/* sh - simple shell - great for early stages of porting */ #include "u.h" #include "libc.h" #define MAXLINE 200 /* maximum line length */ #define WORD 256 /* token code for words */ #define EOF -1 /* token code for end of file */ #define ispunct(c) (c=='|' || c=='&' || c==';' || c=='<' || \ c=='>' || c=='(' || c==')' || c=='\n') #define isspace(c) (c==' ' || c=='\t') #define execute(np) (ignored = (np? (*(np)->op)(np) : 0)) typedef struct Node Node; struct Node{ /* parse tree node */ int (*op)(Node *); /* operator function */ Node *args[2]; /* argument nodes */ char *argv[100]; /* argument pointers */ char *io[3]; /* i/o redirection */ }; Node nodes[25]; /* node pool */ Node *nfree; /* next available node */ char strspace[10*MAXLINE]; /* string storage */ char *sfree; /* next free character in strspace */ int t; /* current token code */ char *token; /* current token text (in strspace) */ int putback = 0; /* lookahead */ char status[256]; /* exit status of most recent command */ int cflag = 0; /* command is argument to sh */ int tflag = 0; /* read only one line */ int interactive = 0; /* prompt */ char *cflagp; /* command line for cflag */ char *path[] ={"/bin", 0}; int ignored; Node *alloc(int (*op)(Node *)); int builtin(Node *np); Node *command(void); int getch(void); int gettoken(void); Node *list(void); void error(char *s, char *t); Node *pipeline(void); void redirect(Node *np); int setio(Node *np); Node *simple(void); int xpipeline(Node *np); int xsimple(Node *np); int xsubshell(Node *np); int xnowait(Node *np); int xwait(Node *np); void main(int argc, char *argv[]) { Node *np; if(argc>1 && strcmp(argv[1], "-t")==0) tflag++; else if(argc>2 && strcmp(argv[1], "-c")==0){ cflag++; cflagp = argv[2]; }else if(argc>1){ close(0); if(open(argv[1], 0) != 0){ error(": can't open", argv[1]); exits("argument"); } }else interactive = 1; for(;;){ if(interactive) fprint(2, "%d$ ", getpid()); nfree = nodes; sfree = strspace; if((t=gettoken()) == EOF) break; if(t != '\n') if(np = list()) execute(np); else error("syntax error", ""); while(t!=EOF && t!='\n') /* flush syntax errors */ t = gettoken(); } exits(status); } /* alloc - allocate for op and return a node */ Node* alloc(int (*op)(Node *)) { if(nfree < nodes+sizeof(nodes)){ nfree->op = op; nfree->args[0] = nfree->args[1] = 0; nfree->argv[0] = nfree->argv[1] = 0; nfree->io[0] = nfree->io[1] = nfree->io[2] = 0; return nfree++; } error("node storage overflow", ""); exits("node storage overflow"); return nil; } /* builtin - check np for builtin command and, if found, execute it */ int builtin(Node *np) { int n = 0; char name[MAXLINE]; Waitmsg *wmsg; if(np->argv[1]) n = strtoul(np->argv[1], 0, 0); if(strcmp(np->argv[0], "cd") == 0){ if(chdir(np->argv[1]? np->argv[1] : "/") == -1) error(": bad directory", np->argv[0]); return 1; }else if(strcmp(np->argv[0], "exit") == 0) exits(np->argv[1]? np->argv[1] : status); else if(strcmp(np->argv[0], "bind") == 0){ if(np->argv[1]==0 || np->argv[2]==0) error("usage: bind new old", ""); else if(bind(np->argv[1], np->argv[2], 0)==-1) error("bind failed", ""); return 1; #ifdef asdf }else if(strcmp(np->argv[0], "unmount") == 0){ if(np->argv[1] == 0) error("usage: