WebSVN – wimsdev – /trunk/wims/src/Interfaces/common.c

/* Copyright (C) 1998-2003 XIAO, Gang of Universite de Nice - Sophia Antipolis
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
/* Common routines in interfaces */
#include "common.h"
#define ch_root "bin/ch..root"
int mypid;
int must_chroot=0;
char inputfname[256], outputfname[256];
char pidfname[256];
char parmbuf[parmlim+16];
char *inpf, *outpf, *errorf;
char *parm;
char *tmp_dir;
char cmdbuf[1024];
char inputbuf[inputlim];
char *inputptr, *inputend;
char stdinbuf[MAX_LINELEN+1];
char *cmdparm;
int isabout=0;
char *multiexec_random;
int multiexec=0, mxpid, notfirst;
int pipe_in[2], pipe_out[2];
int debug=0;
FILE *goin;
unsigned int seed; /* random seed value */
char aboutbuf[aboutlen];
/* this is only a default. It should usually be reset. */
char *tmpdir="/tmp";
char startstring[256], endstring[256];
char *obuf;
void check_parm(char *p);
void output(char *p);
void about(void);
char *dynsetup(char *p, char *end);
/* Find first occurrence of word */
char *wordchr2(char *p, char *w)
{
char *r;
if(*w==0) return NULL;
for(r=strstr(p,w);r!=NULL &&
( (r>p && !isspace(*(r-1))) || (!isspace(*(r+strlen(w))) && *(r+strlen(w))!=0) );
r=strstr(r+1,w));
return r;
}
/* find matching parenthesis */
char *find_matching2(char *p, char c)
{
char *pp;
int parenth, brak, brace;
parenth=brak=brace=0;
for(pp=p; *pp!=0; pp++) {
switch(*pp) {
case '[': brak++; break;
case ']': brak--; break;
case '(': parenth++; break;
case ')': parenth--; break;
case '{': brace++; break;
case '}': brace--; break;
default: continue;
}
if(parenth<0 || brak<0 || brace<0) {
if(*pp!=c || parenth>0 || brak>0 || brace>0) return NULL;
else break;
}
}
if(*pp!=c) return NULL;
return pp;
}
/* Read/write to a file with variable parms to print filename */
/* same in Misc/ccsum.c and wlogdaccessfile */
static
void accessfile(char *content, char *type, char *s,...)
{
va_list vp;
char buf[MAX_LINELEN+1];
FILE *f;
int l;
va_start(vp,s);
vsnprintf(buf,sizeof(buf),s,vp);
va_end(vp);
f=fopen(buf,type); if(f==NULL) {
if(*type=='r') content[0]=0;
return;
}
switch(*type) {
case 'a':
case 'w': {
l=strlen(content); fwrite(content,1,l,f); break;
}
case 'r': {
l=fread(content,1,MAX_LINELEN-1,f);
if(l>0 && l<MAX_LINELEN) content[l]=0;
else content[0]=0;
break;
}
default: {
content[0]=0; break;
}
}
fclose(f);
}
void getstdin(void)
{
char *p;
int i,j,k;
i=0; k=MAX_LINELEN; stdinbuf[0]=0;
do {
j=read(0,stdinbuf+i,k);
if(j<0 || j>k) exit(1);
i+=j; k-=j; stdinbuf[i]=0;
p=strstr(stdinbuf,multiexec_random);
if(p) {*p=0; break;}
}
while(k>0);
}
/* add a pid to the list of running childs */
void addpid(int pid)
{
char buf[MAX_LINELEN+1], pidbuf[32];
int l;
