ref: ed77f1550337e186ee740e42a1506fc61a5385c5
dir: /utils/mk/Nt.c/
#define INFERNO_KEEPENVIRON #include "mk.h" #include <signal.h> #include <sys/utime.h> #define Arc My_Arc /* avoid name conflicts */ #undef DELETE #include <windows.h> enum { Nchild = 100, }; char *rootdir = ROOT; char *shell = "Nt/386/bin/rcsh.exe"; /* Path relative to root */ typedef struct Child Child; struct Child { int pid; HANDLE handle; }; static Child child[Nchild]; extern char **environ; DWORD WINAPI writecmd(LPVOID a); void readenv(void) { char **p, *s; Word *w; for(p = environ; *p; p++){ s = shname(*p); if(*s == '=') { *s = 0; w = newword(s+1); } else w = newword(""); if (symlook(*p, S_INTERNAL, 0)) continue; s = strdup(*p); setvar(s, (void *)w); symlook(s, S_EXPORTED, (void *)"")->value = ""; } } char * exportenv(Envy *e) { int i, n; char *buf, *v; buf = 0; n = 0; for(i = 0; e->name; e++, i++) { /* word separator is shell-dependent */ if(e->values) v = wtos(e->values, IWS); else v = ""; buf = Realloc(buf, n+strlen(e->name)+1+strlen(v)+1); n += sprint(buf+n, "%s=%s", e->name, v); n++; /* skip over null */ if(e->values) free(v); } /* final null */ buf = Realloc(buf, n+1); buf[n] = 0; return buf; } int waitfor(char *msg) { int pid, n, i, r, code; HANDLE tab[Nchild]; for(i=0,n=0; i<Nchild; i++) if(child[i].handle != 0) tab[n++] = child[i].handle; if(n == 0) return -1; r = WaitForMultipleObjects(n, tab, 0, INFINITE); r -= WAIT_OBJECT_0; if(r<0 || r>=n) { perror("wait failed"); exits("wait failed"); } for(i=0; i<Nchild; i++) if(child[i].handle == tab[r]) break; if(i == Nchild){ snprint(msg, ERRMAX, "unknown child (%lux)", tab[r]); return -1; } if(msg) { *msg = 0; if(GetExitCodeProcess(child[i].handle, &code) == FALSE) snprint(msg, ERRMAX, "unknown exit code"); else if(code != 0) snprint(msg, ERRMAX, "exit(%d)", code); } CloseHandle(child[i].handle); child[i].handle = 0; pid = child[i].pid; child[i].pid = 0; return pid; } void expunge(int pid, char *msg) { /* if(strcmp(msg, "interrupt")) kill(pid, SIGINT); else kill(pid, SIGHUP); */ } HANDLE duphandle(HANDLE h) { HANDLE r; if(DuplicateHandle(GetCurrentProcess(), h, GetCurrentProcess(), &r, DUPLICATE_SAME_ACCESS, 1, DUPLICATE_SAME_ACCESS) == FALSE) { perror("dup handle"); Exit(); } return r; } void childadd(HANDLE h, int pid) { int i; for(i=0; i<Nchild; i++) { if(child[i].handle == 0) { child[i].handle = h; child[i].pid = pid; return; } } perror("child table full"); Exit(); } static DWORD WINAPI spinoff(HANDLE in, HANDLE out, char *args, char *cmd, Envy *e) { char args2[4096], path[MAX_PATH], *s, *eb; STARTUPINFO si; PROCESS_INFORMATION pi; Symtab *sym; /* set up the full path of the shell */ sym = symlook("MKSH", S_VAR, 0); if(sym){ strncpy(path, ((Word*)(sym->value))->s, sizeof(path)); path[MAX_PATH-1] = 0; }else{ sym = symlook("ROOT", S_VAR, 0); if(sym) rootdir = ((Word*)(sym->value))->s; snprint(path, sizeof(path), "%s\\%s", rootdir, shell); } /* convert to backslash notation */ for(s = strchr(path,'/'); s; s = strchr(s+1, '/')) *s = '\\'; s = args2; s += snprint(args2, sizeof(args2)-1, "%s", path); if(shflags) s += snprint(s, args2+sizeof(args2)-s-1, " %s", shflags); if(args) s += snprint(s, args2+sizeof(args2)-s-1, " %s", args); if(cmd) s += snprint(s, args2+sizeof(args2)-s-1, " \"%s\"", cmd); memset(&si, 0, sizeof(si)); si.cb = sizeof(si); si.dwFlags = STARTF_USESHOWWINDOW|STARTF_USESTDHANDLES; si.wShowWindow = SW_SHOW; if (e) eb = exportenv(e); else eb = 0; si.hStdInput = duphandle(in); si.hStdOutput = duphandle(out); si.hStdError = duphandle(GetStdHandle(STD_ERROR_HANDLE)); if(CreateProcess(path, args2, 0, 0, 1, 0, eb, 0, &si, &pi) == FALSE) { perror("can't find shell"); Exit(); } free(eb); CloseHandle(si.hStdInput); CloseHandle(si.hStdOutput); CloseHandle(si.hStdError); childadd(pi.hProcess, pi.dwProcessId); return pi.dwProcessId; } int execsh(char *args, char *cmd, Bufblock *buf, Envy *e) { int tot, n, tid, pid; HANDLE outin, outout, inout, inin; struct { char *cmd; HANDLE handle; } *arg; if(buf == 0) outout = GetStdHandle(STD_OUTPUT_HANDLE); else if(CreatePipe(&outin, &outout, 0, 0) == FALSE){ perror("pipe"); Exit(); } if(CreatePipe(&inin, &inout, 0, 0) == FALSE){ perror("pipe"); Exit(); } arg = malloc(sizeof(*arg)); arg->cmd = strdup(cmd); arg->handle = inout; if(CreateThread(0, 0, writecmd, arg, 0, &tid) == FALSE) { perror("spawn writecmd"); Exit(); } pid = spinoff(inin, outout, args, 0, e); CloseHandle(inin); if(DEBUG(D_EXEC)) fprint(1, "starting: %s\n", cmd); if(buf){ CloseHandle(outout); tot = 0; for(;;){ if (buf->current >= buf->end) growbuf(buf); if(ReadFile(outin, buf->current, buf->end-buf->current, &n, 0) == FALSE) break; buf->current += n; tot += n; } if (tot && buf->current[-1] == '\n') buf->current--; CloseHandle(outin); } return pid; } static DWORD WINAPI writecmd(LPVOID a) { struct {char *cmd; HANDLE handle;} *arg; char *cmd, *p; int n; arg = a; cmd = arg->cmd; p = cmd+strlen(cmd); while(cmd < p){ if(WriteFile(arg->handle, cmd, p-cmd, &n, 0) == FALSE) break; cmd += n; } free(arg->cmd); CloseHandle(arg->handle); free(arg); ExitThread(0); return 0; } int pipecmd(char *cmd, Envy *e, int *fd) { int pid; HANDLE pipein, pipeout; if(fd){ if(CreatePipe(&pipein, &pipeout, 0, 0) == FALSE){ perror("pipe"); Exit(); } } else pipeout = GetStdHandle(STD_OUTPUT_HANDLE); pid = spinoff(GetStdHandle(STD_INPUT_HANDLE), pipeout, "-c", cmd, e); if(fd){ CloseHandle(pipeout); *fd = _open_osfhandle((long)pipein, 0); } return pid; } void Exit(void) { while(waitfor(0) != -1) ; exits("error"); } void catchnotes() { } char* maketmp(void) { static char temp[] = "mkargsXXXXXXXXXXX"; mktemp(temp); return temp; } Dir* mkdirstat(char *name) { int c, n; Dir *buf; n = strlen(name)-1; c = name[n]; if(c == '/' || c == '\\') name[n] = 0; buf = dirstat(name); name[n] = c; return buf; } int chgtime(char *name) { Dir *sbuf; struct utimbuf u; if((sbuf = mkdirstat(name)) != nil){ u.actime = sbuf->atime; u.modtime = time(0); free(sbuf); return utime(name, &u); } return close(create(name, OWRITE, 0666)); } void rcopy(char **to, Resub *match, int n) { int c; char *p; *to = match->s.sp; /* stem0 matches complete target */ for(to++, match++; --n > 0; to++, match++){ if(match->s.sp && match->e.ep){ p = match->e.ep; c = *p; *p = 0; *to = strdup(match->s.sp); *p = c; } else *to = 0; } } ulong mkmtime(char *name) { Dir *buf; ulong t; int n; char *s; n = strlen(name)-1; if(n >= 0 && (name[n] == '/' || name[n] == '\\')){ s = strdup(name); s[n] = 0; }else s = name; buf = dirstat(s); if(buf == nil){ if(s != name) free(s); return 0; } t = buf->mtime; free(buf); if(s != name) free(s); return t; } char *stab; char * membername(char *s, int fd, char *sz) { long t; if(s[0] == '/' && s[1] == '\0'){ /* long file name string table */ t = atol(sz); if(t&01) t++; stab = malloc(t); read(fd, stab, t); return nil; } else if(s[0] == '/' && stab != nil) /* index into string table */ return stab+atol(s+1); else return s; }