Current Path : /usr/src/contrib/ntp/libntp/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/src/contrib/ntp/libntp/recvbuff.c |
#ifdef HAVE_CONFIG_H # include <config.h> #endif #include <stdio.h> #include "ntp_machine.h" #include "ntp_fp.h" #include "ntp_syslog.h" #include "ntp_stdlib.h" #include "ntp_io.h" #include "recvbuff.h" #include "iosignal.h" #include <isc/list.h> /* * Memory allocation */ static u_long volatile full_recvbufs; /* number of recvbufs on fulllist */ static u_long volatile free_recvbufs; /* number of recvbufs on freelist */ static u_long volatile total_recvbufs; /* total recvbufs currently in use */ static u_long volatile lowater_adds; /* number of times we have added memory */ static u_long volatile buffer_shortfall;/* number of missed free receive buffers between replenishments */ static ISC_LIST(recvbuf_t) full_recv_list; /* Currently used recv buffers */ static ISC_LIST(recvbuf_t) free_recv_list; /* Currently unused buffers */ #if defined(SYS_WINNT) /* * For Windows we need to set up a lock to manipulate the * recv buffers to prevent corruption. We keep it lock for as * short a time as possible */ static CRITICAL_SECTION RecvLock; # define LOCK() EnterCriticalSection(&RecvLock) # define UNLOCK() LeaveCriticalSection(&RecvLock) #else # define LOCK() # define UNLOCK() #endif u_long free_recvbuffs (void) { return free_recvbufs; } u_long full_recvbuffs (void) { return full_recvbufs; } u_long total_recvbuffs (void) { return total_recvbufs; } u_long lowater_additions(void) { return lowater_adds; } static void initialise_buffer(recvbuf_t *buff) { memset((char *) buff, 0, sizeof(recvbuf_t)); #if defined SYS_WINNT buff->wsabuff.len = RX_BUFF_SIZE; buff->wsabuff.buf = (char *) buff->recv_buffer; #endif } static void create_buffers(int nbufs) { register recvbuf_t *bufp; int i, abuf; abuf = nbufs + buffer_shortfall; buffer_shortfall = 0; bufp = (recvbuf_t *) emalloc(abuf*sizeof(recvbuf_t)); for (i = 0; i < abuf; i++) { memset((char *) bufp, 0, sizeof(recvbuf_t)); ISC_LIST_APPEND(free_recv_list, bufp, link); bufp++; free_recvbufs++; total_recvbufs++; } lowater_adds++; } void init_recvbuff(int nbufs) { /* * Init buffer free list and stat counters */ ISC_LIST_INIT(full_recv_list); ISC_LIST_INIT(free_recv_list); free_recvbufs = total_recvbufs = 0; full_recvbufs = lowater_adds = 0; create_buffers(nbufs); #if defined(SYS_WINNT) InitializeCriticalSection(&RecvLock); #endif } /* * freerecvbuf - make a single recvbuf available for reuse */ void freerecvbuf(recvbuf_t *rb) { if (rb == NULL) { msyslog(LOG_ERR, "freerecvbuff received NULL buffer"); return; } LOCK(); (rb->used)--; if (rb->used != 0) msyslog(LOG_ERR, "******** freerecvbuff non-zero usage: %d *******", rb->used); ISC_LIST_APPEND(free_recv_list, rb, link); #if defined SYS_WINNT rb->wsabuff.len = RX_BUFF_SIZE; rb->wsabuff.buf = (char *) rb->recv_buffer; #endif free_recvbufs++; UNLOCK(); } void add_full_recv_buffer(recvbuf_t *rb) { if (rb == NULL) { msyslog(LOG_ERR, "add_full_recv_buffer received NULL buffer"); return; } LOCK(); ISC_LIST_APPEND(full_recv_list, rb, link); full_recvbufs++; UNLOCK(); } recvbuf_t * get_free_recv_buffer(void) { recvbuf_t * buffer = NULL; LOCK(); buffer = ISC_LIST_HEAD(free_recv_list); if (buffer != NULL) { ISC_LIST_DEQUEUE(free_recv_list, buffer, link); free_recvbufs--; initialise_buffer(buffer); (buffer->used)++; } else { buffer_shortfall++; } UNLOCK(); return (buffer); } #ifdef HAVE_IO_COMPLETION_PORT recvbuf_t * get_free_recv_buffer_alloc(void) { recvbuf_t * buffer = get_free_recv_buffer(); if (buffer == NULL) { create_buffers(RECV_INC); buffer = get_free_recv_buffer(); } return (buffer); } #endif recvbuf_t * get_full_recv_buffer(void) { recvbuf_t *rbuf; LOCK(); #ifdef HAVE_SIGNALED_IO /* * make sure there are free buffers when we * wander off to do lengthy paket processing with * any buffer we grab from the full list. * * fixes malloc() interrupted by SIGIO risk * (Bug 889) */ rbuf = ISC_LIST_HEAD(free_recv_list); if (rbuf == NULL || buffer_shortfall > 0) { /* * try to get us some more buffers */ create_buffers(RECV_INC); } #endif /* * try to grab a full buffer */ rbuf = ISC_LIST_HEAD(full_recv_list); if (rbuf != NULL) { ISC_LIST_DEQUEUE(full_recv_list, rbuf, link); --full_recvbufs; } else { /* * Make sure we reset the full count to 0 */ full_recvbufs = 0; } UNLOCK(); return (rbuf); } /* * Checks to see if there are buffers to process */ isc_boolean_t has_full_recv_buffer(void) { if (ISC_LIST_HEAD(full_recv_list) != NULL) return (ISC_TRUE); else return (ISC_FALSE); }