snprintf(pidbuf,sizeof(pidbuf),"%u",pid);
accessfile(buf,"r",pidfname); l=strlen(buf);
if(l>=MAX_LINELEN-64) return;
if(wordchr2(buf,pidbuf)==NULL) {
snprintf(buf+l,sizeof(buf)-l," %s",pidbuf);
accessfile(buf,"w",pidfname);
}
}
/* Remove a pidname to the list of running childs */
void rmpid(int pid)
{
char buf[MAX_LINELEN+1], pidbuf[32], *p;
snprintf(pidbuf,sizeof(pidbuf),"%u",pid);
accessfile(buf,"r",pidfname);
p=wordchr2(buf,pidbuf);
if(p!=NULL) {
ovlstrcpy(p,find_word_start(find_word_end(p)));
accessfile(buf,"w",pidfname);
}
}
int execredirected(char *cmdf, char *inf, char *outf, char *errf, char *args)
{
pid_t pid;
int i;
struct stat st;
char *cm, *p, *p2, abuf[MAX_LINELEN+1];
char *arg[1024];
for(cm=cmdf; isspace(*cm); cm++){};
if(*cmdf==0) return -1;
fflush(NULL);
/* flush all output streams before forking
* otherwise they will be doubled */
pid=fork(); if(pid==-1) return -1;
if(!pid) { /* child */
if(!inf) {
dup2(pipe_in[0],0); close(pipe_in[1]);
}
else if (freopen(inf,"r",stdin) == NULL)
fprintf(stderr,"freopen failed");
if(!outf) {
dup2(pipe_out[1],1); close(pipe_out[0]);
}
else if (freopen(outf,"w",stdout) == NULL)
fprintf(stderr,"freopen failed");
if(errf && freopen(errf,"w",stderr) == NULL)
fprintf(stderr,"freopen failed");
snprintf(abuf,sizeof(abuf),"%s",find_word_start(args));
if(stat("../chroot/tmp/sessions/.chroot",&st)==0 || must_chroot) {
arg[0]=ch_root; i=1;
}
else {
i=0;
setreuid(getuid(),getuid());setregid(getgid(),getgid());
}
arg[i++]=cmdf;
for(p=abuf; *p && i<1000; i++, p=find_word_start(p2))
if (*p=='\'')
{arg[i]=p2=++p; while(*p2 && *p2!='\'') p2++; if(*p2) *p2++=0;}
else
{ arg[i]=p; p2=find_word_end(p); if(*p2) *p2++=0; }
arg[i]=NULL;
if(strchr(arg[0],'/')) execv(arg[0],arg);
else execvp(arg[0],arg);
fprintf(stderr,"%s not_INStalled",progname);
exit(127);
}
else { /* parent */
addpid(pid); mxpid=pid;
if(outf) {
int status;
close(pipe_in[1]);
if(waitpid(pid,&status,0)==pid) {
rmpid(pid); mxpid=-1;
}
}
}
return 0;
}
/* verify illegal strings in parms. */
void find_illegal(char *p)
{
char *pp, *pe;
int i, l;
for(pp=p;*pp;pp++) {
if((*pp<' ' && *pp!='\n' && *pp!=' ') || *pp>=127) *pp=' ';
}
for(i=0;i<illpart_no;i++) {
pe=illpart[i]; l=strlen(pe);
for(pp=strstr(p,pe); pp; pp=strstr(pp+1,pe)) {
if(!isupper(pe[0]) || !islower(*(pp+l))) {
if(pp[1]!='j' && pp[1]!='J') pp[1]='J';
else pp[1]='Z';
}
}
}
for(i=0;i<illegal_no;i++) {
pe=illegal[i]; l=strlen(pe);
for(pp=strstr(p,pe); pp; pp=strstr(pp+1,pe)) {
if((pp==p || !isalnum(*(pp-1))) && !isalnum(*(pp+l))) {
if(pp[1]!='j' && pp[1]!='J') pp[1]='J';
else pp[1]='Z';
}
}
}
}
/* strip trailing zeros */
void strip_zeros(char *p)
{
char *pp, *p2, *numend, *ee;
int i;
for(pp=p;*pp!=0;pp++) {
if(!isdigit(*pp)) continue;
