ref: d09cf07a82cf4ffb846a31d0384e774b4c4661e1
dir: /tools/odbc/odbc.c/
#ifdef WINDOWSNT #include <windows.h> #endif #include <lib9.h> #include <styx.h> #include "styxserver.h" /* #include <winsock.h> */ #define DEFCOLSIZE 10000 static int ODebug; char Eodbcalloc[] = "no free ODBC handles"; char Enoconnect[] = "no ODBC connection"; static char *netport = "6700"; static char *inferno = "inferno"; Styxserver *iserver; /* ----- */ #include <sql.h> #include <sqlext.h> int nclients = 0; typedef struct Env Env; struct Env { SQLHENV h; /* ODBC environment handle */ }; typedef struct Conn Conn; struct Conn { SQLHDBC h; /* ODBC connection handle */ int connected; }; typedef struct Coltype Coltype; struct Coltype { char name[255]; ushort type; SQLUINTEGER size; ushort digits; ushort nulls; }; typedef struct Column Column; struct Column { char *data; SQLINTEGER len; }; typedef struct Stmt Stmt; struct Stmt { SQLHSTMT h; /* ODBC statement handle */ ushort ncols; /* number of columns in result */ ulong nrows; /* number of rows affected by update, insert, delete */ Coltype *cols; /* column descriptions */ Column *rec; /* data record */ char *headstr; /* column headings if requested */ }; /* ----- */ enum { Qtopdir = 0, /* top level directory */ Qnclients, Qprotodir, Qclonus, Qconvdir, Qdata, Qcmd, Qctl, Qstatus, Qformat, Qsources, Qerror, MAXPROTO = 1 }; #define TYPE(x) ((x).path & 0xf) #define CONV(x) (((x).path >> 4)&0xfff) #define PROTO(x) (((x).path >> 16)&0xff) #define QID(p, c, y) (((p)<<16) | ((c)<<4) | (y)) typedef struct Proto Proto; typedef struct Conv Conv; typedef struct Output Output; struct Output { enum {Fixed, Float} style; /* output style */ uchar fs; /* float: field separator */ uchar rs; /* float: record separator */ }; Output defoutput = {Float, '|', '\n'}; struct Conv { int x; int ref; int perm; char *owner; char* state; Proto* p; /*-----*/ Conn c; Stmt s; Output out; int headings; char errmsg[400]; /* odbc error messages can be big */ }; struct Proto { int x; char *name; uint nc; int maxconv; Conv** conv; Qid qid; }; typedef struct Dirtab Dirtab; struct Dirtab { char name[255]; Qid qid; long length; long perm; }; static int np; static Proto proto[MAXPROTO]; static Conv* protoclone(Proto*, char*); typedef int Devgen(Fid*, char *, Dirtab*, int, int, Dir*); struct xClient { /* ---- */ Env e; }; #define H(c) ((Env*)(c->u))->h void fatal(char *fmt, ...) { char buf[1024], *out; va_list arg; out = vseprint(buf, buf+sizeof(buf), "Fatal error: ", 0); va_start(arg, fmt); out = vseprint(out, buf+sizeof(buf), fmt, arg); va_end(arg); write(2, buf, out-buf); exit(1); } #define ASSERT(A,B) xassert((int)A,B) void xassert(int true, char *reason) { if(!true) fatal("assertion failed: %s\n", reason); } void * xmalloc(int bytes) { char *m = malloc(bytes); if(m) memset(m, 0, bytes); // print("xmalloc: %lux (%d)\n", m, bytes); return m; } void xfree(void *p, char *from) { // print("xfree: %lux [%s]\n", p, from); free(p); } char * odbcerror(Conv *cv, int lasterr) { char sqlstate[6]; long native; char *mp; short msglen; if(cv == 0) return ""; if(lasterr) return cv->errmsg; if(cv->c.connected) SQLGetDiagRec(SQL_HANDLE_STMT, cv->s.h, 1, sqlstate, &native, cv->errmsg, sizeof(cv->errmsg), &msglen); else SQLGetDiagRec(SQL_HANDLE_DBC, cv->c.h, 1, sqlstate, &native, cv->errmsg, sizeof(cv->errmsg), &msglen); cv->errmsg[msglen]=0; /* fprint(2, "c: sqlstate: %s, msg %s\n", sqlstate, cv->errmsg); */ if((mp=strrchr(cv->errmsg, ']')) != 0) return mp+1; return cv->errmsg; } char* odbcsources(Client *c) { int ss, i; char server[SQL_MAX_DSN_LENGTH+1]; char source[1024]; char buff[1024+SQL_MAX_DSN_LENGTH+1]; short serverlen, sourcelen; char *all = nil, *p; for (i=0;; i++) { ss = SQLDataSources(H(c), (i==0 ? SQL_FETCH_FIRST : SQL_FETCH_NEXT), server, sizeof(server), &serverlen, source, sizeof(source), &sourcelen); if (ss != SQL_SUCCESS) break; snprint(buff, sizeof(buff), "%s:%s\n", server, source); if (i == 0) all = strdup(buff); else { p = all; all = malloc(strlen(all)+strlen(buff)+1); strcpy(all, p); strcat(all, buff); free(p); } } return all; } int sqlerr(Conv *c, int sqlstatus, char *errp, char *func, char *sqlcall) { char *e; errp[0] = 0; e = "failed"; if (sqlstatus == SQL_ERROR || sqlstatus == SQL_SUCCESS_WITH_INFO) strecpy(errp, errp+ERRMAX, odbcerror(c, 0)); if (sqlstatus == SQL_SUCCESS_WITH_INFO) e = "info"; if (sqlstatus != SQL_SUCCESS) fprint(2, "%s: %s %s - %s\n", func, sqlcall, e, errp); if (sqlstatus != SQL_SUCCESS && sqlstatus != SQL_SUCCESS_WITH_INFO) return 1; return 0; } char* odbcnewclient(Client *c) { int ss; /* ---- */ c->u = styxmalloc(sizeof(Env)); ss = SQLAllocHandle(SQL_HANDLE_ENV, SQL_NULL_HANDLE, &H(c)); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) { fprint(2, "newclient: SQLAllocHandle failed\n"); return "SQLAllocHandle failed"; } ss = SQLSetEnvAttr(H(c), SQL_ATTR_ODBC_VERSION, (char*)SQL_OV_ODBC2, 0); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) { fprint(2, "newclient: SQLSetEnvAttr failed\n"); return "SQLSetEnvAttr failed"; } nclients++; return nil; } char* odbcfreeclient(Client *c) { int ss; ss = SQLFreeHandle(SQL_HANDLE_ENV, H(c)); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) fprint(2, "freeclient: SQLFreeHandle failed\n"); styxfree(c->u); nclients--; return nil; } int parsefields(char *lp, char **fields, int n, char *sep) { int i; for(i=0; lp && *lp && i<n; i++){ while(*lp && strchr(sep, *lp) != 0) *lp++=0; if(*lp == 0) break; fields[i]=lp; while(*lp && strchr(sep, *lp) == 0) lp++; } return i; } void odbcdisconnect(Conv *c) { int ss; if(c->c.connected){ ss = SQLFreeHandle(SQL_HANDLE_STMT, c->s.h); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) fprint(2, "odbcdisconnect: SQLFreeHandle failed\n"); ss = SQLDisconnect(c->c.h); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) fprint(2, "odbcdisconnect: SQLDisconnect failed\n"); c->c.connected = 0; } } int odbcconnect(Conv *c, char *server, char *user, char *auth, char *ename) { int ss; odbcdisconnect(c); ss = SQLConnect(c->c.h, server, SQL_NTS, user, strlen(user), auth, strlen(auth)); if (sqlerr(c, ss, ename, "odbcconnect", "SQLConnect")) return -1; c->c.connected = 1; ss = SQLAllocHandle(SQL_HANDLE_STMT, c->c.h, &c->s.h); if (sqlerr(c, ss, ename, "odbcconnect", "SQLAllocHandle")) return -1; return 0; } int odbcnewconv(Client *c, Conv *cv) { int ss; ss = SQLAllocHandle(SQL_HANDLE_DBC, H(c), &cv->c.h); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) { fprint(2, "odbcnewconv: SQLAllocHandle failed\n"); return -1; } return 0; } void odbcfreeconv(Conv *c) { int ss; odbcdisconnect(c); ss = SQLFreeHandle(SQL_HANDLE_DBC, c->c.h); if (ss != SQL_SUCCESS && ss != SQL_SUCCESS_WITH_INFO) fprint(2, "odbcfreeconv: SQLFreeHandle failed\n"); } /* Free up all memory used in the last query */ void freestat(Stmt *s) { int i; if (s->ncols == 0) return; for(i=0; i<s->ncols; i++){ Column *d = &s->rec[i]; xfree(d->data, "freestat - data"); } xfree(s->cols, "freestat - cols"); s->cols = 0; xfree(s->rec, "freestat - rec"); s->rec = 0; xfree(s->headstr, "freestat - headstr"); s->headstr = 0; s->ncols = 0; } /* build an array describing the columns */ int mkcols(Conv *c, char *ename) { Stmt *s; int rv, i, err, hsize; ushort ignore; char *p; s = &c->s; s->ncols = 0; rv = SQLNumResultCols(s->h, &s->ncols); if (sqlerr(c, rv, ename, "mkcols", "SQLNumResultCols")) return -1; s->cols = xmalloc(s->ncols*sizeof(Coltype)); err = 0; hsize = 0; for(i=0; i<s->ncols; i++){ Coltype *t = &s->cols[i]; rv = SQLDescribeCol(s->h, i+1, t->name, sizeof(t->name), &ignore, &t->type, &t->size, &t->digits, &t->nulls); if (sqlerr(c, rv, ename, "mkcols", "SQLDescribeCol")) err++; if(t->size == 0 || t->size > MSGMAX) /* odbc should return 0 if size not available, not -1 */ t->size = DEFCOLSIZE; hsize += strlen(t->name) + 1; } if (c->headings) { hsize += 2; s->headstr = xmalloc(hsize); p = s->headstr; for(i=0; i<s->ncols; i++) { Coltype *t = &s->cols[i]; p += sprint(p, "%s%c", t->name, c->out.fs); } p[-1] = c->out.rs; } else s->headstr = 0; return (err ? -1 : 0); } /* build a record to hold `fetched' results */ int mkrec(Conv *c, char *ename) { Stmt *s; int rv, i; s = &c->s; s->rec = xmalloc(s->ncols*sizeof(Column)); for(i=0; i<s->ncols; i++){ Coltype *t = &s->cols[i]; Column *d = &s->rec[i]; if (ODebug) print("Column %d size=%ud type=%hd\n", i, t->size, t->type); d->data = xmalloc(t->size+1); /* expects to zero terminate */ rv = SQLBindCol(s->h, i+1, SQL_C_CHAR, d->data, t->size+1, &d->len); if (sqlerr(c, rv, ename, "mkrec", "SQLBindCol")) return -1; } return 0; } int rowcount(Conv *c, char *ename) { Stmt *s; int rv; s = &c->s; s->nrows = 0; rv = SQLRowCount(s->h, &s->nrows); if (sqlerr(c, rv, ename, "rowcount", "SQLRowCount")) return -1; return 0; } int odbcfetch(Conv *c, char *ename) { Stmt *s = &c->s; int rv; rv = SQLFetch(s->h); if(rv == SQL_NO_DATA) { freestat(s); return 0; } if (sqlerr(c, rv, ename, "odbcfetch", "SQLFetch")) { freestat(s); return -1; } return 1; } int odbcresults(Conv *c, char *ename) { if(mkcols(c, ename)) return -1; if(mkrec(c, ename)) return -1; if(rowcount(c, ename)) return -1; return 0; } void struncate(char *s, long *len) { long i; for (i=0; i<*len; i++) if (s[i] == 0) { *len = i; return; } } void fix_delim(char *p, int len, char delim) { int i; for (i=0; i<len; i++) if (p[i] == delim) p[i] = '\\'; } long odbcdataread(Conv *c, void *a, long n, ulong offset, char *ename) { Stmt *s = &c->s; int i, r; long left; char *p, *lastp; if(c->c.connected == 0){ strcpy(ename, Enoconnect); return -1; } if (s->cols == 0 || s->rec == 0) return 0; p = a; left = n; if (c->headings) { r = strlen(s->headstr); if (r && offset < r) { memcpy(p, s->headstr+offset, r-offset); p += r-offset; left -= r-offset; return n-left; } } if((r=odbcfetch(c, ename)) < 0) return -1; if(r == 0) return 0; for(i=0; i<s->ncols; i++){ Coltype *t = &s->cols[i]; Column *d = &s->rec[i]; if (ODebug) fprint(2, "Col %d Returned data len=%d\n", i, d->len); if(d->len <= 0) /* SQL_NULL_DATA or strange error! */ d->len = 0; if (d->len > t->size+1) d->len = t->size+1; if(left <= d->len+1) /* whole fields */ break; struncate(d->data, &d->len); /* assume string data and stop on an embedded null */ memcpy(p, d->data, d->len); lastp = p; left -= d->len; p += d->len; fix_delim(lastp, d->len, '\n'); switch(c->out.style){ case Float: fix_delim(lastp, d->len, c->out.fs); *p++ = (i==s->ncols-1)? c->out.rs: c->out.fs; left--; break; case Fixed: r = t->size - d->len; if(r < 0) r = 0; if(left < r) r = left; memset(p, ' ', r); left -= r; p += r; break; } } if (left < 0) fprint(2, "*** left<0 n=%d left=%d\n", n, left); return n-left; } /* * Returns a description of the format of a fixed width output * record. `start' is the offset of the first character in the field. * `end' is one greater than the offset of the last character of the field. * `name' is the column name (which may contain spaces). * `start' and `end' are terminated with a space, `name' with a newline. * return 1 record containing one line for each field in the output: * start1 end1 name1\n * start2 end2 name2\n * .... */ long odbcfmtread(Conv *c, void *a, long n, ulong offset, char *ename) { Stmt *s = &c->s; int i, len; long left, off; char *p; char buf[100]; if(offset > 0) return 0; p = a; left = n; off = 0; for(i=0; i<s->ncols; i++){ Coltype *t = &s->cols[i]; len = snprint(buf, sizeof(buf), "%ld %ld %s\n", off, off+t->size, t->name); off += t->size; if(left < len) break; memcpy(p, buf, len); left -= len; p += len; } return n-left; } int odbctables(Conv *c, char *ename) { int rv; if(c->c.connected == 0){ strcpy(ename, Enoconnect); return -1; } rv = SQLCloseCursor(c->s.h); rv = SQLTables(c->s.h, 0, 0, 0, 0, 0, 0, 0, 0); if (sqlerr(c, rv, ename, "odbctables", "SQLTables")) return -1; if(odbcresults(c, ename)) return -1; return 0; } int odbccolumns(Conv *c, char *table, char *ename) { int rv; if(c->c.connected == 0){ strcpy(ename, Enoconnect); return -1; } rv = SQLCloseCursor(c->s.h); rv = SQLColumns(c->s.h, 0, 0, 0, 0, table, strlen(table), 0, 0); if (sqlerr(c, rv, ename, "odbccolumns", "SQLColumns")) return -1; if(odbcresults(c, ename)) return -1; return 0; } int odbcexec(Conv *c, char *cmd, int cmdlen, char *ename) { int rv; if(c->c.connected == 0){ strcpy(ename, Enoconnect); return -1; } SQLCloseCursor(c->s.h); rv = SQLExecDirect(c->s.h, cmd, cmdlen); if (sqlerr(c, rv, ename, "odbcexec", "SQLExecDirect")) return -1; if(odbcresults(c, ename)) return -1; return 0; } int odbctrans(Conv *c, char *cmd, char *ename) { int rv; if(strcmp(cmd, "auto") == 0){ rv = SQLSetConnectAttr(c->c.h, SQL_ATTR_AUTOCOMMIT, (char*)SQL_AUTOCOMMIT_ON, 0); } else if(strcmp(cmd, "begin") == 0){ rv = SQLSetConnectAttr(c->c.h, SQL_ATTR_AUTOCOMMIT, (char*)SQL_AUTOCOMMIT_OFF, 0); } else if(strcmp(cmd, "commit") == 0){ rv = SQLEndTran(SQL_HANDLE_DBC, c->c.h, SQL_COMMIT); } else if(strcmp(cmd, "rollback") == 0){ rv = SQLEndTran(SQL_HANDLE_DBC, c->c.h, SQL_ROLLBACK); } else { strcpy(ename, Ebadarg); return -1; } if (sqlerr(c, rv, ename, "odbctrans", "SQLSetConnectAttr/SQLEndTran")) return -1; return 0; } int readstr(ulong off, char *buf, ulong n, char *str) { int size; size = strlen(str); if(off >= size) return 0; if(off+n > size) n = size-off; memmove(buf, str+off, n); return n; } static void newproto(char *name, int maxconv) { int l; Proto *p; if(np >= MAXPROTO) { print("no %s: increase MAXPROTO", name); return; } p = &proto[np]; p->name = strdup(name); p->qid.path = QID(np, 0, Qprotodir); p->qid.type = QTDIR; p->x = np++; p->maxconv = maxconv; l = sizeof(Conv*)*(p->maxconv+1); p->conv = xmalloc(l); if(p->conv == 0) fatal("no memory"); memset(p->conv, 0, l); } char* openmode(int *o) { if(*o >= (OTRUNC|OCEXEC|ORCLOSE|OEXEC)){ return Ebadarg; } *o &= ~(OTRUNC|OCEXEC|ORCLOSE); if(*o > OEXEC){ return Ebadarg; } if(*o == OEXEC) *o = OREAD; return nil; } static Conv* protoclone(Proto *p, char *user) { Conv *c, **pp, **ep; uvlong nr; char buf[16]; c = 0; ep = &p->conv[p->maxconv]; for(pp = p->conv; pp < ep; pp++) { c = *pp; if(c == 0) { c = xmalloc(sizeof(Conv)); if(c == 0) return 0; c->ref = 1; c->p = p; c->x = pp - p->conv; p->nc++; *pp = c; break; } if(c->ref == 0) { c->ref++; break; } } if(pp >= ep) return 0; c->owner = strdup(user); c->perm = 0660; c->state = "Open"; c->out = defoutput; c->headings = 0; c->errmsg[0] = 0; nr = QID(0, c->x, Qconvdir); snprint(buf, sizeof(buf), "%d", c->x); styxadddir(iserver, Qprotodir, nr, buf, 0555, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qcmd), "cmd", c->perm, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qctl), "ctl", c->perm, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qdata), "data", c->perm, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qerror), "error", c->perm, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qformat), "format", c->perm, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qsources), "sources", c->perm, c->owner); styxaddfile(iserver, nr, QID(0, c->x, Qstatus), "status", 