ref: c3867623ae93eca77ba6e4f3d851240442f02caf
dir: /sys/src/cmd/rc/win32.c/
/* * Plan 9 versions of system-specific functions * By convention, exported routines herein have names beginning with an * upper case letter. */ #include "rc.h" #include "exec.h" #include "io.h" #include "fns.h" #include "getflags.h" char *Signame[] = { "sigexit", "sighup", "sigint", "sigquit", "sigalrm", "sigkill", "sigfpe", "sigterm", 0 }; char *syssigname[] = { "exit", /* can't happen */ "hangup", "interrupt", "quit", /* can't happen */ "alarm", "kill", "sys: fp: ", "term", 0 }; char Rcmain[]="/rc/lib/rcmain"; char Fdprefix[]="/fd/"; void execfinit(void); void execbind(void); builtin Builtin[] = { "cd", execcd, "whatis", execwhatis, "eval", execeval, "exec", execexec, /* but with popword first */ "exit", execexit, "shift", execshift, "wait", execwait, ".", execdot, "finit", execfinit, "flag", execflag, 0 }; void Vinit(void) { int dir, f, len; word *val; char *buf, *s; Dir *ent; int i, nent; char envname[256]; dir = open("/env", OREAD); if(dir<0){ pfmt(err, "rc: can't open /env: %r\n"); return; } ent = nil; for(;;){ nent = dirread(dir, &ent); if(nent <= 0) break; for(i = 0; i<nent; i++){ len = ent[i].length; if(len && strncmp(ent[i].name, "fn#", 3)!=0){ snprint(envname, sizeof envname, "/env/%s", ent[i].name); if((f = open(envname, 0))>=0){ buf = emalloc((int)len+1); read(f, buf, (long)len); val = 0; /* Charitably add a 0 at the end if need be */ if(buf[len-1]) buf[len++]='\0'; s = buf+len-1; for(;;){ while(s!=buf && s[-1]!='\0') --s; val = newword(s, val); if(s==buf) break; --s; } setvar(ent[i].name, val); vlook(ent[i].name)->changed = 0; close(f); efree(buf); } } } free(ent); } close(dir); } int envdir; void Xrdfn(void) { int f, len; static Dir *ent, *allocent; static int nent; Dir *e; char envname[256]; for(;;){ if(nent == 0){ free(allocent); nent = dirread(envdir, &allocent); ent = allocent; } if(nent <= 0) break; while(nent){ e = ent++; nent--; len = e->length; if(len && strncmp(e->name, "fn#", 3)==0){ snprint(envname, sizeof envname, "/env/%s", e->name); if((f = open(envname, 0))>=0){ execcmds(openfd(f)); return; } } } } close(envdir); Xreturn(); } union code rdfns[4]; void execfinit(void) { static int first = 1; if(first){ rdfns[0].i = 1; rdfns[1].f = Xrdfn; rdfns[2].f = Xjump; rdfns[3].i = 1; first = 0; } Xpopm(); envdir = open("/env", 0); if(envdir<0){ pfmt(err, "rc: can't open /env: %r\n"); return; } start(rdfns, 1, runq->local); } int Waitfor(int pid, int persist) { thread *p; Waitmsg *w; char errbuf[ERRMAX]; while((w = wait()) != nil){ if(w->pid==pid){ setstatus(w->msg); free(w); return 0; } for(p = runq->ret;p;p = p->ret) if(p->pid==w->pid){ p->pid=-1; strcpy(p->status, w->msg); } free(w); } errstr(errbuf, sizeof errbuf); if(strcmp(errbuf, "interrupted")==0) return -1; return 0; } char* *mkargv(word *a) { char **argv = (char **)emalloc((count(a)+2)*sizeof(char *)); char **argp = argv+1; /* leave one at front for runcoms */ for(;a;a = a->next) *argp++=a->word; *argp = 0; return argv; } void addenv(var *v) { char envname[256]; word *w; int f; io *fd; if(v->changed){ v->changed = 0; snprint(envname, sizeof envname, "/env/%s", v->name); if((f = Creat(envname))<0) pfmt(err, "rc: can't open %s: %r\n", envname); else{ for(w = v->val;w;w = w->next) write(f, w->word, strlen(w->word)+1L); close(f); } } if(v->fnchanged){ v->fnchanged = 0; snprint(envname, sizeof envname, "/env/fn#%s", v->name); if((f = Creat(envname))<0) pfmt(err, "rc: can't open %s: %r\n", envname); else{ if(v->fn){ fd = openfd(f); pfmt(fd, "fn %q %s\n", v->name, v->fn[v->pc-1].s); closeio(fd); } close(f); } } } void updenvlocal(var *v) { if(v){ updenvlocal(v->next); addenv(v); } } void Updenv(void) { var *v, **h; for(h = gvar;h!