i=0;
for(numend=pp;isdigit(*numend) || *numend=='.';numend++)
if(*numend=='.') i=1;
if(i==0) {
pp=numend-1;continue;
}
for(p2=numend;p2>pp && *(p2-1)=='0';p2--);
for(ee=numend;isspace(*ee);ee++);
if(*(pp+1)=='.' && (*ee=='E' || *ee=='e')
&& *(ee+1)=='-') {
int k=0;
char *pt=ee+2;
while(isdigit(*pt)) {
k*=10;k+=*pt-'0';pt++;
}
if(precision>8 && (k>precision*2 || (k>precision && *pp=='0'))) {
sprintf(pp,"0.0%s",pt);
pp+=strlen("0.0")-1;
continue;
}
}
if(*(p2-1)=='.' && p2<numend) p2++;
if(p2<numend) {
ovlstrcpy(p2,numend);numend=p2;
}
pp=numend-1;
}
}
char *hname[]={"", "_1","_2","_3","_4","_5","_6","_7","_8"};
#define hnameno (sizeof(hname)/sizeof(hname[0]))
void putheader(void)
{
char hbuf[64];
char *p;
int i;
inputptr=dynsetup(inputptr,inputend);
snprintf(inputptr,inputend-inputptr,"%s",header);
inputptr+=strlen(inputptr);
for(i=0;i<hnameno;i++) {
snprintf(hbuf,sizeof(hbuf),"w_%s_header%s",progname,hname[i]);
p=getenv(hbuf); if(p!=NULL && *p!=0) {
snprintf(parmbuf,parmlim,"%s",p);
check_parm(parmbuf);
snprintf(inputptr,inputend-inputptr,"%s\n",parmbuf);
inputptr+=strlen(inputptr);
}
}
}
void putparm(void)
{
snprintf(parmbuf,parmlim,"%s",parm); check_parm(parmbuf);
snprintf(inputptr,inputend-inputptr,stringprinter,startstring);
inputptr+=strlen(inputptr);
snprintf(inputptr,inputend-inputptr,"%s",parmbuf);
inputptr+=strlen(inputptr);
if(inputptr<inputend && inputptr>inputbuf && inputptr[-1]!='\n')
*inputptr++='\n';
snprintf(inputptr,inputend-inputptr,stringprinter,endstring);
inputptr+=strlen(inputptr);
*inputptr=0;
}
/* general first preparation */
void prepare1(void)
{
char *p, buf[256];
int i;
unsigned int r[4];
struct timeval t;
parm=getenv("wims_exec_parm");
/* nothing to do if no calling parameter */
if(parm==NULL || *parm==0) exit(0);
inputptr=inputbuf; inputend=inputbuf+inputlim-1;
multiexec_random=getenv("multiexec_random");
if(multiexec_random==NULL) multiexec_random="";
if(*parm && strcmp(parm,multiexec_random)==0) {
multiexec=1;
getstdin(); parm=stdinbuf;
if(parm[0]==0) exit(0);
}
if(pipe(pipe_in)<0 || pipe(pipe_out)<0) {
fprintf(stderr,"%s: unable to create pipe.\n",progname);
exit(1);
}
/* i=fcntl(pipe_in[1],F_GETFL); if(i>=0) fcntl(pipe_in[1],F_SETFL,i|O_NONBLOCK);
i=fcntl(pipe_out[0],F_GETFL); if(i>=0) fcntl(pipe_out[0],F_SETFL,i|O_NONBLOCK);
*/ tmp_dir=getenv("tmp_dir"); if(tmp_dir==NULL || *tmp_dir==0) tmp_dir=tmpdir;
setenv("TMPDIR",tmp_dir,1);
mypid=getpid();
gettimeofday(&t,NULL); seed=t.tv_usec*t.tv_sec+mypid;
srandom(seed);
for(i=0;i<4;i++) r[i]=random();
snprintf(startstring,sizeof(startstring),
"Start line %s %u %u %u %u",progname,r[0],r[1],r[2],r[3]);
snprintf(endstring,sizeof(endstring),
"End line %s %u %u %u %u",progname,r[0],r[1],r[2],r[3]);
