ngx_thread_mutex_unlock(ngx_thread_mutex_t *mtx, ngx_log_t *log) { ngx_err_t err; err = pthread_mutex_unlock(mtx); #if 0 ngx_time_update(); #endif if (err == 0) { return NGX_OK; } ngx_log_error(NGX_LOG_ALERT, log, err, "pthread_mutex_unlock() failed"); return NGX_ERROR; }