--- /dev/null
+#include <string.h>
+#include <errno.h>
+#include <stdlib.h>
+#include <sys/types.h>
+#include <sys/socket.h>
+#include <netinet/in.h>
+#include <arpa/inet.h>
+#include <unistd.h>
+#include <fcntl.h>
+#include "harness.h"
+#include "internal.h"
+vbuf vb;
+FILE *Toutputfile= 0;
+struct timeval currenttime;
+const struct Terrno Terrnos[]= {
+ { "EBADF", EBADF },
+ { "EAGAIN", EAGAIN },
+ { "EINPROGRESS", EINPROGRESS },
+ { "EINTR", EINTR },
+ { "EINVAL", EINVAL },
+ { "EMSGSIZE", EMSGSIZE },
+ { "ENOBUFS", ENOBUFS },
+ { "ENOENT", ENOENT },
+ { "ENOPROTOOPT", ENOPROTOOPT },
+ { "ENOSPC", ENOSPC },
+ { "EWOULDBLOCK", EWOULDBLOCK },
+ { "EHOSTUNREACH", EHOSTUNREACH },
+ { "ECONNRESET", ECONNRESET },
+ { "ECONNREFUSED", ECONNREFUSED },
+ { "EPIPE", EPIPE },
+ { 0, 0 }
+};
+static vbuf vbw;
+int Hgettimeofday(struct timeval *tv, struct timezone *tz) {
+ Tmust("gettimeofday","tz",!tz);
+ *tv= currenttime;
+ return 0;
+}
+int Hwritev(int fd, const struct iovec *vector, size_t count) {
+ size_t i;
+ vbw.used= 0;
+ for (i=0; i<count; i++, vector++) {
+ if (!adns__vbuf_append(&vbw,vector->iov_base,vector->iov_len)) Tnomem();
+ }
+ return Hwrite(fd,vbw.buf,vbw.used);
+}
+void Qselect( int max , const fd_set *rfds , const fd_set *wfds , const fd_set *efds , struct timeval *to ) {
+ vb.used= 0;
+ Tvba("select");
+ Tvbf(" max=%d",max);
+ Tvbf(" rfds="); Tvbfdset(max,rfds);
+ Tvbf(" wfds="); Tvbfdset(max,wfds);
+ Tvbf(" efds="); Tvbfdset(max,efds);
+ if (to) Tvbf(" to=%ld.%06ld",(long)to->tv_sec,(long)to->tv_usec);
+ else Tvba(" to=null");
+ Q_vb();
+}
+#ifdef HAVE_POLL
+void Qpoll( const struct pollfd *fds , int nfds , int timeout ) {
+ vb.used= 0;
+ Tvba("poll");
+ Tvbf(" fds="); Tvbpollfds(fds,nfds);
+ Tvbf(" timeout=%d",timeout);
+ Q_vb();
+}
+#endif
+void Qsocket( int type ) {
+ vb.used= 0;
+ Tvba("socket");
+ Tvbf(type==SOCK_STREAM ? " type=SOCK_STREAM" : " type=SOCK_DGRAM");
+ Q_vb();
+}
+void Qfcntl( int fd , int cmd , long arg ) {
+ vb.used= 0;
+ Tvba("fcntl");
+ Tvbf(" fd=%d",fd);
+ if (cmd == F_SETFL) {
+ Tvbf(" cmd=F_SETFL %s",arg & O_NONBLOCK ? "O_NONBLOCK|..." : "~O_NONBLOCK&...");
+ } else if (cmd == F_GETFL) {
+ Tvba(" cmd=F_GETFL");
+ } else {
+ Tmust("cmd","F_GETFL/F_SETFL",0);
+ }
+ Q_vb();
+}
+void Qconnect( int fd , const struct sockaddr *addr , int addrlen ) {
+ vb.used= 0;
+ Tvba("connect");
+ Tvbf(" fd=%d",fd);
+ Tvba(" addr="); Tvbaddr(addr,addrlen);
+ Q_vb();
+}
+void Qclose( int fd ) {
+ vb.used= 0;
+ Tvba("close");
+ Tvbf(" fd=%d",fd);
+ Q_vb();
+}
+void Qsendto( int fd , const void *msg , int msglen , const struct sockaddr *addr , int addrlen ) {
+ vb.used= 0;
+ Tvba("sendto");
+ Tvbf(" fd=%d",fd);
+ Tvba(" addr="); Tvbaddr(addr,addrlen);
+ Tvbbytes(msg,msglen);
+ Q_vb();
+}
+void Qrecvfrom( int fd , int buflen , int addrlen ) {
+ vb.used= 0;
+ Tvba("recvfrom");
+ Tvbf(" fd=%d",fd);
+ Tvbf(" buflen=%lu",(unsigned long)buflen);
+ Tvbf(" *addrlen=%d",addrlen);
+ Q_vb();
+}
+void Qread( int fd , size_t buflen ) {
+ vb.used= 0;
+ Tvba("read");
+ Tvbf(" fd=%d",fd);
+ Tvbf(" buflen=%lu",(unsigned long)buflen);
+ Q_vb();
+}
+void Qwrite( int fd , const void *buf , size_t len ) {
+ vb.used= 0;
+ Tvba("write");
+ Tvbf(" fd=%d",fd);
+ Tvbbytes(buf,len);
+ Q_vb();
+}
