/* * Tencent is pleased to support the open source community by making Libco available. * Copyright (C) 2014 THL A29 Limited, a Tencent company. All rights reserved. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, * software distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "co_routine.h" #include "co_routine_inner.h" #include "co_routine_specific.h" typedef long long ll64_t; struct rpchook_t { int user_flag; struct sockaddr_in dest; //maybe sockaddr_un; int domain; //AF_LOCAL , AF_INET struct timeval read_timeout; struct timeval write_timeout; }; static inline pid_t GetPid() { char **p = (char**)pthread_self(); return p ? *(pid_t*)(p + 18) : getpid(); } static rpchook_t *g_rpchook_socket_fd[ 102400 ] = { 0 }; typedef int (*socket_pfn_t)(int domain, int type, int protocol); typedef int (*connect_pfn_t)(int socket, const struct sockaddr *address, socklen_t address_len); typedef int (*close_pfn_t)(int fd); typedef ssize_t (*read_pfn_t)(int fildes, void *buf, size_t nbyte); typedef ssize_t (*write_pfn_t)(int fildes, const void *buf, size_t nbyte); typedef ssize_t (*sendto_pfn_t)(int socket, const void *message, size_t length, int flags, const struct sockaddr *dest_addr, socklen_t dest_len); typedef ssize_t (*recvfrom_pfn_t)(int socket, void *buffer, size_t length, int flags, struct sockaddr *address, socklen_t *address_len); typedef size_t (*send_pfn_t)(int socket, const void *buffer, size_t length, int flags); typedef ssize_t (*recv_pfn_t)(int socket, void *buffer, size_t length, int flags); typedef int (*poll_pfn_t)(struct pollfd fds[], nfds_t nfds, int timeout); typedef int (*setsockopt_pfn_t)(int socket, int level, int option_name, const void *option_value, socklen_t option_len); typedef int (*fcntl_pfn_t)(int fildes, int cmd, ...); typedef struct tm *(*localtime_r_pfn_t)( const time_t *timep, struct tm *result ); typedef void *(*pthread_getspecific_pfn_t)(pthread_key_t key); typedef int (*pthread_setspecific_pfn_t)(pthread_key_t key, const void *value); typedef int (*setenv_pfn_t)(const char *name, const char *value, int overwrite); typedef int (*unsetenv_pfn_t)(const char *name); typedef char *(*getenv_pfn_t)(const char *name); typedef hostent* (*gethostbyname_pfn_t)(const char *name); typedef res_state (*__res_state_pfn_t)(); typedef int (*__poll_pfn_t)(struct pollfd fds[], nfds_t nfds, int timeout); static socket_pfn_t g_sys_socket_func = (socket_pfn_t)dlsym(RTLD_NEXT,"socket"); static connect_pfn_t g_sys_connect_func = (connect_pfn_t)dlsym(RTLD_NEXT,"connect"); static close_pfn_t g_sys_close_func = (close_pfn_t)dlsym(RTLD_NEXT,"close"); static read_pfn_t g_sys_read_func = (read_pfn_t)dlsym(RTLD_NEXT,"read"); static write_pfn_t g_sys_write_func = (write_pfn_t)dlsym(RTLD_NEXT,"write"); static sendto_pfn_t g_sys_sendto_func = (sendto_pfn_t)dlsym(RTLD_NEXT,"sendto"); static recvfrom_pfn_t g_sys_recvfrom_func = (recvfrom_pfn_t)dlsym(RTLD_NEXT,"recvfrom"); static send_pfn_t g_sys_send_func = (send_pfn_t)dlsym(RTLD_NEXT,"send"); static recv_pfn_t g_sys_recv_func = (recv_pfn_t)dlsym(RTLD_NEXT,"recv"); static poll_pfn_t g_sys_poll_func = (poll_pfn_t)dlsym(RTLD_NEXT,"poll"); static setsockopt_pfn_t g_sys_setsockopt_func = (setsockopt_pfn_t)dlsym(RTLD_NEXT,"setsockopt"); static fcntl_pfn_t g_sys_fcntl_func = (fcntl_pfn_t)dlsym(RTLD_NEXT,"fcntl"); static setenv_pfn_t g_sys_setenv_func = (setenv_pfn_t)dlsym(RTLD_NEXT,"setenv"); static unsetenv_pfn_t g_sys_unsetenv_func = (unsetenv_pfn_t)dlsym(RTLD_NEXT,"unsetenv"); static getenv_pfn_t g_sys_getenv_func = (getenv_pfn_t)dlsym(RTLD_NEXT,"getenv"); static __res_state_pfn_t g_sys___res_state_func = (__res_state_pfn_t)dlsym(RTLD_NEXT,"__res_state"); static gethostbyname_pfn_t g_sys_gethostbyname_func = (gethostbyname_pfn_t)dlsym(RTLD_NEXT, "gethostbyname"); static __poll_pfn_t g_sys___poll_func = (__poll_pfn_t)dlsym(RTLD_NEXT, "__poll"); /* static pthread_getspecific_pfn_t g_sys_pthread_getspecific_func = (pthread_getspecific_pfn_t)dlsym(RTLD_NEXT,"pthread_getspecific"); static pthread_setspecific_pfn_t g_sys_pthread_setspecific_func = (pthread_setspecific_pfn_t)dlsym(RTLD_NEXT,"pthread_setspecific"); static pthread_rwlock_rdlock_pfn_t g_sys_pthread_rwlock_rdlock_func = (pthread_rwlock_rdlock_pfn_t)dlsym(RTLD_NEXT,"pthread_rwlock_rdlock"); static pthread_rwlock_wrlock_pfn_t g_sys_pthread_rwlock_wrlock_func = (pthread_rwlock_wrlock_pfn_t)dlsym(RTLD_NEXT,"pthread_rwlock_wrlock"); static pthread_rwlock_unlock_pfn_t g_sys_pthread_rwlock_unlock_func = (pthread_rwlock_unlock_pfn_t)dlsym(RTLD_NEXT,"pthread_rwlock_unlock"); */ static inline unsigned long long get_tick_count() { uint32_t lo, hi; __asm__ __volatile__ ( "rdtscp" : "=a"(lo), "=d"(hi) ); return ((unsigned long long)lo) | (((unsigned long long)hi) << 32); } struct rpchook_connagent_head_t { unsigned char bVersion; struct in_addr iIP; unsigned short hPort; unsigned int iBodyLen; unsigned int iOssAttrID; unsigned char bIsRespNotExist; unsigned char sReserved[6]; }__attribute__((packed)); #define HOOK_SYS_FUNC(name) if( !g_sys_##name##_func ) { g_sys_##name##_func = (name##_pfn_t)dlsym(RTLD_NEXT,#name); } static inline ll64_t diff_ms(struct timeval &begin,struct timeval &end) { ll64_t u = (end.tv_sec - begin.tv_sec) ; u *= 1000 * 10; u += ( end.tv_usec - begin.tv_usec ) / ( 100 ); return u; } static inline rpchook_t * get_by_fd( int fd ) { if( fd > -1 && fd < (int)sizeof(g_rpchook_socket_fd) / (int)sizeof(g_rpchook_socket_fd[0]) ) { return g_rpchook_socket_fd[ fd ]; } return NULL; } static inline rpchook_t * alloc_by_fd( int fd ) { if( fd > -1 && fd < (int)sizeof(g_rpchook_socket_fd) / (int)sizeof(g_rpchook_socket_fd[0]) ) { rpchook_t *lp = (rpchook_t*)calloc( 1,sizeof(rpchook_t) ); lp->read_timeout.tv_sec = 1; lp->write_timeout.tv_sec = 1; g_rpchook_socket_fd[ fd ] = lp; return lp; } return NULL; } static inline void free_by_fd( int fd ) { if( fd > -1 && fd < (int)sizeof(g_rpchook_socket_fd) / (int)sizeof(g_rpchook_socket_fd[0]) ) { rpchook_t *lp = g_rpchook_socket_fd[ fd ]; if( lp ) { g_rpchook_socket_fd[ fd ] = NULL; free(lp); } } return; } int socket(int domain, int type, int protocol) { HOOK_SYS_FUNC( socket ); if( !co_is_enable_sys_hook() ) { return g_sys_socket_func( domain,type,protocol ); } int fd = g_sys_socket_func(domain,type,protocol); if( fd < 0 ) { return fd; } rpchook_t *lp = alloc_by_fd( fd ); lp->domain = domain; fcntl( fd, F_SETFL, g_sys_fcntl_func(fd, F_GETFL,0 ) ); return fd; } int co_accept( int fd, struct sockaddr *addr, socklen_t *len ) { int cli = accept( fd,addr,len ); if( cli < 0 ) { return cli; } alloc_by_fd( cli ); return cli; } int connect(int fd, const struct sockaddr *address, socklen_t address_len) { HOOK_SYS_FUNC( connect ); if( !co_is_enable_sys_hook() ) { return g_sys_connect_func(fd,address,address_len); } int ret = g_sys_connect_func(fd,address,address_len); if( address_len == sizeof(sockaddr_un)) { const struct sockaddr_un *p = (const struct sockaddr_un *)address; if( strstr( p->sun_path,"connagent_unix_domain_socket") ) ///tmp/connagent_unix_domain_socket { } } rpchook_t *lp = get_by_fd( fd ); if( lp ) { if( sizeof(lp->dest) >= address_len ) { memcpy( &(lp->dest),address,(int)address_len ); } } return ret; } int close(int fd) { HOOK_SYS_FUNC( close ); if( !co_is_enable_sys_hook() ) { return g_sys_close_func( fd ); } free_by_fd( fd ); int ret = g_sys_close_func(fd); return ret; } ssize_t read( int fd, void *buf, size_t nbyte ) { HOOK_SYS_FUNC( read ); if( !co_is_enable_sys_hook() ) { return g_sys_read_func( fd,buf,nbyte ); } rpchook_t *lp = get_by_fd( fd ); if( !lp || ( O_NONBLOCK & lp->user_flag ) ) { ssize_t ret = g_sys_read_func( fd,buf,nbyte ); return ret; } int timeout = ( lp->read_timeout.tv_sec * 1000 ) + ( lp->read_timeout.tv_usec / 1000 ); struct pollfd pf = { 0 }; pf.fd = fd; pf.events = ( POLLIN | POLLERR | POLLHUP ); int pollret = poll( &pf,1,timeout ); ssize_t readret = g_sys_read_func( fd,(char*)buf ,nbyte ); if( readret < 0 ) { co_log_err("CO_ERR: read fd %d ret %ld errno %d poll ret %d timeout %d", fd,readret,errno,pollret,timeout); } return readret; } ssize_t write( int fd, const void *buf, size_t nbyte ) { HOOK_SYS_FUNC( write ); if( !co_is_enable_sys_hook() ) { return g_sys_write_func( fd,buf,nbyte ); } rpchook_t *lp = get_by_fd( fd ); if( !lp || ( O_NONBLOCK & lp->user_flag ) ) { ssize_t ret = g_sys_write_func( fd,buf,nbyte ); return ret; } size_t wrotelen = 0; int timeout = ( lp->write_timeout.tv_sec * 1000 ) + ( lp->write_timeout.tv_usec / 1000 ); ssize_t writeret = g_sys_write_func( fd,(const char*)buf + wrotelen,nbyte - wrotelen ); if( writeret > 0 ) { wrotelen += writeret; } while( wrotelen < nbyte ) { struct pollfd pf = { 0 }; pf.fd = fd; pf.events = ( POLLOUT | POLLERR | POLLHUP ); poll( &pf,1,timeout ); writeret = g_sys_write_func( fd,(const char*)buf + wrotelen,nbyte - wrotelen ); if( writeret <= 0 ) { break; } wrotelen += writeret ; } return wrotelen; } ssize_t sendto(int socket, const void *message, size_t length, int flags, const struct sockaddr *dest_addr, socklen_t dest_len) { /* 1.no enable sys call ? sys 2.