snprintf(buf,sizeof(buf),"%s_command",progname); p=getenv(buf);
if(p!=NULL && *find_word_start(p)!=0) nameofcmd=find_word_start(p);
snprintf(cmdbuf,sizeof(cmdbuf),"%s",nameofcmd); nameofcmd=cmdbuf;
cmdparm=find_word_end(nameofcmd); if(*cmdparm) *cmdparm++=0;
cmdparm=find_word_start(cmdparm);
snprintf(pidfname,sizeof(pidfname),"%s/exec.pid",tmp_dir); addpid(mypid);
snprintf(inputfname,sizeof(inputfname),"%s/%s_input.%d",tmp_dir,progname,mypid);
snprintf(outputfname,sizeof(outputfname),"%s/%s_output.%d",tmp_dir,progname,mypid);
errorf=NULL;
inpf=inputfname; outpf=outputfname;
isabout=0; p=find_word_start(parm); i=strlen("about");
if(memcmp(p,"about",i)==0 && *find_word_start(p+i)==0) isabout=1;
p=getenv("multiexec_debug"); if(p && strcmp(p,"yes")==0) debug=1;
}
void prepabout(char *cmd, char *outf, char *errf)
{
(void)write(pipe_in[1],cmd,strlen(cmd));
execredirected(nameofcmd,NULL,outf,errf,cmdparm);
}
/* read to aboutbuf. Returns content length. */
int readabout(void)
{
FILE *ff;
long int l;
char *p;
aboutbuf[0]=0; ff=fopen(outputfname,"r");
if(ff!=NULL) {
fseek(ff,0,SEEK_END); l=ftell(ff); fseek(ff,0,SEEK_SET);
l=fread(aboutbuf,1,aboutlen-10,ff); fclose(ff);
if(l>0 && l<aboutlen) aboutbuf[l]=0; else aboutbuf[0]=0;
p=find_word_start(aboutbuf); if(p>aboutbuf) ovlstrcpy(aboutbuf,p);
}
return strlen(aboutbuf);
}
/* read result of execution */
void readresult(void)
{
FILE *ff;
char *p, *pp, *pe;
if(debug) {
ff=fopen(outputfname,"a"); if(ff) {
fputs(obuf,ff); fclose(ff);
}
}
pe=NULL;
p=strstr(obuf,startstring);
if(p) {
p+=strlen(startstring);
pe=strstr(p,endstring);
if(pe) {
for(pp=pe-1; pp>=p && pp>pe-64 && *pp!='\n'; pp--);
if(pp>=p && *pp=='\n') pe=pp;
}
}
if(pe) {
*pe=0;
while((pe=strstr(p,startstring))!=NULL) {
p=pe+strlen(startstring);
}
output(p);
}
else {
if(mxpid>=0) {
if(kill(mxpid,0)<0 && errno==ESRCH) { /* this doesn't work */
fprintf(stderr,"%s not_INStalled",progname);
}
else {
fprintf(stderr,"%s: execution error or time out.\n",progname);
kill(mxpid,SIGKILL);
}
rmpid(mxpid); mxpid=-1;
}
else {
fprintf(stderr,"%s: aborted on earlier error.\n",progname);
}
}
if(multiexec && *multiexec_random) printf("%s\n",multiexec_random);
fflush(stdout);
}
#ifdef linebyline1
/* this one is for maxima but not used */
void dopipes(void)
{
long int i, l;
char *outptr;
char *p1, *p2, *pp, *pe;
struct timeval t;
fd_set rset;
if(mxpid<0) {
*obuf=0; return;
}
outptr=obuf; pp=pe=NULL;
for(p1=ibuf; *p1; p1=p2) {
p2=strchr(p1,'\n'); if(p2) p2++; else p2=p1+strlen(p1);
write(pipe_in[1],p1,p2-p1);
if(strstr(p1,startstring)!=NULL) iactive=1;
reread:
l=read(fifofd2,lp,MAX_LINELEN-(lp-lbuf));
if(!iactive) continue;
if(l<0 || l>MAX_LINELEN-(lp-lbuf)) l=0;
lp+=l; *lp=0;