+void Tvbaddr(const struct sockaddr *addr, int len) {
+ const struct sockaddr_in *ai= (const struct sockaddr_in*)addr;
+ assert(len==sizeof(struct sockaddr_in));
+ assert(ai->sin_family==AF_INET);
+ Tvbf("%s:%u",inet_ntoa(ai->sin_addr),htons(ai->sin_port));
+}
+void Tvbbytes(const void *buf, int len) {
+ const byte *bp;
+ int i;
+ if (!len) { Tvba("\n ."); return; }
+ for (i=0, bp=buf; i<len; i++, bp++) {
+ if (!(i&31)) Tvba("\n ");
+ else if (!(i&3)) Tvba(" ");
+ Tvbf("%02x",*bp);
+ }
+ Tvba(".");
+}
+void Tvbfdset(int max, const fd_set *fds) {
+ int i;
+ const char *comma= "";
+ Tvba("[");
+ for (i=0; i<max; i++) {
+ if (!FD_ISSET(i,fds)) continue;
+ Tvba(comma);
+ Tvbf("%d",i);
+ comma= ",";
+ }
+ Tvba("]");
+}
+static void Tvbpollevents(int events) {
+ const char *delim= "";
+ events &= (POLLIN|POLLOUT|POLLPRI);
+ if (!events) { Tvba("0"); return; }
+ if (events & POLLIN) { Tvba("POLLIN"); delim= "|"; }
+ if (events & POLLOUT) { Tvba(delim); Tvba("POLLOUT"); delim= "|"; }
+ if (events & POLLPRI) { Tvba(delim); Tvba("POLLPRI"); }
+}
+void Tvbpollfds(const struct pollfd *fds, int nfds) {
+ const char *comma= "";
+ Tvba("[");
+ while (nfds>0) {
+ Tvba(comma);
+ Tvbf("{fd=%d, events=",fds->fd);
+ Tvbpollevents(fds->events);
+ Tvba(", revents=");
+ Tvbpollevents(fds->revents);
+ Tvba("}");
+ comma= ", ";
+ nfds--; fds++;
+ }
+ Tvba("]");
+}
+void Tvberrno(int e) {
+ const struct Terrno *te;
+ for (te= Terrnos; te->n && te->v != e; te++);
+ assert(te->n);
+ Tvba(te->n);
+}
+void Tvba(const char *str) {
+ if (!adns__vbuf_appendstr(&vb,str)) Tnomem();
+}
+void Tvbvf(const char *fmt, va_list al) {
+ char buf[1000];
+ buf[sizeof(buf)-2]= '\t';
+ vsnprintf(buf,sizeof(buf),fmt,al);
+ assert(buf[sizeof(buf)-2] == '\t');
+ Tvba(buf);
+}
+void Tvbf(const char *fmt, ...) {
+ va_list al;
+ va_start(al,fmt);
+ Tvbvf(fmt,al);
+ va_end(al);
+}
+void Tmust(const char *call, const char *arg, int cond) {
+ if (cond) return;
+ fprintf(stderr,"adns test harness: case not handled: system call %s, arg %s",call,arg);
+ exit(-1);
+}
+void Tfailed(const char *why) {
+ fprintf(stderr,"adns test harness: failure: %s: %s\n",why,strerror(errno));
+ exit(-1);
+}
+void Tnomem(void) {
+ Tfailed("unable to malloc/realloc");
+}
+void Toutputerr(void) {
+ Tfailed("write error on test harness output");
+}
+struct malloced {
+ struct malloced *next, *back;
+ size_t sz;
+ unsigned long count;
+ struct { double d; long ul; void *p; void (*fp)(void); } data;
+};
+static unsigned long malloccount, mallocfailat;
+static struct { struct malloced *head, *tail; } mallocedlist;
+#define MALLOCHSZ ((char*)&mallocedlist.head->data - (char*)mallocedlist.head)
+void *Hmalloc(size_t sz) {
+ struct malloced *newnode;
+ const char *mfavar;
+ char *ep;
+ assert(sz);
+ newnode= malloc(MALLOCHSZ + sz); if (!newnode) Tnomem();
+ LIST_LINK_TAIL(mallocedlist,newnode);
+ newnode->sz= sz;
+ newnode->count= ++malloccount;
+ if (!mallocfailat) {
+ mfavar= getenv("ADNS_REGRESS_MALLOCFAILAT");
+ if (mfavar) {
+ mallocfailat= strtoul(mfavar,&ep,10);
+ if (!mallocfailat || *ep) Tfailed("ADNS_REGRESS_MALLOCFAILAT bad value");
+ } else {
+ mallocfailat= ~0UL;
+ }
+ }
+ assert(newnode->count != mallocfailat);
+ memset(&newnode->data,0xc7,sz);
+ return &newnode->data;