0444, c->owner); return c; } char* dbopen(Qid *qid, int omode) { Proto *p; int perm; Conv *cv; char *user; Qid q; Client *c; q = *qid; c = styxclient(iserver); perm = 0; omode &= 3; switch(omode) { case OREAD: perm = 4; break; case OWRITE: perm = 2; break; case ORDWR: perm = 6; break; } switch(TYPE(q)) { default: break; case Qtopdir: case Qprotodir: case Qconvdir: case Qstatus: case Qformat: case Qsources: case Qerror: if(omode != OREAD){ return Eperm; } break; case Qclonus: p = &proto[PROTO(q)]; cv = protoclone(p, c->uname); if(cv == 0){ return Enodev; } qid->path = QID(p->x, cv->x, Qctl); qid->type = 0; qid->vers = 0; if(odbcnewconv(c, cv) != 0){ return Eodbcalloc; } break; case Qdata: case Qcmd: case Qctl: p = &proto[PROTO(q)]; cv = p->conv[CONV(q)]; user = c->uname; if((perm & (cv->perm>>6)) != perm) { if(strcmp(user, cv->owner) != 0 || (perm & cv->perm) != perm) { return Eperm; } } cv->ref++; if(cv->ref == 1) { cv->state = "Open"; cv->owner = strdup(user); cv->perm = 0660; if(odbcnewconv(c, cv) != 0){ return Eodbcalloc; } } break; } return openmode(&omode); } char* dbclose(Qid qid, int mode) { Conv *cc; USED(mode); switch(TYPE(qid)) { case Qctl: case Qcmd: case Qdata: cc = proto[PROTO(qid)].conv[CONV(qid)]; if(--cc->ref != 0) break; cc->owner = inferno; cc->perm = 0666; cc->state = "Closed"; odbcfreeconv(cc); styxrmfile(iserver, QID(0, cc->x, Qconvdir)); break; } return nil; } static char ebuf[ERRMAX]; char* dbread(Qid qid, char *ba, ulong *n, vlong offset) { uchar *a = ba; Conv *c; Proto *x; char buf[128], *p, *s; long r; ulong m; m = *n; ebuf[0] = 0; p = a; switch(TYPE(qid)) { default: return Eperm; case Qnclients: snprint(buf, sizeof(buf), "%d\n", nclients); *n = readstr(offset, p, m, buf); return nil; case Qprotodir: case Qtopdir: case Qconvdir: return "bad read of directory"; case Qctl: snprint(buf, sizeof(buf), "%ld", CONV(qid)); *n = readstr(offset, p, m, buf); return nil; case Qstatus: x = &proto[PROTO(qid)]; c = x->conv[CONV(qid)]; snprint(buf, sizeof(buf), "%s/%d %ld %s %s\n", c->p->name, c->x, c->ref, c->state, ""); *n = readstr(offset, p, m, buf); return nil; case Qdata: c = proto[PROTO(qid)].conv[CONV(qid)]; *n = odbcdataread(c, a, m, offset, ebuf); if(ebuf[0] != 0) return ebuf; return nil; case Qformat: c = proto[PROTO(qid)].conv[CONV(qid)]; *n = odbcfmtread(c, a, m, offset, ebuf); if(ebuf[0] != 0) return ebuf; return nil; case Qerror: c = proto[PROTO(qid)].conv[CONV(qid)]; *n = readstr(offset, p, m, odbcerror(c, 1)); return nil; case Qsources: c = proto[PROTO(qid)].conv[CONV(qid)]; s = odbcsources(styxclient(iserver)); r = readstr(offset, p, m, s); free(s); *n = r; return nil; } return nil; } char* dbwrite(Qid qid, char *ba, ulong *n, vlong offset) { uchar *a = ba; int nf; Conv *c; Proto *x; char *fields[10], buf[512], safebuf[512]; ulong m; m = *n; ebuf[0] = 0; switch(TYPE(qid)) { default: return Eperm; case Qctl: x = &proto[PROTO(qid)]; c = x->conv[CONV(qid)]; // if(m > sizeof(buf)-1) m = sizeof(buf)-1; memmove(buf, a, m); buf[m] = '\0'; if (ODebug) fprint(2, "write Qctl: <%s>\n", buf); fields[0] = 0; nf = parsefields(buf, fields, sizeof(fields)/sizeof(*fields), " \n\t"); if (nf == 0) { return Ebadarg; } if(strcmp(fields[0], "connect") == 0){ /* connect database [user!auth] */ char *afields[2]; char *user = ""; char *auth = ""; switch(nf){ default: return Ebadarg; case 2: break; case 3: nf = parsefields(fields[2], afields, 2, "!"); switch(nf){ case 2: user = afields[0]; auth = afields[1]; break; case 1: if(fields[2][0] == 0) auth = afields[0]; else user = afields[0]; break; default: break; } break; } if(odbcconnect(c, fields[1], user, auth, ebuf) < 0) return ebuf; c->state = "Connected"; } else if(strcmp(fields[0], "disconnect") == 0){ odbcdisconnect(c); c->state = "Disconnected"; } else if(strcmp(fields[0], "fixed") == 0){ c->out = defoutput; c->out.style = Fixed; } else if(strcmp(fields[0], "float") == 0){ c->out = defoutput; c->out.style = Float; if(nf > 1) c->out.fs = fields[1][0]; if(nf > 2) c->out.rs = fields[2][0]; } else if(strcmp(fields[0], "headings") == 0){ c->headings = 1; } else if(strcmp(fields[0], "noheadings") == 0){ c->headings = 0; } else if(strcmp(fields[0], "trans") == 0){ /* begin, auto, commit, rollback */ if(nf < 2){ return Ebadarg; } if(odbctrans(c, fields[1], ebuf) < 0) return ebuf; } else { return Ebadcmd; } *n = m; return nil; case Qcmd: x = &proto[PROTO(qid)]; c = x->conv[CONV(qid)]; if(m > sizeof(buf)-1) m = sizeof(buf)-1; memmove(buf, a, m); buf[m] = '\0'; if (ODebug) fprint(2, "write Qcmd: <%s>\n", buf); memmove(safebuf, a, m); safebuf[m] = '\0'; fields[0] = 0; nf = parsefields(buf, fields, 3, " \n\t"); if (nf == 0) { return Ebadarg; } if(strcmp(fields[0], "tables") == 0){ if(odbctables(c, ebuf)) return ebuf; }else if(strcmp(fields[0], "columns") == 0){ if(nf < 2){ return Ebadarg; } if(odbccolumns(c, &safebuf[strlen(fields[0])+1], ebuf)) /* allow for spaces in table name */ return ebuf; } else if (odbcexec(c, a, m, ebuf)) return ebuf; *n = m; return nil; case Qdata: return Eperm; } return nil; } void badusage(void) { fprint(2, "Usage: odbc [-d] [-p port]\n"); exit(1); } Styxops ops = { odbcnewclient, /* newclient */ odbcfreeclient, /* freeclient */ nil, /* attach */ nil, /* walk */ dbopen, /* open */ nil, /* create */ dbread, /* read */ dbwrite, /* write */ dbclose, /* close */ nil, /* remove */ nil, /* stat */ nil, /* wstat */ }; void main(int argc, char *argv[]) { Styxserver s; ARGBEGIN { default: badusage(); case 'd': /* Debug */ ODebug = 1; styxdebug(); break; case 'p': /* Debug */ netport = EARGF(badusage()); break; } ARGEND iserver = &s; styxinit(&s, &ops, netport, -1, 1); styxaddfile(&s, Qroot, Qnclients, "nclients", 0444, inferno); styxadddir(&s, Qroot, Qprotodir, "db", 0555, inferno); styxaddfile(&s, Qprotodir, Qclonus, "new", 0666, inferno); newproto("db", 100); for (;;) { styxwait(&s); styxprocess(&s); } styxend(&s); }