unmount [new] old", ""); else if(np->argv[2] == 0){ if(unmount((char *)0, np->argv[1]) == -1) error("unmount:", ""); }else if(unmount(np->argv[1], np->argv[2]) == -1) error("unmount", ""); return 1; #endif }else if(strcmp(np->argv[0], "wait") == 0){ while((wmsg = wait()) != nil){ strncpy(status, wmsg->msg, sizeof(status)-1); if(n && wmsg->pid==n){ n = 0; free(wmsg); break; } free(wmsg); } if(n) error("wait error", ""); return 1; }else if(strcmp(np->argv[0], "rfork") == 0){ char *p; int mask; p = np->argv[1]; if(p == 0 || *p == 0) p = "ens"; mask = 0; while(*p) switch(*p++){ case 'n': mask |= RFNAMEG; break; case 'N': mask |= RFCNAMEG; break; case 'e': mask |= RFENVG; break; case 'E': mask |= RFCENVG; break; case 's': mask |= RFNOTEG; break; case 'f': mask |= RFFDG; break; case 'F': mask |= RFCFDG; break; case 'm': mask |= RFNOMNT; break; default: error(np->argv[1], "bad rfork flag"); } rfork(mask); return 1; }else if(strcmp(np->argv[0], "exec") == 0){ redirect(np); if(np->argv[1] == (char *) 0) return 1; exec(np->argv[1], &np->argv[1]); n = np->argv[1][0]; if(n!='/' && n!='#' && (n!='.' || np->argv[1][1]!='/')) for(n = 0; path[n]; n++){ sprint(name, "%s/%s", path[n], np->argv[1]); exec(name, &np->argv[1]); } error(": not found", np->argv[1]); return 1; } return 0; } /* command - ( list ) [ ( < | > | >> ) word ]* | simple */ Node* command(void) { Node *np; if(t != '(') return simple(); np = alloc(xsubshell); t = gettoken(); if((np->args[0]=list())==0 || t!=')') return 0; while((t=gettoken())=='<' || t=='>') if(!setio(np)) return 0; return np; } /* getch - get next, possibly pushed back, input character */ int getch(void) { unsigned char c; static done=0; if(putback){ c = putback; putback = 0; }else if(tflag){ if(done || read(0, &c, 1)!=1){ done = 1; return EOF; } if(c == '\n') done = 1; }else if(cflag){ if(done) return EOF; if((c=*cflagp++) == 0){ done = 1; c = '\n'; } }else if(read(0, &c, 1) != 1) return EOF; return c; } /* gettoken - get next token into string space, return token code */ int gettoken(void) { int c; while((c = getch()) != EOF) if(!isspace(c)) break; if(c==EOF || ispunct(c)) return c; token = sfree; do{ if(sfree >= strspace+sizeof(strspace) - 1){ error("string storage overflow", ""); exits("string storage overflow"); } *sfree++ = c; }while((c=getch()) != EOF && !ispunct(c) && !isspace(c)); *sfree++ = 0; putback = c; return WORD; } /* list - pipeline ( ( ; | & ) pipeline )* [ ; | & ] (not LL(1), but ok) */ Node* list(void) { Node *np, *np1; np = alloc(0); if((np->args[1]=pipeline()) == 0) return 0; while(t==';' || t=='&'){ np->op = (t==';')? xwait : xnowait; t = gettoken(); if(t==')' || t=='\n') /* tests ~first(pipeline) */ break; np1 = alloc(0); np1->args[0] = np; if((np1->args[1]=pipeline()) == 0) return 0; np = np1; } if(np->op == 0) np->op = xwait; return np; } /* error - print error message s, prefixed by t */ void error(char *s, char *t) { char buf[256]; fprint(2, "%s%s", t, s); errstr(buf, sizeof buf); fprint(2, ": %s\n", buf); } /* pipeline - command ( | command )* */ Node* pipeline(void) { Node *np, *np1; if((np=command()) == 0) return 0; while(t == '|'){ np1 = alloc(xpipeline); np1->args[0] = np; t = gettoken(); if((np1->args[1]=command()) == 0) return 0; np = np1; } return np; } /* redirect - redirect i/o according to np->io[] values */ void redirect(Node *np) { int fd; if(np->io[0]){ if((fd = open(np->io[0], 0)) < 0){ error(": can't open", np->io[0]); exits("open"); } dup(fd, 0); close(fd); } if(np->io[1]){ if((fd = create(np->io[1], 1, 0666L)) < 0){ error(": can't create", np->io[1]); exits("create"); } dup(fd, 1); close(fd); } if(np->io[2]){ if((fd = open(np->io[2], 1)) < 0 && (fd = create(np->io[2], 1, 0666L)) < 0){ error(": can't write", np->io[2]); exits("write"); } dup(fd, 1); close(fd); seek(1, 0, 2); } } /* setio - ( < | > | >> ) word; fill in np->io[] */ int setio(Node *np) { if(t == '<'){ t = gettoken(); np->io[0] = token; }else if(t == '>'){ t = gettoken(); if(t == '>'){ t = gettoken(); np->io[2] = token; }else np->io[1] = token; }else return 0; if(t != WORD) return 0; return 1; } /* simple - word ( [ < | > | >> ] word )* */ Node* simple(void) { Node *np; int n = 1; if(t != WORD) return 0; np = alloc(xsimple); np->argv[0] = token; while((t = gettoken())==WORD || t=='<' || t=='>') if(t == WORD) np->argv[n++] = token; else if(!setio(np)) return 0; np->argv[n] = 0; return np; } /* xpipeline - execute cmd | cmd */ int xpipeline(Node *np) { int pid, fd[2]; if(pipe(fd) < 0){ error("can't create pipe", ""); return 0; } if((pid=fork()) == 0){ /* left side; redirect stdout */ dup(fd[1], 1); close(fd[0]); close(fd[1]); execute(np->args[0]); exits(status); }else if(pid == -1){ error("can't create process", ""); return 0; } if((pid=fork()) == 0){ /* right side; redirect stdin */ dup(fd[0], 0); close(fd[0]); close(fd[1]); pid = execute(np->args[1]); /*BUG: this is wrong sometimes*/ if(pid > 0) while(waitpid()!=pid) ; exits(0); }else if(pid == -1){ error("can't create process", ""); return 0; } close(fd[0]); /* avoid using up fd's */ close(fd[1]); return pid; } /* xsimple - execute a simple command */ int xsimple(Node *np) { char name[MAXLINE]; int pid, i; if(builtin(np)) return 0; if(pid = fork()){ if(pid == -1) error(": can't create process", np->argv[0]); return pid; } redirect(np); /* child process */ exec(np->argv[0], &np->argv[0]); i = np->argv[0][0]; if(i!='/' && i!='#' && (i!='.' || np->argv[0][1]!='/')) for(i = 0; path[i]; i++){ sprint(name, "%s/%s", path[i], np->argv[0]); exec(name, &np->argv[0]); } error(": not found", np->argv[0]); exits("not found"); return -1; // suppress compiler warnings } /* xsubshell - execute (cmd) */ int xsubshell(Node *np) { int pid; if(pid = fork()){ if(pid == -1) error("can't create process", ""); return pid; } redirect(np); /* child process */ execute(np->args[0]); exits(status); return -1; // suppress compiler warnings } /* xnowait - execute cmd & */ int xnowait(Node *np) { int pid; execute(np->args[0]); pid = execute(np->args[1]); if(interactive) fprint(2, "%d\n", pid); return 0; } /* xwait - execute cmd ; */ int xwait(Node *np) { int pid; Waitmsg *wmsg; execute(np->args[0]); pid = execute(np->args[1]); if(pid > 0){ while((wmsg = wait()) != nil){ if(wmsg->pid == pid) break; free(wmsg); } if(wmsg == nil) error("wait error", ""); else { strncpy(status, wmsg->msg, sizeof(status)-1); free(wmsg); } } return 0; }