if(active==0) {
char *pp;
pp=strstr(lbuf,startstring);
if(pp!=NULL) {
active=1; ovlstrcpy(lbuf,pp); lp=lbuf+strlen(lbuf);
}
}
if(active!=0 && strstr(lbuf,linebyline)!=NULL) {
fprintf(ff,"%s",lbuf); lp=lbuf;
if(strstr(lbuf,endstring)!=NULL) {lbuf[0]=0; active=-1; break;}
lbuf[0]=0; continue;
}
/* time out allowance between each silence */
t.tv_sec=3; t.tv_usec=400000;
i=select(fifofd2+1,&rset,NULL,NULL,&t);
if(i>0) goto reread;
else break; /* time out or error */
}
}
#else
void dopipes(void)
{
long int i, k, l;
int interval=20000; /* in microseconds */
int timeout =300; /* in intervals */
char *outptr;
char *p1, *p2, *inp, *pw;
struct timeval t;
fd_set rset, wset;
*obuf=0; if(mxpid<0) return;
outptr=obuf; inp=inputbuf; k=0;
while(inp<inputptr) {
t.tv_sec=0; t.tv_usec=interval;
FD_ZERO(&rset); FD_SET(pipe_out[0],&rset);
FD_ZERO(&wset); FD_SET(pipe_in[1],&wset);
i=pipe_out[0]; if(i<pipe_in[1]) i=pipe_in[1];
i=select(i+1,&rset,&wset,NULL,&t);
if(i<=0) {
k++; if(k>=timeout) return; /* time out */
}
if(FD_ISSET(pipe_in[1],&wset)) {
/* Writing must be line by line, for otherwise
* it will block when the input is large. */
for(pw=inp; pw<inputptr && *pw!='\n'; pw++);
if(pw<inputptr) pw++;
l=write(pipe_in[1],inp,pw-inp);
if(l<0 || l>inputptr-inp) return;
inp+=l;
}
if(FD_ISSET(pipe_out[0],&rset)) {
l=read(pipe_out[0],outptr,fsizelim-(outptr-obuf)-1);
if(l<=0 || l>fsizelim-(outptr-obuf)-1) {
*outptr=0; break;
}
outptr+=l; *outptr=0;
}
}
p2=NULL;
p1=strstr(obuf,startstring);
if(p1) {
p1+=strlen(startstring);
p2=strstr(p1,endstring);
}
while(!p2) {
t.tv_sec=0; t.tv_usec=interval;
FD_ZERO(&rset); FD_SET(pipe_out[0],&rset);
i=select(pipe_out[0]+1,&rset,NULL,NULL,&t);
if(i>0) {
l=read(pipe_out[0],outptr,fsizelim-(outptr-obuf)-1);
if(l<=0 || l>fsizelim-(outptr-obuf)-1) {
*outptr=0; break;
}
outptr+=l; *outptr=0;
}
else {
k++; if(k>=timeout) break;
}
if(!p1) {
p1=strstr(obuf,startstring);
if(p1) p1+=strlen(startstring);
}
if(p1) p2=strstr(p1,endstring);
}
}
#endif
void run(void)
{
FILE *ff;
if(isabout) {about(); goto end;}
execredirected(nameofcmd,NULL,NULL,NULL,cmdparm);
putheader();
obuf=xmalloc(fsizelim); if(!obuf) return;
rep:
putparm();
if(!multiexec) {
snprintf(inputptr,inputend-inputptr,"%s",quitstring);
inputptr+=strlen(inputptr);
}
if(debug) {
ff=fopen(inputfname,"a"); if(ff) {
fputs(inputbuf,ff); fclose(ff);
}
}
dopipes();
readresult();
if(multiexec) {
getstdin(); inputptr=inputbuf; inputbuf[0]=0;
goto rep;
}
end: if(strstr(tmp_dir,"tmp/sessions/")==NULL) {
unlink(inputfname); unlink(outputfname);
}
free(obuf); rmpid(mypid);
if(mxpid>0) {kill(mxpid,SIGKILL); rmpid(mxpid);}
}

Subversion Repositories wimsdev

(root)/trunk/wims/src/Interfaces/common.c – Rev 11539