+}
+void Hfree(void *ptr) {
+ struct malloced *oldnode;
+ if (!ptr) return;
+ oldnode= (void*)((char*)ptr - MALLOCHSZ);
+ LIST_UNLINK(mallocedlist,oldnode);
+ memset(&oldnode->data,0x38,oldnode->sz);
+ free(oldnode);
+}
+void *Hrealloc(void *op, size_t nsz) {
+ struct malloced *oldnode;
+ void *np;
+ size_t osz;
+ if (op) { oldnode= (void*)((char*)op - MALLOCHSZ); osz= oldnode->sz; } else { osz= 0; }
+ np= Hmalloc(nsz);
+ memcpy(np,op, osz>nsz ? nsz : osz);
+ Hfree(op);
+ return np;
+}
+void Hexit(int rv) {
+ struct malloced *loopnode;
+ Tshutdown();
+ adns__vbuf_free(&vb);
+ adns__vbuf_free(&vbw);
+ if (mallocedlist.head) {
+ fprintf(stderr,"adns test harness: memory leaked:");
+ for (loopnode=mallocedlist.head; loopnode; loopnode=loopnode->next)
+ fprintf(stderr," %lu(%lu)",loopnode->count,(unsigned long)loopnode->sz);
+ putc('\n',stderr);
+ if (ferror(stderr)) exit(-1);
+ }
+ exit(rv);
+}
--- /dev/null
+#include <assert.h>
+#include <string.h>
+#include <errno.h>
+#include <stdlib.h>
+#include <sys/types.h>
+#include <sys/socket.h>
+#include <netinet/in.h>
+#include <arpa/inet.h>
+#include <unistd.h>
+#include <fcntl.h>
+#include "harness.h"
+static FILE *Tinputfile, *Treportfile;
+static vbuf vb2;
+extern void Tshutdown(void) {
+ adns__vbuf_free(&vb2);
+}
+static void Tensurereportfile(void) {
+ const char *fdstr;
+ int fd;
+ if (Treportfile) return;
+ Treportfile= stderr;
+ fdstr= getenv("ADNS_TEST_REPORT_FD"); if (!fdstr) return;
+ fd= atoi(fdstr);
+ Treportfile= fdopen(fd,"a"); if (!Treportfile) Tfailed("fdopen ADNS_TEST_REPORT_FD");
+}
+static void Psyntax(const char *where) {
+ fprintf(stderr,"adns test harness: syntax error in test log input file: %s\n",where);
+ exit(-1);
+}
+static void Pcheckinput(void) {
+ if (ferror(Tinputfile)) Tfailed("read test log input file");
+ if (feof(Tinputfile)) Psyntax("eof at syscall reply");
+}
+static void Tensureinputfile(void) {
+ const char *fdstr;
+ int fd;
+ int chars;
+ unsigned long sec, usec;
+ if (Tinputfile) return;
+ Tinputfile= stdin;
+ fdstr= getenv("ADNS_TEST_IN_FD");
+ if (fdstr) {
+ fd= atoi(fdstr);
+ Tinputfile= fdopen(fd,"r"); if (!Tinputfile) Tfailed("fdopen ADNS_TEST_IN_FD");
+ }
+ setvbuf(Tinputfile,0,_IONBF,0);
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ chars= -1;
+ sscanf(vb2.buf," start %lu.%lu%n",&sec,&usec,&chars);
+ if (chars==-1) Psyntax("start time invalid");
+ currenttime.tv_sec= sec;
+ currenttime.tv_usec= usec;
+ if (vb2.buf[chars] != '\n') Psyntax("not newline after start time");
+}
+static void Parg(const char *argname) {
+ int l;
+ if (vb2.buf[vb2.used++] != ' ') Psyntax("not a space before argument");
+ l= strlen(argname);
+ if (memcmp(vb2.buf+vb2.used,argname,l)) Psyntax("argument name wrong");
+ vb2.used+= l;
+ if (vb2.buf[vb2.used++] != '=') Psyntax("not = after argument name");
+}
+static int Pstring_maybe(const char *string) {
+ int l;
+ l= strlen(string);
+ if (memcmp(vb2.buf+vb2.used,string,l)) return 0;
+ vb2.used+= l;
+ return 1;
+}
+static void Pstring(const char *string, const char *emsg) {
+ if (Pstring_maybe(string)) return;
+ Psyntax(emsg);
+}
+static int Perrno(const char *stuff) {
+ const struct Terrno *te;
+ int r;
+ char *ep;
+ for (te= Terrnos; te->n && strcmp(te->n,stuff); te++);
