ref: 79c64a79a248c31733d4ec0ff9fe1a1e57a58f51
dir: /utils/rcsh/simple.c/
#include "rc.h" typedef struct Builtin Builtin; struct Builtin { char *name; void (*fnc)(void); }; int exitnext(void); void execexec(void); void execfunc(Var *func); void execcd(void); void execwhatis(void); void execeval(void); void execexit(void); void execshift(void); void execwait(void); void execdot(void); void execflag(void); Builtin builtin[]={ "cd", execcd, "whatis", execwhatis, "eval", execeval, "exec", execexec, /* but with popword first */ "exit", execexit, "shift", execshift, "wait", execwait, ".", execdot, "flag", execflag, 0 }; int mapfd(int fd); void Xsimple(void) { Word *a; Thread *p=runq; Var *v; Builtin *bp; uint pid; char **argv; globlist(); a=runq->argv->words; if(a==0){ Xerror("empty argument list"); return; } if(flag['x']) pfmt(err, "%v\n", p->argv->words); /* wrong, should do redirs */ v=gvlook(a->word); if(v->fn) execfunc(v); else{ if(strcmp(a->word, "builtin")==0){ if(count(a)==1){ pfmt(err, "builtin: empty argument list\n"); setstatus("empty arg list"); poplist(); return; } a=a->next; popword(); } for(bp=builtin;bp->name;bp++) { if(strcmp(a->word, bp->name)==0){ (*bp->fnc)(); return; } } updenv(); argv = procargv(0, 0, 0, 0, runq->argv->words); pid = proc(argv, mapfd(0), mapfd(1), mapfd(2)); free(argv); if(pid == 0) pfmt(err, "%s: %r\n", runq->argv->words->word); else waitfor(pid); poplist(); #ifdef XXX if(exitnext()){ /* fork and wait is redundant */ pushword("exec"); execexec(); Xexit(); } else{ flush(err); updenv(); switch(pid=fork()){ case -1: Xperror("try again"); return; case 0: pushword("exec"); execexec(); Exit("can't exec"); default: poplist(); /* interrupts don't get us out */ while(Waitfor(pid, 1) < 0) ; } } #endif } } Word nullpath={ "", 0}; Word * searchpath(char *w) { Word *path; return &nullpath; if(strncmp(w, "/", 1) == 0 || strncmp(w, "#", 1) == 0 || *w && w[1] == ':' || strncmp(w, "./", 2) == 0 || strncmp(w, "../", 3) == 0 || (path=vlook("path")->val) == 0) path=&nullpath; return path; } /* * Search through the following code to see if we're just going to exit. */ int exitnext(void) { Code *c=&runq->code[runq->pc]; while(c->f==Xpopredir) c++; return c->f==Xexit; } #ifdef XXX void doredir(Redir *rp) { if(rp){ doredir(rp->next); switch(rp->type){ case ROPEN: if(rp->from!=rp->to){ Dup(rp->from, rp->to); close(rp->from); } break; case RDUP: Dup(rp->from, rp->to); break; case RCLOSE: close(rp->from); break; } } } #endif void execexec(void) { popword(); /* "exec" */ if(runq->argv->words==0){ Xerror("empty argument list"); return; } fatal("execexec not done yet"); /* doredir(runq->redir); Execute(runq->argv->words, searchpath(runq->argv->words->word)); */ poplist(); } void execfunc(Var *func) { Word *starval; popword(); starval=runq->argv->words; runq->argv->words=0; poplist(); start(func->fn, func->pc, runq->local); runq->local=newvar(strdup("*"), runq->local); runq->local->val=starval; runq->local->changed=1; } void execcd(void) { Word *a=runq->argv->words; Word *cdpath; char dir[512]; setstatus("can't cd"); cdpath=vlook("cdpath")->val; switch(count(a)){ default: pfmt(err, "Usage: cd [directory]\n"); break; case 2: if(a->next->word[0]=='/' || cdpath==0) cdpath=&nullpath; for(;cdpath;cdpath=cdpath->next){ strcpy(dir, cdpath->word); if(dir[0]) strcat(dir, "/"); strcat(dir, a->next->word); if(chdir(dir)>=0){ if(strlen(cdpath->word) && strcmp(cdpath->word, ".")!=0) pfmt(err, "%s\n", dir); setstatus(""); break; } } if(cdpath==0) pfmt(err, "Can't cd %s\n", a->next->word); break; case 1: a=vlook("home")->val; if(count(a)>=1){ if(chdir(a->word)>=0) setstatus(""); else pfmt(err, "Can't cd %s\n", a->word); } else pfmt(err, "Can't cd -- $home empty\n"); break; } poplist(); } void execexit(void) { switch(count(runq->argv->words)){ default: pfmt(err, "Usage: exit [status]\nExiting anyway\n"); case 2: setstatus(runq->argv->words->next->word); case 1: Xexit(); } } void execflag(void) { char *letter, *val; switch(count(runq->argv->words)){ case 2: setstatus(flag[runq->argv->words->next->word[0]]?"":"flag not set"); break; case 3: