#include #include #include #include char* readenv(char*); void setenv(char*, char*); void cpenv(char*, char*); void closefds(void); void fexec(void(*)(void)); void rcexec(void); void cpustart(void); void pass(int); char *service; char *cmd; char *cpu; char *systemname; int manual; int iscpu; void main(int argc, char *argv[]) { char *user; int fd; char ctl[128]; closefds(); alarm(0); service = "cpu"; manual = 0; ARGBEGIN{ case 'c': service = "cpu"; break; case 'm': manual = 1; break; case 't': service = "terminal"; break; }ARGEND cmd = *argv; snprint(ctl, sizeof(ctl), "#p/%d/ctl", getpid()); fd = open(ctl, OWRITE); if(fd < 0) print("init: warning: can't open %s: %r\n", ctl); else if(write(fd, "pri 10", 6) != 6) print("init: warning: can't set priority: %r\n"); close(fd); cpu = readenv("#e/cputype"); setenv("#e/objtype", cpu); setenv("#e/service", service); cpenv("/adm/timezone/local", "#e/timezone"); user = readenv("#c/user"); systemname = readenv("#c/sysname"); newns(user, 0); iscpu = strcmp(service, "cpu")==0; if(iscpu && manual == 0) fexec(cpustart); for(;;){ print("\ninit: starting /bin/rc\n"); fexec(rcexec); manual = 1; cmd = 0; sleep(1000); } } void pass(int fd) { char key[DESKEYLEN]; char typed[32]; char crypted[DESKEYLEN]; int i; for(;;){ print("\n%s password:", systemname); for(i=0; ipid != pid){ free(w); goto casedefault; } if(strstr(w->msg, "exec error") != 0){ print("init: exit string %s\n", w->msg); print("init: sleeping because exec failed\n"); free(w); for(;;) sleep(1000); } if(w->msg[0]) print("init: rc exit status: %s\n", w->msg); free(w); break; } } void rcexec(void) { if(cmd) execl("/bin/rc", "rc", "-c", cmd, nil); else if(manual || iscpu) execl("/bin/rc", "rc", nil); else if(strcmp(service, "terminal") == 0) execl("/bin/rc", "rc", "-c", ". /rc/bin/termrc; home=/usr/$user; cd; . lib/profile", nil); else execl("/bin/rc", "rc", nil); } void cpustart(void) { execl("/bin/rc", "rc", "-c", "/rc/bin/cpurc", nil); } char* readenv(char *name) { int f, len; Dir *d; char *val; f = open(name, OREAD); if(f < 0){ print("init: can't open %s: %r\n", name); return "*unknown*"; } d = dirfstat(f); if(d == nil){ print("init: can't stat %s: %r\n", name); return "*unknown*"; } len = d->length; free(d); if(len == 0) /* device files can be zero length but have contents */ len = 64; val = malloc(len+1); if(val == nil){ print("init: can't malloc %s: %r\n", name); return "*unknown*"; } len = read(f, val, len); close(f); if(len < 0){ print("init: can't read %s: %r\n", name); return "*unknown*"; }else val[len] = '\0'; return val; } void setenv(char *var, char *val) { int fd; fd = create(var, OWRITE, 0644); if(fd < 0) print("init: can't open %s\n", var); else{ fprint(fd, val); close(fd); } } void cpenv(char *file, char *var) { int i, fd; char buf[8192]; fd = open(file, OREAD); if(fd < 0) print("init: can't open %s\n", file); else{ i = read(fd, buf, sizeof(buf)-1); if(i <= 0) print("init: can't read %s: %r\n", file); else{ close(fd); buf[i] = 0; setenv(var, buf); } } } /* * clean up after /boot */ void closefds(void) { int i; for(i = 3; i < 30; i++) close(i); }