+ if (te->n) return te->v;
+ r= strtoul(stuff+2,&ep,10);
+ if (*ep) Psyntax("errno value not recognised, not numeric");
+ return r;
+}
+static void P_updatetime(void) {
+ int chars;
+ unsigned long sec, usec;
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ chars= -1;
+ sscanf(vb2.buf," +%lu.%lu%n",&sec,&usec,&chars);
+ if (chars==-1) Psyntax("update time invalid");
+ currenttime.tv_sec+= sec;
+ currenttime.tv_usec+= usec;
+ if (currenttime.tv_usec > 1000000) {
+ currenttime.tv_sec++;
+ currenttime.tv_usec -= 1000000;
+ }
+ if (vb2.buf[chars] != '\n') Psyntax("not newline after update time");
+}
+static void Pfdset(fd_set *set, int max) {
+ int r, c;
+ char *ep;
+ if (vb2.buf[vb2.used++] != '[') Psyntax("fd set start not [");
+ FD_ZERO(set);
+ if (vb2.buf[vb2.used] == ']') { vb2.used++; return; }
+ for (;;) {
+ r= strtoul(vb2.buf+vb2.used,&ep,10);
+ if (r>=max) Psyntax("fd set member > max");
+ if (ep == (char*)vb2.buf+vb2.used) Psyntax("empty entry in fd set");
+ FD_SET(r,set);
+ vb2.used= ep - (char*)vb2.buf;
+ c= vb2.buf[vb2.used++];
+ if (c == ']') break;
+ if (c != ',') Psyntax("fd set separator not ,");
+ }
+}
+#ifdef HAVE_POLL
+static int Ppollfdevents(void) {
+ int events;
+ if (Pstring_maybe("0")) return 0;
+ events= 0;
+ if (Pstring_maybe("POLLIN")) {
+ events |= POLLIN;
+ if (!Pstring_maybe("|")) return events;
+ }
+ if (Pstring_maybe("POLLOUT")) {
+ events |= POLLOUT;
+ if (!Pstring_maybe("|")) return events;
+ }
+ Pstring("POLLPRI","pollfdevents PRI?");
+ return events;
+}
+static void Ppollfds(struct pollfd *fds, int nfds) {
+ int i;
+ char *ep;
+ const char *comma= "";
+ if (vb2.buf[vb2.used++] != '[') Psyntax("pollfds start not [");
+ for (i=0; i<nfds; i++) {
+ Pstring("{fd=","{fd= in pollfds");
+ fds->fd= strtoul(vb2.buf+vb2.used,&ep,10);
+ vb2.used= ep - (char*)vb2.buf;
+ Pstring(", events=",", events= in pollfds");
+ fds->events= Ppollfdevents();
+ Pstring(", revents=",", revents= in pollfds");
+ fds->revents= Ppollfdevents();
+ Pstring("}","} in pollfds");
+ Pstring(comma,"separator in pollfds");
+ comma= ", ";
+ }
+ if (vb2.buf[vb2.used++] != ']') Psyntax("pollfds end not ]");
+}
+#endif
+static void Paddr(struct sockaddr *addr, int *lenr) {
+ struct sockaddr_in *sa= (struct sockaddr_in*)addr;
+ char *p, *ep;
+ long ul;
+ assert(*lenr >= sizeof(*sa));
+ p= strchr(vb2.buf+vb2.used,':');
+ if (!p) Psyntax("no port on address");
+ *p++= 0;
+ memset(sa,0,sizeof(*sa));
+ sa->sin_family= AF_INET;
+ if (!inet_aton(vb2.buf+vb2.used,&sa->sin_addr)) Psyntax("invalid address");
+ ul= strtoul(p,&ep,10);
+ if (*ep && *ep != ' ') Psyntax("invalid port (bad syntax)");
+ if (ul >= 65536) Psyntax("port too large");
+ sa->sin_port= htons(ul);
+ *lenr= sizeof(*sa);
+ vb2.used= ep - (char*)vb2.buf;
+}
+static int Pbytes(byte *buf, int maxlen) {
+ static const char hexdigits[]= "0123456789abcdef";
+ int c, v, done;
+ const char *pf;
+ done= 0;
+ for (;;) {
+ c= getc(Tinputfile); Pcheckinput();
+ if (c=='\n' || c==' ' || c=='\t') continue;
+ if (c=='.') break;
+ pf= strchr(hexdigits,c); if (!pf) Psyntax("invalid first hex digit");
+ v= (pf-hexdigits)<<4;
+ c= getc(Tinputfile); Pcheckinput();
+ pf= strchr(hexdigits,c); if (!pf) Psyntax("invalid second hex digit");
+ v |= (pf-hexdigits);
