ref: ebc87ef165d107747d2f7267e8ed12e55f782bff
dir: /main.c/
#include <u.h> #include <libc.h> #include <auth.h> #include <fcall.h> #include <thread.h> #include <9p.h> #include "fs.h" struct File9 { Ref; int id; // index in array; qid.path char *name; // of file }; // All active files in the fs File9 *files[Nfiles]; // Commands log ;; 4 entries, 1024 wide char clog[Ncmd][Cmdwidth]; // Prototypes for 9p handler functions static void fsattach(Req *r); static int getdirent(int n, Dir *d, void *); static void fsread(Req *r); static void fswrite(Req *r); static char* fswalk1(Fid * fid, char *name, Qid *qid); static char* fsclone(Fid *fid, Fid *newfid); static void fsstat(Req *r); // Srv structure to handle incoming 9p communications static Srv srvfs = { .attach = fsattach, .read = fsread, .write = fswrite, .walk1 = fswalk1, .clone = fsclone, .stat = fsstat, }; // Usage output void usage(void) { fprint(2, "usage: %s [-D] [-s srv] [-m mnt]\n", argv0); threadexitsall("usage"); } // Push a message into the log char* handlecmd(char* str) { int maxtoks = 10; char *cmd; char **toks = calloc(maxtoks, sizeof (char*)); int ntoks; ntoks = tokenize(str, toks, maxtoks); if(ntoks < 1) return "fail: supply at least one command"; cmd = toks[0]; if(strcmp(cmd, "clear") == 0){ }else if(strcmp(cmd, "newwin") == 0){ }else if(strcmp(cmd, "delwin") == 0){ }else if(strcmp(cmd, "endwin") == 0){ }else if(strcmp(cmd, "mvprintw") == 0){ }else if(strcmp(cmd, "mvaddch") == 0){ }else if(strcmp(cmd, "getch") == 0){ }else if(strcmp(cmd, "initscr") == 0){ }else if(strcmp(cmd, "raw") == 0){ }else if(strcmp(cmd, "noecho") == 0){ }else if(strcmp(cmd, "cursset") == 0){ }else if(strcmp(cmd, "setescdelay") == 0){ }else if(strcmp(cmd, "refresh") == 0){ }else if(strcmp(cmd, "wrefresh") == 0){ }else if(strcmp(cmd, "keypad") == 0){ } free(toks); return nil; } // Print the log char* screen2str(void) { char str[Ncmd * Cmdwidth]; memset(str, '\0', Ncmd * Cmdwidth); int i; for(i = Ncmd-1; i >= 0; i--) strncat(str, clog[i], strlen(clog[i])); return str; } /* A simple 9p fileserver to show a minimal set of operations */ void threadmain(int argc, char *argv[]) { char *mnt, *srv; srv = nil; mnt = "/mnt/simplefs"; ARGBEGIN{ case 'D': chatty9p++; break; case 's': srv = EARGF(usage()); break; case 'm': mnt = EARGF(usage()); break; default: usage(); }ARGEND; if(argc != 0) usage(); // Setup ctl file File9 ctl = (File9) { (Ref){ 0 }, 0, "ctl" }; files[0] = &ctl; // Setup log file File9 log = (File9) { (Ref){ 0 }, 1, "screen" }; files[1] = &log; threadcreate(initscreen, nil, 4096); threadpostmountsrv(&srvfs, srv, mnt, MREPL|MCREATE); threadexits(nil); } // Handle 9p attach -- independent implementation static void fsattach(Req *r) { r->fid->qid = (Qid) { 0, 0, QTDIR }; r->ofcall.qid = r->fid->qid; respond(r, nil); } // Get directory entries for stat and such -- independent implementation static int getdirent(int n, Dir *d, void *) { d->atime = time(nil); d->mtime = d->atime; d->uid = estrdup9p(getuser()); d->gid = estrdup9p(d->uid); d->muid = estrdup9p(d->uid); if(n == -1){ d->qid = (Qid) {0, 0, QTDIR}; d->mode = 0775; d->name = estrdup9p("/"); d->length = 0; }else if(n >= 0 && n < Nfiles && files[n] != nil){ d->qid = (Qid) {n, 0, 0}; d->mode = 0664; d->name = estrdup9p(files[n]->name); }else return -1; return 0; } // Handle 9p read static void fsread(Req *r) { Fid *fid; Qid q; char readmsg[Ncmd * Cmdwidth]; readmsg[0] = '\0'; fid = r->fid; q = fid->qid; if(q.type & QTDIR){ dirread9p(r, getdirent, nil); respond(r, nil); return; } switch(q.path){ case 0: // ctl file strcpy(readmsg, "ctl file is unreadable.\n"); break; case 1: // log file // TODO -- attach stdout to write to the read stream // strcpy(readmsg, "log shows prior commands.\n"); strcpy(readmsg, screen2str()); break; default: strcpy(readmsg, "Nothing special in this read.\n"); } // Set the read reply string readstr(r, readmsg); // Respond to the 9p request respond(r, nil); } // Handle 9p write static void fswrite(Req *r) { Fid *fid; Qid q; char str[Cmdwidth]; fid = r->fid; q = fid->qid; if(q.type & QTDIR){ respond(r, "permission denied."); return; } if(r->ifcall.count > sizeof(str) - 1){ respond(r, "string too large"); return; } memmove(str, r->ifcall.data, r->ifcall.count); str[r->ifcall.count] = 0; // At this point, str contains the written bytes char *msg; switch(q.path){ case 0: // ctl file msg = handlecmd(str); if(msg != nil) respond(r, msg); break; default: respond(r, "only ctl may be written to"); return; } respond(r, nil); } // Handle 9p walk -- independent implementation static char * fswalk1(Fid * fid, char *name, Qid *qid) { Qid q; int i; q = fid->qid; if(!(q.type && QTDIR)){ if(!strcmp(name, "..")){ fid->qid = (Qid) {0, 0, QTDIR}; *qid = fid->qid; fid->aux = nil; return nil; } }else{ for(i = 0; i < Nfiles; i++) if(files[i] && !strcmp(name, files[i]->name)){ fid->qid = (Qid){i, 0, 0}; incref(files[i]); fid->aux = files[i]; *qid = fid->qid; return nil; } } return "no such directory."; } // Handle 9p stat -- independent implementation static void fsstat(Req *r) { Fid *fid; Qid q; fid = r->fid; q = fid->qid; if(q.type & QTDIR) getdirent(-1, &r->d, nil); else getdirent(q.path, &r->d, nil); respond(r, nil); } // Handle 9p clone -- independent implementation static char * fsclone(Fid *fid, Fid *newfid) { File9 *f; f = fid->aux; if(f != nil) incref(f); newfid->aux = f; return nil; }