Mercurial > hg > nginx-quic
view src/os/unix/ngx_gcc_atomic_ppc.h @ 8743:5d09596909c6 stable-1.20
Upstream: fixed timeouts with gRPC, SSL and select (ticket #2229).
With SSL it is possible that an established connection is ready for
reading after the handshake. Further, events might be already disabled
in case of level-triggered event methods. If this happens and
ngx_http_upstream_send_request() blocks waiting for some data from
the upstream, such as flow control in case of gRPC, the connection
will time out due to no read events on the upstream connection.
Fix is to explicitly check the c->read->ready flag if sending request
blocks and post a read event if it is set.
Note that while it is possible to modify ngx_ssl_handshake() to keep
read events active, this won't completely resolve the issue, since
there can be data already received during the SSL handshake
(see 573bd30e46b4).
| author | Maxim Dounin <mdounin@mdounin.ru> |
|---|---|
| date | Fri, 20 Aug 2021 03:53:56 +0300 |
| parents | d620f497c50f |
| children |
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/* * Copyright (C) Igor Sysoev * Copyright (C) Nginx, Inc. */ /* * The ppc assembler treats ";" as comment, so we have to use "\n". * The minus in "bne-" is a hint for the branch prediction unit that * this branch is unlikely to be taken. * The "1b" means the nearest backward label "1" and the "1f" means * the nearest forward label "1". * * The "b" means that the base registers can be used only, i.e. * any register except r0. The r0 register always has a zero value and * could not be used in "addi r0, r0, 1". * The "=&b" means that no input registers can be used. * * "sync" read and write barriers * "isync" read barrier, is faster than "sync" * "eieio" write barrier, is faster than "sync" * "lwsync" write barrier, is faster than "eieio" on ppc64 */ #if (NGX_PTR_SIZE == 8) static ngx_inline ngx_atomic_uint_t ngx_atomic_cmp_set(ngx_atomic_t *lock, ngx_atomic_uint_t old, ngx_atomic_uint_t set) { ngx_atomic_uint_t res, temp; __asm__ volatile ( " li %0, 0 \n" /* preset "0" to "res" */ " lwsync \n" /* write barrier */ "1: \n" " ldarx %1, 0, %2 \n" /* load from [lock] into "temp" */ /* and store reservation */ " cmpd %1, %3 \n" /* compare "temp" and "old" */ " bne- 2f \n" /* not equal */ " stdcx. %4, 0, %2 \n" /* store "set" into [lock] if reservation */ /* is not cleared */ " bne- 1b \n" /* the reservation was cleared */ " isync \n" /* read barrier */ " li %0, 1 \n" /* set "1" to "res" */ "2: \n" : "=&b" (res), "=&b" (temp) : "b" (lock), "b" (old), "b" (set) : "cc", "memory"); return res; } static ngx_inline ngx_atomic_int_t ngx_atomic_fetch_add(ngx_atomic_t *value, ngx_atomic_int_t add) { ngx_atomic_uint_t res, temp; __asm__ volatile ( " lwsync \n" /* write barrier */ "1: ldarx %0, 0, %2 \n" /* load from [value] into "res" */ /* and store reservation */ " add %1, %0, %3 \n" /* "res" + "add" store in "temp" */ " stdcx. %1, 0, %2 \n" /* store "temp" into [value] if reservation */ /* is not cleared */ " bne- 1b \n" /* try again if reservation was cleared */ " isync \n" /* read barrier */ : "=&b" (res), "=&b" (temp) : "b" (value), "b" (add) : "cc", "memory"); return res; } #if (NGX_SMP) #define ngx_memory_barrier() \ __asm__ volatile ("isync \n lwsync \n" ::: "memory") #else #define ngx_memory_barrier() __asm__ volatile ("" ::: "memory") #endif #else static ngx_inline ngx_atomic_uint_t ngx_atomic_cmp_set(ngx_atomic_t *lock, ngx_atomic_uint_t old, ngx_atomic_uint_t set) { ngx_atomic_uint_t res, temp; __asm__ volatile ( " li %0, 0 \n" /* preset "0" to "res" */ " eieio \n" /* write barrier */ "1: \n" " lwarx %1, 0, %2 \n" /* load from [lock] into "temp" */ /* and store reservation */ " cmpw %1, %3 \n" /* compare "temp" and "old" */ " bne- 2f \n" /* not equal */ " stwcx. %4, 0, %2 \n" /* store "set" into [lock] if reservation */ /* is not cleared */ " bne- 1b \n" /* the reservation was cleared */ " isync \n" /* read barrier */ " li %0, 1 \n" /* set "1" to "res" */ "2: \n" : "=&b" (res), "=&b" (temp) : "b" (lock), "b" (old), "b" (set) : "cc", "memory"); return res; } static ngx_inline ngx_atomic_int_t ngx_atomic_fetch_add(ngx_atomic_t *value, ngx_atomic_int_t add) { ngx_atomic_uint_t res, temp; __asm__ volatile ( " eieio \n" /* write barrier */ "1: lwarx %0, 0, %2 \n" /* load from [value] into "res" */ /* and store reservation */ " add %1, %0, %3 \n" /* "res" + "add" store in "temp" */ " stwcx. %1, 0, %2 \n" /* store "temp" into [value] if reservation */ /* is not cleared */ " bne- 1b \n" /* try again if reservation was cleared */ " isync \n" /* read barrier */ : "=&b" (res), "=&b" (temp) : "b" (value), "b" (add) : "cc", "memory"); return res; } #if (NGX_SMP) #define ngx_memory_barrier() \ __asm__ volatile ("isync \n eieio \n" ::: "memory") #else #define ngx_memory_barrier() __asm__ volatile ("" ::: "memory") #endif #endif #define ngx_cpu_pause()