+ if (maxlen<=0) Psyntax("buffer overflow in bytes");
+ *buf++= v;
+ maxlen--; done++;
+ }
+ for (;;) {
+ c= getc(Tinputfile); Pcheckinput();
+ if (c=='\n') return done;
+ }
+}
+void Q_vb(void) {
+ int r;
+ const char *nl;
+ Tensureinputfile();
+ if (!adns__vbuf_ensure(&vb2,vb.used+2)) Tnomem();
+ r= fread(vb2.buf,1,vb.used+2,Tinputfile);
+ if (feof(Tinputfile)) {
+ fprintf(stderr,"adns test harness: input ends prematurely; program did:\n %.*s\n",
+ vb.used,vb.buf);
+ exit(-1);
+ }
+ Pcheckinput();
+ if (vb2.buf[0] != ' ') Psyntax("not space before call");
+ if (memcmp(vb.buf,vb2.buf+1,vb.used) ||
+ vb2.buf[vb.used+1] != '\n') {
+ fprintf(stderr,
+ "adns test harness: program did unexpected:\n %.*s\n"
+ "was expecting:\n %.*s\n",
+ vb.used,vb.buf, vb.used,vb2.buf+1);
+ exit(1);
+ }
+ Tensurereportfile();
+ nl= memchr(vb.buf,'\n',vb.used);
+ fprintf(Treportfile," %.*s\n", (int)(nl ? nl - (const char*)vb.buf : vb.used), vb.buf);
+}
+int Hselect( int max , fd_set *rfds , fd_set *wfds , fd_set *efds , struct timeval *to ) {
+ int r, amtread;
+ char *ep;
+ Qselect( max , rfds , wfds , efds , to );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," select=",8)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[8] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+8);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ r= strtoul(vb2.buf+8,&ep,10);
+ if (*ep && *ep!=' ') Psyntax("return value not E* or positive number");
+ vb2.used= ep - (char*)vb2.buf;
+ Parg("rfds"); Pfdset(rfds,max);
+ Parg("wfds"); Pfdset(wfds,max);
+ Parg("efds"); Pfdset(efds,max);
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+#ifdef HAVE_POLL
+int Hpoll( struct pollfd *fds , int nfds , int timeout ) {
+ int r, amtread;
+ char *ep;
+ Qpoll( fds , nfds , timeout );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," poll=",6)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[6] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+6);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ r= strtoul(vb2.buf+6,&ep,10);
+ if (*ep && *ep!=' ') Psyntax("return value not E* or positive number");
+ vb2.used= ep - (char*)vb2.buf;
+ Parg("fds"); Ppollfds(fds,nfds);
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+#endif
+int Hsocket( int domain , int type , int protocol ) {
+ int r, amtread;
+ char *ep;
+ Tmust("socket","domain",domain==AF_INET);
+ Tmust("socket","type",type==SOCK_STREAM || type==SOCK_DGRAM);
+ Qsocket( type );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," socket=",8)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[8] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+8);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ r= strtoul(vb2.buf+8,&ep,10);
+ if (*ep && *ep!=' ') Psyntax("return value not E* or positive number");
+ vb2.used= ep - (char*)vb2.buf;
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+int Hfcntl( int fd , int cmd , ... ) {
+ int r, amtread;
+ va_list al; long arg;
+ Tmust("fcntl","cmd",cmd==F_SETFL || cmd==F_GETFL);
+ if (cmd == F_SETFL) {
+ va_start(al,cmd); arg= va_arg(al,long); va_end(al);
+ } else {
+ arg= 0;
+ }
+ Qfcntl( fd , cmd , arg );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," fcntl=",7)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[7] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+7);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ r= 0;