=&gvar[NVAR];h++) for(v=*h;v;v = v->next) addenv(v); if(runq) updenvlocal(runq->local); } int ForkExecute(char *file, char **argv, int sin, int sout, int serr) { int pid; {int i; fprint(2, "forkexec %s", file); for(i = 0; argv[i]; i++)fprint(2, " %s", argv[i]); fprint(2, " %d %d %d\n", sin, sout, serr); } if(access(file, 1) != 0) return -1; fprint(2, "forking\n"); switch(pid = fork()){ case -1: return -1; case 0: if(sin >= 0) dup(sin, 0); else close(0); if(sout >= 0) dup(sout, 1); else close(1); if(serr >= 0) dup(serr, 2); else close(2); fprint(2, "execing\n"); exec(file, argv); fprint(2, "exec: %r\n"); exits(file); } return pid; } void Execute(word *args, word *path) { char **argv = mkargv(args); char file[1024]; int nc; Updenv(); for(;path;path = path->next){ nc = strlen(path->word); if(nc<1024){ strcpy(file, path->word); if(file[0]){ strcat(file, "/"); nc++; } if(nc+strlen(argv[1])<1024){ strcat(file, argv[1]); exec(file, argv+1); } else werrstr("command name too long"); } } rerrstr(file, sizeof file); pfmt(err, "%s: %s\n", argv[1], file); efree((char *)argv); } #define NDIR 256 /* shoud be a better way */ int Globsize(char *p) { int isglob = 0, globlen = NDIR+1; for(;*p;p++){ if(*p==GLOB){ p++; if(*p!=GLOB) isglob++; globlen+=*p=='*'?NDIR:1; } else globlen++; } return isglob?globlen:0; } #define NFD 50 #define NDBUF 32 struct{ Dir *dbuf; int i; int n; }dir[NFD]; int Opendir(char *name) { Dir *db; int f; f = open(name, 0); if(f==-1) return f; db = dirfstat(f); if(db!=nil && (db->mode&DMDIR)){ if(f<NFD){ dir[f].i = 0; dir[f].n = 0; } free(db); return f; } free(db); close(f); return -1; } static int trimdirs(Dir *d, int nd) { int r, w; for(r=w=0; r<nd; r++) if(d[r].mode&DMDIR) d[w++] = d[r]; return w; } /* * onlydirs is advisory -- it means you only * need to return the directories. it's okay to * return files too (e.g., on unix where you can't * tell during the readdir), but that just makes * the globber work harder. */ int Readdir(int f, void *p, int onlydirs) { int n; if(f<0 || f>=NFD) return 0; Again: if(dir[f].i==dir[f].n){ /* read */ free(dir[f].dbuf); dir[f].dbuf = 0; n = dirread(f, &dir[f].dbuf); if(n>0){ if(onlydirs){ n = trimdirs(dir[f].dbuf, n); if(n == 0) goto Again; } dir[f].n = n; }else dir[f].n = 0; dir[f].i = 0; } if(dir[f].i == dir[f].n) return 0; strcpy(p, dir[f].dbuf[dir[f].i].name); dir[f].i++; return 1; } void Closedir(int f) { if(f>=0 && f<NFD){ free(dir[f].dbuf); dir[f].i = 0; dir[f].n = 0; dir[f].dbuf = 0; } close(f); } int interrupted = 0; void notifyf(void*, char *s) { int i; for(i = 0;syssigname[i];i++) if(strncmp(s, syssigname[i], strlen(syssigname[i]))==0){ if(strncmp(s, "sys: ", 5)!=0) interrupted = 1; goto Out; } pfmt(err, "rc: note: %s\n", s); noted(NDFLT); return; Out: if(strcmp(s, "interrupt")!=0 || trap[i]==0){ trap[i]++; ntrap++; } if(ntrap>=32){ /* rc is probably in a trap loop */ pfmt(err, "rc: Too many traps (trap %s), aborting\n", s); abort(); } noted(NCONT); } void Trapinit(void) { notify(notifyf); } void Unlink(char *name) { remove(name); } long Write(int fd, void *buf, long cnt) { return write(fd, buf, (long)cnt); } long Read(int fd, void *buf, long cnt) { return read(fd, buf, cnt); } long Seek(int fd, long cnt, long whence) { return seek(fd, cnt, whence); } int Executable(char *file) { Dir *statbuf; int ret; statbuf = dirstat(file); if(statbuf == nil) return 0; ret = ((statbuf->mode&0111)!=0 && (statbuf->mode&DMDIR)==0); free(statbuf); return ret; } int Creat(char *file) { return create(file, 1, 0666L); } int Dup(int a, int b) { return dup(a, b); } int Dup1(int) { return -1; } void Exit(char *stat) { Updenv(); setstatus(stat); exits(truestatus()?"":getstatus()); } int Eintr(void) { return interrupted; } void Noerror(void) { interrupted = 0; } int Isatty(int fd) { Dir *d1, *d2; int ret; d1 = dirfstat(fd); if(d1 == nil) return 0; if(strncmp(d1->name, "ptty", 4)==0){ /* fwd complaints to philw */ free(d1); return 1; } d2 = dirstat("/dev/cons"); if(d2 == nil){ free(d1); return 0; } ret = (d1->type==d2->type&&d1->dev==d2->dev&&d1->qid.path==d2->qid.path); free(d1); free(d2); return ret; } void Abort(void) { pfmt(err, "aborting\n"); flush(err); Exit("aborting"); } void Memcpy(void *a, void *b, long n) { memmove(a, b, n); } void* Malloc(ulong n) { return malloc(n); } void* Realloc(void *p, ulong n) { return realloc(p, n); }