letter=runq->argv->words->next->word; val=runq->argv->words->next->next->word; if(strlen(letter)==1){ if(strcmp(val, "+")==0){ flag[letter[0]]=1; break; } if(strcmp(val, "-")==0){ flag[letter[0]]=0; break; } } default: Xerror("Usage: flag [letter] [+-]"); return; } poplist(); } void execshift(void) { int n; Word *a; Var *star; switch(count(runq->argv->words)){ default: pfmt(err, "Usage: shift [n]\n"); setstatus("shift usage"); poplist(); return; case 2: n=atoi(runq->argv->words->next->word); break; case 1: n=1; break; } star=vlook("*"); for(;n && star->val;--n){ a=star->val->next; free(star->val->word); free(star->val); star->val=a; star->changed=1; } setstatus(""); poplist(); } int octal(char *s) { int n=0; while(*s==' ' || *s=='\t' || *s=='\n') s++; while('0'<=*s && *s<='7') n=n*8+*s++-'0'; return n; } void execeval(void) { char *cmdline, *s, *t; int len=0; Word *ap; if(count(runq->argv->words)<=1){ Xerror("Usage: eval cmd ..."); return; } eflagok=1; for(ap=runq->argv->words->next;ap;ap=ap->next) len+=1+strlen(ap->word); cmdline=malloc(len); s=cmdline; for(ap=runq->argv->words->next;ap;ap=ap->next){ for(t=ap->word;*t;) *s++=*t++; *s++=' '; } s[-1]='\n'; poplist(); execcmds(opencore(cmdline, len)); free(cmdline); } void execdot(void) { int iflag=0; int fd; List *av; Thread *p=runq; char *zero; char file[512]; Word *path; static int first=1; static Code dotcmds[14]; if(first) { dotcmds[0].i=1; dotcmds[1].f=Xmark; dotcmds[2].f=Xword; dotcmds[3].s="0"; dotcmds[4].f=Xlocal; dotcmds[5].f=Xmark; dotcmds[6].f=Xword; dotcmds[7].s="*"; dotcmds[8].f=Xlocal; dotcmds[9].f=Xrdcmds; dotcmds[10].f=Xunlocal; dotcmds[11].f=Xunlocal; dotcmds[12].f=Xreturn; first=0; } else eflagok=1; popword(); if(p->argv->words && strcmp(p->argv->words->word, "-i")==0){ iflag=1; popword(); } /* get input file */ if(p->argv->words==0){ Xerror("Usage: . [-i] file [arg ...]"); return; } zero=strdup(p->argv->words->word); popword(); strcpy(file, "**No file name**"); fd = -1; if(strcmp(zero, "stdin$") == 0) fd = dup(0); else{ for(path=searchpath(zero);path;path=path->next){ strcpy(file, path->word); if(file[0]) strcat(file, "/"); strcat(file, zero); if((fd=open(file, 0))>=0) break; } } if(fd<0){ Xperror(file); return; } /* set up for a new command loop */ start(dotcmds, 1, 0); pushredir(RCLOSE, fd, 0); runq->cmdfile=zero; runq->cmdfd=openfd(fd); runq->iflag=iflag; runq->iflast=0; /* push $* value */ pushlist(); runq->argv->words=p->argv->words; /* free caller's copy of $* */ av=p->argv; p->argv=av->next; free(av); /* push $0 value */ pushlist(); pushword(zero); ndot++; } void execwhatis(void) { /* mildly wrong -- should fork before writing */ Word *a, *b, *path; Var *v; Builtin *bp; char file[512]; Io out[1]; int found, sep; a=runq->argv->words->next; if(a==0){ Xerror("Usage: whatis name ..."); return; } setstatus(""); out->fd=mapfd(1); out->bufp=out->buf; out->ebuf=&out->buf[NBUF]; out->strp=0; for(;a;a=a->next){ v=vlook(a->word); if(v->val){ pfmt(out, "%s=", a->word); if(v->val->next==0) pfmt(out, "%q\n", v->val->word); else{ sep='('; for(b=v->val;b && b->word;b=b->next){ pfmt(out, "%c%q", sep, b->word); sep=' '; } pfmt(out, ")\n"); } found=1; } else found=0; v=gvlook(a->word); if(v->fn) pfmt(out, "fn %s %s\n", v->name, v->fn[v->pc-1].s); else{ for(bp=builtin;bp->name;bp++) if(strcmp(a->word, bp->name)==0){ pfmt(out, "builtin %s\n", a->word); break; } if(!bp->name){ for(path=searchpath(a->word);path;path=path->next){ strcpy(file, path->word); if(file[0]) strcat(file, "/"); strcat(file, a->word); #ifdef XXX if(Executable(file)){ pfmt(out, "%s\n", file); break; } #endif } if(!path && !found){ pfmt(err, "%s: not found\n", a->word); setstatus("not found"); } } } } poplist(); flush(err); } void execwait(void) { fprint(2, "wait: not done yet"); #ifdef XXX switch(count(runq->argv->words)){ default: Xerror("Usage: wait [pid]"); return; case 2: Waitfor(atoi(runq->argv->words->next->word), 0); break; case 1: Waitfor(-1, 0); break; } poplist(); #endif } int mapfd(int fd) { Redir *rp; for(rp=runq->redir;rp;rp=rp->next){ switch(rp->type){ case RCLOSE: if(rp->from==fd) fd=-1; break; case RDUP: case ROPEN: if(rp->to==fd) fd=rp->from; break; } } return fd; }