+ if (cmd == F_GETFL) {
+ if (!memcmp(vb2.buf+7,"O_NONBLOCK|...",14)) {
+ r= O_NONBLOCK;
+ vb2.used= 7+14;
+ } else if (!memcmp(vb2.buf+7,"~O_NONBLOCK&...",15)) {
+ vb2.used= 7+15;
+ } else {
+ Psyntax("fcntl flags not O_NONBLOCK|... or ~O_NONBLOCK&...");
+ }
+ } else if (cmd == F_SETFL) {
+ if (memcmp(vb2.buf+7,"OK",2)) Psyntax("success/fail not E* or OK");
+ vb2.used= 7+2;
+ r= 0;
+ } else {
+ Psyntax("fcntl not F_GETFL or F_SETFL");
+ }
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+int Hconnect( int fd , const struct sockaddr *addr , int addrlen ) {
+ int r, amtread;
+ Qconnect( fd , addr , addrlen );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," connect=",9)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[9] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+9);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ if (memcmp(vb2.buf+9,"OK",2)) Psyntax("success/fail not E* or OK");
+ vb2.used= 9+2;
+ r= 0;
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+int Hclose( int fd ) {
+ int r, amtread;
+ Qclose( fd );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," close=",7)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[7] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+7);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ if (memcmp(vb2.buf+7,"OK",2)) Psyntax("success/fail not E* or OK");
+ vb2.used= 7+2;
+ r= 0;
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+int Hsendto( int fd , const void *msg , int msglen , unsigned int flags , const struct sockaddr *addr , int addrlen ) {
+ int r, amtread;
+ char *ep;
+ Tmust("sendto","flags",flags==0);
+ Qsendto( fd , msg , msglen , addr , addrlen );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," sendto=",8)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[8] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+8);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ r= strtoul(vb2.buf+8,&ep,10);
+ if (*ep && *ep!=' ') Psyntax("return value not E* or positive number");
+ vb2.used= ep - (char*)vb2.buf;
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
+int Hrecvfrom( int fd , void *buf , int buflen , unsigned int flags , struct sockaddr *addr , int *addrlen ) {
+ int r, amtread;
+ Tmust("recvfrom","flags",flags==0);
+ Tmust("recvfrom","*addrlen",*addrlen>=sizeof(struct sockaddr_in));
+ Qrecvfrom( fd , buflen , *addrlen );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," recvfrom=",10)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[10] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+10);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ if (memcmp(vb2.buf+10,"OK",2)) Psyntax("success/fail not E* or OK");
+ vb2.used= 10+2;
+ r= 0;
+ Parg("addr"); Paddr(addr,addrlen);
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ r= Pbytes(buf,buflen);
+ P_updatetime();
+ return r;
+}
+int Hread( int fd , void *buf , size_t buflen ) {
+ int r, amtread;
+ Qread( fd , buflen );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," read=",6)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[6] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+6);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ if (memcmp(vb2.buf+6,"OK",2)) Psyntax("success/fail not E* or OK");