( !lp || lp is non block ) ? sys 3.try 4.wait 5.try */ HOOK_SYS_FUNC( sendto ); if( !co_is_enable_sys_hook() ) { return g_sys_sendto_func( socket,message,length,flags,dest_addr,dest_len ); } rpchook_t *lp = get_by_fd( socket ); if( !lp || ( O_NONBLOCK & lp->user_flag ) ) { return g_sys_sendto_func( socket,message,length,flags,dest_addr,dest_len ); } ssize_t ret = g_sys_sendto_func( socket,message,length,flags,dest_addr,dest_len ); if( ret < 0 && EAGAIN == errno ) { int timeout = ( lp->write_timeout.tv_sec * 1000 ) + ( lp->write_timeout.tv_usec / 1000 ); struct pollfd pf = { 0 }; pf.fd = socket; pf.events = ( POLLOUT | POLLERR | POLLHUP ); poll( &pf,1,timeout ); ret = g_sys_sendto_func( socket,message,length,flags,dest_addr,dest_len ); } return ret; } ssize_t recvfrom(int socket, void *buffer, size_t length, int flags, struct sockaddr *address, socklen_t *address_len) { HOOK_SYS_FUNC( recvfrom ); if( !co_is_enable_sys_hook() ) { return g_sys_recvfrom_func( socket,buffer,length,flags,address,address_len ); } rpchook_t *lp = get_by_fd( socket ); if( !lp || ( O_NONBLOCK & lp->user_flag ) ) { return g_sys_recvfrom_func( socket,buffer,length,flags,address,address_len ); } int timeout = ( lp->read_timeout.tv_sec * 1000 ) + ( lp->read_timeout.tv_usec / 1000 ); struct pollfd pf = { 0 }; pf.fd = socket; pf.events = ( POLLIN | POLLERR | POLLHUP ); poll( &pf,1,timeout ); ssize_t ret = g_sys_recvfrom_func( socket,buffer,length,flags,address,address_len ); return ret; } ssize_t send(int socket, const void *buffer, size_t length, int flags) { HOOK_SYS_FUNC( send ); if( !co_is_enable_sys_hook() ) { return g_sys_send_func( socket,buffer,length,flags ); } rpchook_t *lp = get_by_fd( socket ); if( !lp || ( O_NONBLOCK & lp->user_flag ) ) { return g_sys_send_func( socket,buffer,length,flags ); } size_t wrotelen = 0; int timeout = ( lp->write_timeout.tv_sec * 1000 ) + ( lp->write_timeout.tv_usec / 1000 ); ssize_t writeret = g_sys_send_func( socket,buffer,length,flags ); if( writeret > 0 ) { wrotelen += writeret; } while( wrotelen < length ) { struct pollfd pf = { 0 }; pf.fd = socket; pf.events = ( POLLOUT | POLLERR | POLLHUP ); poll( &pf,1,timeout ); writeret = g_sys_send_func( socket,(const char*)buffer + wrotelen,length - wrotelen,flags ); if( writeret <= 0 ) { break; } wrotelen += writeret ; } return wrotelen; } ssize_t recv( int socket, void *buffer, size_t length, int flags ) { HOOK_SYS_FUNC( recv ); if( !co_is_enable_sys_hook() ) { return g_sys_recv_func( socket,buffer,length,flags ); } rpchook_t *lp = get_by_fd( socket ); if( !lp || ( O_NONBLOCK & lp->user_flag ) ) { return g_sys_recv_func( socket,buffer,length,flags ); } int timeout = ( lp->read_timeout.tv_sec * 1000 ) + ( lp->read_timeout.tv_usec / 1000 ); struct pollfd pf = { 0 }; pf.fd = socket; pf.events = ( POLLIN | POLLERR | POLLHUP ); int pollret = poll( &pf,1,timeout ); ssize_t readret = g_sys_recv_func( socket,buffer,length,flags ); if( readret < 0 ) { co_log_err("CO_ERR: read fd %d ret %ld errno %d poll ret %d timeout %d", socket,readret,errno,pollret,timeout); } return readret; } int poll(struct pollfd fds[], nfds_t nfds, int timeout) { HOOK_SYS_FUNC( poll ); if( !co_is_enable_sys_hook() ) { return g_sys_poll_func( fds,nfds,timeout ); } return co_poll( co_get_epoll_ct(),fds,nfds,timeout ); } int setsockopt(int fd, int level, int