+ vb2.used= 6+2;
+ r= 0;
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ r= Pbytes(buf,buflen);
+ P_updatetime();
+ return r;
+}
+int Hwrite( int fd , const void *buf , size_t len ) {
+ int r, amtread;
+ char *ep;
+ Qwrite( fd , buf , len );
+ if (!adns__vbuf_ensure(&vb2,1000)) Tnomem();
+ fgets(vb2.buf,vb2.avail,Tinputfile); Pcheckinput();
+ Tensurereportfile();
+ fprintf(Treportfile,"%s",vb2.buf);
+ amtread= strlen(vb2.buf);
+ if (amtread<=0 || vb2.buf[--amtread]!='\n')
+ Psyntax("badly formed line");
+ vb2.buf[amtread]= 0;
+ if (memcmp(vb2.buf," write=",7)) Psyntax("syscall reply mismatch");
+ if (vb2.buf[7] == 'E') {
+ int e;
+ e= Perrno(vb2.buf+7);
+ P_updatetime();
+ errno= e;
+ return -1;
+ }
+ r= strtoul(vb2.buf+7,&ep,10);
+ if (*ep && *ep!=' ') Psyntax("return value not E* or positive number");
+ vb2.used= ep - (char*)vb2.buf;
+ assert(vb2.used <= amtread);
+ if (vb2.used != amtread) Psyntax("junk at end of line");
+ P_updatetime();
+ return r;
+}
--- /dev/null
+#include <assert.h>
+#include <string.h>
+#include <errno.h>
+#include <stdlib.h>
+#include <sys/types.h>
+#include <unistd.h>
+#include <fcntl.h>
+#include "harness.h"
+static FILE *Toutputfile;
+void Tshutdown(void) {
+}
+static void R_recordtime(void) {
+ int r;
+ struct timeval tv, tvrel;
+ Tensureoutputfile();
+ r= gettimeofday(&tv,0); if (r) Tfailed("gettimeofday syscallbegin");
+ tvrel.tv_sec= tv.tv_sec - currenttime.tv_sec;
+ tvrel.tv_usec= tv.tv_usec - currenttime.tv_usec;
+ if (tv.tv_usec < 0) { tvrel.tv_usec += 1000000; tvrel.tv_sec--; }
+ Tvbf("\n +%ld.%06ld",(long)tvrel.tv_sec,(long)tvrel.tv_usec);
+ currenttime= tv;
+}
+void Tensureoutputfile(void) {
+ const char *fdstr;
+ int fd, r;
+ if (Toutputfile) return;
+ Toutputfile= stdout;
+ fdstr= getenv("ADNS_TEST_OUT_FD");
+ if (fdstr) {
+ fd= atoi(fdstr);
+ Toutputfile= fdopen(fd,"a"); if (!Toutputfile) Tfailed("fdopen ADNS_TEST_OUT_FD");
+ }
+ r= gettimeofday(¤ttime,0); if (r) Tfailed("gettimeofday syscallbegin");
+ if (fprintf(Toutputfile," start %ld.%06ld\n",
+ (long)currenttime.tv_sec,(long)currenttime.tv_usec) == EOF) Toutputerr();
+}
+void Q_vb(void) {
+ if (!adns__vbuf_append(&vb,"",1)) Tnomem();
+ Tensureoutputfile();
+ if (fprintf(Toutputfile," %s\n",vb.buf) == EOF) Toutputerr();
+ if (fflush(Toutputfile)) Toutputerr();
+}
+static void R_vb(void) {
+ Q_vb();
+}
+int Hselect( int max , fd_set *rfds , fd_set *wfds , fd_set *efds , struct timeval *to ) {
+ int r, e;
+ Qselect( max , rfds , wfds , efds , to );
+ r= select( max , rfds , wfds , efds , to );
+ e= errno;
+ vb.used= 0;
+ Tvba("select=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tvbf("%d",r);
+ Tvba(" rfds="); Tvbfdset(max,rfds);
+ Tvba(" wfds="); Tvbfdset(max,wfds);
+ Tvba(" efds="); Tvbfdset(max,efds);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+#ifdef HAVE_POLL
+int Hpoll( struct pollfd *fds , int nfds , int timeout ) {
+ int r, e;
+ Qpoll( fds , nfds , timeout );
+ r= poll( fds , nfds , timeout );
+ e= errno;
+ vb.used= 0;
+ Tvba("poll=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tvbf("%d",r);
+ Tvba(" fds="); Tvbpollfds(fds,nfds);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+#endif
+int Hsocket( int domain , int type , int protocol ) {
+ int r, e;
+ Tmust("socket","domain",domain==AF_INET);
+ Tmust("socket","type",type==SOCK_STREAM || type==SOCK_DGRAM);
+ Qsocket( type );
+ r= socket( domain , type , protocol );
+ e= errno;
+ vb.used= 0;
+ Tvba("socket=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tvbf("%d",r);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hfcntl( int fd , int cmd , ... ) {
+ int r, e;
+ va_list al; long arg;
+ Tmust("fcntl","cmd",cmd==F_SETFL || cmd==F_GETFL);
+ if (cmd == F_SETFL) {
+ va_start(al,cmd); arg= va_arg(al,long); va_end(al);
+ } else {
+ arg= 0;
+ }
+ Qfcntl( fd , cmd , arg );
+ r= fcntl( fd , cmd , arg );
+ e= errno;
+ vb.used= 0;
+ Tvba("fcntl=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ if (cmd == F_GETFL) {
+ Tvbf(r & O_NONBLOCK ? "O_NONBLOCK|..." : "~O_NONBLOCK&...");
+ } else {
+ if (cmd == F_SETFL) {
+ Tmust("fcntl","return",!r);
+ } else {
+ Tmust("cmd","F_GETFL/F_SETFL",0);
+ }
+ Tvba("OK");
+ }
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hconnect( int fd , const struct sockaddr *addr , int addrlen ) {
+ int r, e;
+ Qconnect( fd , addr , addrlen );
+ r= connect( fd , addr , addrlen );
+ e= errno;
+ vb.used= 0;
+ Tvba("connect=");
+ if (r) { Tvberrno(e); goto x_error; }
+ Tvba("OK");
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hclose( int fd ) {
+ int r, e;
+ Qclose( fd );
+ r= close( fd );
+ e= errno;
+ vb.used= 0;
+ Tvba("close=");
+ if (r) { Tvberrno(e); goto x_error; }
+ Tvba("OK");
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hsendto( int fd , const void *msg , int msglen , unsigned int flags , const struct sockaddr *addr , int addrlen ) {
+ int r, e;
+ Tmust("sendto","flags",flags==0);
+ Qsendto( fd , msg , msglen , addr , addrlen );
+ r= sendto( fd , msg , msglen , flags , addr , addrlen );
+ e= errno;
+ vb.used= 0;
+ Tvba("sendto=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tvbf("%d",r);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hrecvfrom( int fd , void *buf , int buflen , unsigned int flags , struct sockaddr *addr , int *addrlen ) {
+ int r, e;
+ Tmust("recvfrom","flags",flags==0);
+ Tmust("recvfrom","*addrlen",*addrlen>=sizeof(struct sockaddr_in));
+ Qrecvfrom( fd , buflen , *addrlen );
+ r= recvfrom( fd , buf , buflen , flags , addr , addrlen );
+ e= errno;
+ vb.used= 0;
+ Tvba("recvfrom=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tmust("recvfrom","return",r<=buflen);
+ Tvba("OK");
+ Tvba(" addr="); Tvbaddr(addr,*addrlen);
+ Tvbbytes(buf,r);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hread( int fd , void *buf , size_t buflen ) {
+ int r, e;
+ Qread( fd , buflen );
+ r= read( fd , buf , buflen );
+ e= errno;
+ vb.used= 0;
+ Tvba("read=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tmust("read","return",r<=buflen);
+ Tvba("OK");
+ Tvbbytes(buf,r);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}
+int Hwrite( int fd , const void *buf , size_t len ) {
+ int r, e;
+ Qwrite( fd , buf , len );
+ r= write( fd , buf , len );
+ e= errno;
+ vb.used= 0;
+ Tvba("write=");
+ if (r==-1) { Tvberrno(e); goto x_error; }
+ Tvbf("%d",r);
+ x_error:
+ R_recordtime();
+ R_vb();
+ errno= e;
+ return r;
+}