option_name, const void *option_value, socklen_t option_len) { HOOK_SYS_FUNC( setsockopt ); if( !co_is_enable_sys_hook() ) { return g_sys_setsockopt_func( fd,level,option_name,option_value,option_len ); } rpchook_t *lp = get_by_fd( fd ); if( lp && SOL_SOCKET == level ) { struct timeval *val = (struct timeval*)option_value; if( SO_RCVTIMEO == option_name ) { memcpy( &lp->read_timeout,val,sizeof(*val) ); } else if( SO_SNDTIMEO == option_name ) { memcpy( &lp->write_timeout,val,sizeof(*val) ); } } return g_sys_setsockopt_func( fd,level,option_name,option_value,option_len ); } int fcntl(int fildes, int cmd, ...) { HOOK_SYS_FUNC( fcntl ); if( fildes < 0 ) { return __LINE__; } va_list arg_list; va_start( arg_list,cmd ); int ret = -1; rpchook_t *lp = get_by_fd( fildes ); switch( cmd ) { case F_DUPFD: { int param = va_arg(arg_list,int); ret = g_sys_fcntl_func( fildes,cmd,param ); break; } case F_GETFD: { ret = g_sys_fcntl_func( fildes,cmd ); break; } case F_SETFD: { int param = va_arg(arg_list,int); ret = g_sys_fcntl_func( fildes,cmd,param ); break; } case F_GETFL: { ret = g_sys_fcntl_func( fildes,cmd ); break; } case F_SETFL: { int param = va_arg(arg_list,int); int flag = param; if( co_is_enable_sys_hook() && lp ) { flag |= O_NONBLOCK; } ret = g_sys_fcntl_func( fildes,cmd,flag ); if( 0 == ret && lp ) { lp->user_flag = param; } break; } case F_GETOWN: { ret = g_sys_fcntl_func( fildes,cmd ); break; } case F_SETOWN: { int param = va_arg(arg_list,int); ret = g_sys_fcntl_func( fildes,cmd,param ); break; } case F_GETLK: { struct flock *param = va_arg(arg_list,struct flock *); ret = g_sys_fcntl_func( fildes,cmd,param ); break; } case F_SETLK: { struct flock *param = va_arg(arg_list,struct flock *); ret = g_sys_fcntl_func( fildes,cmd,param ); break; } case F_SETLKW: { struct flock *param = va_arg(arg_list,struct flock *); ret = g_sys_fcntl_func( fildes,cmd,param ); break; } } va_end( arg_list ); return ret; } struct stCoSysEnv_t { char *name; char *value; }; struct stCoSysEnvArr_t { stCoSysEnv_t *data; size_t cnt; }; static stCoSysEnvArr_t *dup_co_sysenv_arr( stCoSysEnvArr_t * arr ) { stCoSysEnvArr_t *lp = (stCoSysEnvArr_t*)calloc( sizeof(stCoSysEnvArr_t),1 ); if( arr->cnt ) { lp->data = (stCoSysEnv_t*)calloc( sizeof(stCoSysEnv_t) * arr->cnt,1 ); lp->cnt = arr->cnt; memcpy( lp->data,arr->data,sizeof( stCoSysEnv_t ) * arr->cnt ); } return lp; } static int co_sysenv_comp(const void *a, const void *b) { return strcmp(((stCoSysEnv_t*)a)->name, ((stCoSysEnv_t*)b)->name); } static stCoSysEnvArr_t g_co_sysenv = { 0 }; void co_set_env_list( const char *name[],size_t cnt) { if( g_co_sysenv.data ) { return ; } g_co_sysenv.data = (stCoSysEnv_t*)calloc( 1,sizeof(stCoSysEnv_t) * cnt ); for(size_t i=0;i 1 ) { qsort( g_co_sysenv.data,g_co_sysenv.cnt,sizeof(stCoSysEnv_t),co_sysenv_comp ); stCoSysEnv_t *lp = g_co_sysenv.data; stCoSysEnv_t *lq = g_co_sysenv.data + 1; for(size_t i=1;iname,lq->name ) ) { ++lp; if( lq != lp ) { *lp = *lq; } } ++lq; } g_co_sysenv.cnt = lp - g_co_sysenv.data + 1; } } int setenv(const char *n, const char *value, int overwrite) { HOOK_SYS_FUNC( setenv ) if( co_is_enable_sys_hook() && g_co_sysenv.data ) { stCoRoutine_t *self = co_self(); if( self ) { if( !self->pvEnv ) { self->pvEnv = dup_co_sysenv_arr( &g_co_sysenv ); } stCoSysEnvArr_t *arr = (stCoSysEnvArr_t*)(self->pvEnv); stCoSysEnv_t name = { (char*)n,0 }; stCoSysEnv_t *e = (stCoSysEnv_t*)bsearch( &name,arr->data,arr->cnt,sizeof(name),co_sysenv_comp ); if( e ) { if( overwrite || !e->value ) { if( e->value ) free( e->value ); e->value = ( value ? strdup( value ) : 0 ); } return 0; } } } return g_sys_setenv_func( n,value,overwrite ); } int unsetenv(const char *n) { HOOK_SYS_FUNC( unsetenv ) if( co_is_enable_sys_hook() && g_co_sysenv.data ) { stCoRoutine_t *self = co_self(); if( self ) { if( !self->pvEnv ) { self->pvEnv = dup_co_sysenv_arr( &g_co_sysenv ); } stCoSysEnvArr_t *arr = (stCoSysEnvArr_t*)(self->pvEnv); stCoSysEnv_t name = { (char*)n,0 }; stCoSysEnv_t *e = (stCoSysEnv_t*)bsearch( &name,arr->data,arr->cnt,sizeof(name),co_sysenv_comp ); if( e ) { if( e->value ) { free( e->value ); e->value = 0; } return 0; } } } return g_sys_unsetenv_func( n ); } char *getenv( const char *n ) { HOOK_SYS_FUNC( getenv ) if( co_is_enable_sys_hook() && g_co_sysenv.data ) { stCoRoutine_t *self = co_self(); stCoSysEnv_t name = { (char*)n,0 }; if( !self->pvEnv ) { self->pvEnv = dup_co_sysenv_arr( &g_co_sysenv ); } stCoSysEnvArr_t *arr = (stCoSysEnvArr_t*)(self->pvEnv); stCoSysEnv_t *e = (stCoSysEnv_t*)bsearch( &name,arr->data,arr->cnt,sizeof(name),co_sysenv_comp ); if( e ) { return e->value; } } return g_sys_getenv_func( n ); } struct res_state_wrap { struct __res_state state; }; CO_ROUTINE_SPECIFIC(res_state_wrap, __co_state_wrap); extern "C" { res_state __res_state() { HOOK_SYS_FUNC(__res_state); if (!co_is_enable_sys_hook()) { return g_sys___res_state_func(); } return &(__co_state_wrap->state); } int __poll(struct pollfd fds[], nfds_t nfds, int timeout) { return poll(fds, nfds, timeout); } } struct hostbuf_wrap { struct hostent host; char* buffer; size_t iBufferSize; int host_errno; }; CO_ROUTINE_SPECIFIC(hostbuf_wrap, __co_hostbuf_wrap); struct hostent *co_gethostbyname(const char *name) { if (!name) { return NULL; } if (__co_hostbuf_wrap->buffer && __co_hostbuf_wrap->iBufferSize > 1024) { free(__co_hostbuf_wrap->buffer); __co_hostbuf_wrap->buffer = NULL; } if (!__co_hostbuf_wrap->buffer) { __co_hostbuf_wrap->buffer = (char*)malloc(1024); __co_hostbuf_wrap->iBufferSize = 1024; } struct hostent *host = &__co_hostbuf_wrap->host; struct hostent *result = NULL; int *h_errnop = &(__co_hostbuf_wrap->host_errno); int ret = -1; while (ret = gethostbyname_r(name, host, __co_hostbuf_wrap->buffer, __co_hostbuf_wrap->iBufferSize, &result, h_errnop) == ERANGE && *h_errnop == NETDB_INTERNAL ) { free(__co_hostbuf_wrap->buffer); __co_hostbuf_wrap->iBufferSize = __co_hostbuf_wrap->iBufferSize * 2; __co_hostbuf_wrap->buffer = (char*)malloc(__co_hostbuf_wrap->iBufferSize); } if (ret == 0 && (host == result)) { return host; } return NULL; } void co_enable_hook_sys() //这函数必须在这里,否则本文件会被忽略!!! { stCoRoutine_t *co = GetCurrThreadCo(); if( co ) { co->cEnableSysHook = 1; } }