/* * This file has been modified for the cdrkit suite. * * The behaviour and appearence of the program code below can differ to a major * extent from the version distributed by the original author(s). * * For details, see Changelog file distributed with the cdrkit package. If you * received this file from another source then ask the distributing person for * a log of modifications. * */ /* @(#)scsi-aix.c 1.36 04/01/14 Copyright 1997 J. Schilling */ /* * Interface for the AIX generic SCSI implementation. * * This is a hack, that tries to emulate the functionality * of the usal driver. * * Warning: you may change this source, but if you do that * you need to change the _usal_version and _usal_auth* string below. * You may not return "schily" for an SCG_AUTHOR request anymore. * Choose your name instead of "schily" and make clear that the version * string is related to a modified source. * * Copyright (c) 1997 J. Schilling */ /* * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along with * this program; see the file COPYING. If not, write to the Free Software * Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include /* * Warning: you may change this source, but if you do that * you need to change the _usal_version and _usal_auth* string below. * You may not return "schily" for an SCG_AUTHOR request anymore. * Choose your name instead of "schily" and make clear that the version * string is related to a modified source. */ static char _usal_trans_version[] = "scsi-aix.c-1.36"; /* The version for this transport*/ #define MAX_SCG 16 /* Max # of SCSI controllers */ #define MAX_TGT 16 #define MAX_LUN 8 struct usal_local{ short usalfiles[MAX_SCG][MAX_TGT][MAX_LUN]; }; #define usallocal(p) ((struct usal_local*)((p)->local)) #define MAX_DMA_AIX (64*1024) static int do_usal_cmd(SCSI *usalp, struct usal_cmd *sp); static int do_usal_sense(SCSI *usalp, struct usal_cmd *sp); /* * Return version information for the low level SCSI transport code. * This has been introduced to make it easier to trace down problems * in applications. */ static char * usalo_version(SCSI *usalp, int what) { if (usalp != (SCSI *)0) { switch (what) { case SCG_VERSION: return (_usal_trans_version); /* * If you changed this source, you are not allowed to * return "schily" for the SCG_AUTHOR request. */ case SCG_AUTHOR: return (_usal_auth_cdrkit); case SCG_SCCS_ID: return (__sccsid); } } return ((char *)0); } static int usalo_help(SCSI *usalp, FILE *f) { __usal_help(f, "DKIOCMD", "SCSI transport for targets known by AIX drivers", "", "bus,target,lun or UNIX device", "1,2,0 or /dev/rcd0@", FALSE, TRUE); return (0); } static int usalo_open(SCSI *usalp, char *device) { int busno = usal_scsibus(usalp); int tgt = usal_target(usalp); int tlun = usal_lun(usalp); register int f; register int b; register int t; register int l; register int nopen = 0; char devname[32]; if (busno >= MAX_SCG || tgt >= MAX_TGT || tlun >= MAX_LUN) { errno = EINVAL; if (usalp->errstr) snprintf(usalp->errstr, SCSI_ERRSTR_SIZE, "Illegal value for busno, target or lun '%d,%d,%d'", busno, tgt, tlun); return (-1); } if (usalp->local == NULL) { usalp->local = malloc(sizeof (struct usal_local)); if (usalp->local == NULL) return (0); for (b = 0; b < MAX_SCG; b++) { for (t = 0; t < MAX_TGT; t++) { for (l = 0; l < MAX_LUN; l++) usallocal(usalp)->usalfiles[b][t][l] = (short)-1; } } } if ((device != NULL && *device != '\0') || (busno == -2 && tgt == -2)) goto openbydev; if (busno >= 0 && tgt >= 0 && tlun >= 0) { snprintf(devname, sizeof (devname), "/dev/rcd%d", tgt); f = openx(devname, 0, 0, SC_DIAGNOSTIC); if (f < 0) { if (usalp->errstr) snprintf(usalp->errstr, SCSI_ERRSTR_SIZE, "Cannot open '%s'. Specify device number (1 for cd1) as target (1,0)", devname); return (0); } usallocal(usalp)->usalfiles[busno][tgt][tlun] = f; return (1); } else { if (usalp->errstr) snprintf(usalp->errstr, SCSI_ERRSTR_SIZE, "Unable to scan on AIX"); return (0); } openbydev: if (device != NULL && *device != '\0' && busno >= 0 && tgt >= 0 && tlun >= 0) { f = openx(device, 0, 0, SC_DIAGNOSTIC); if (f < 0) { if (usalp->errstr) snprintf(usalp->errstr, SCSI_ERRSTR_SIZE, "Cannot open '%s'", devname); return (0); } usallocal(usalp)->usalfiles[busno][tgt][tlun] = f; usal_settarget(usalp, busno, tgt, tlun); return (++nopen); } return (nopen); } static int usalo_close(SCSI *usalp) { register int f; register int b; register int t; register int l; if (usalp->local== NULL) return (-1); for (b = 0; b < MAX_SCG; b++) { for (t = 0; t < MAX_TGT; t++) { for (l = 0; l < MAX_LUN; l++) { f = usallocal(usalp)->usalfiles[b][t][l]; if (f >= 0) close(f); usallocal(usalp)->usalfiles[b][t][l] = (short)-1; } } } return (0); } static long usalo_maxdma(SCSI *usalp, long amt) { return (MAX_DMA_AIX); } #define palign(x, a) (((char *)(x)) + ((a) - 1 - (((UIntptr_t)((x)-1))%(a)))) static void * usalo_getbuf(SCSI *usalp, long amt) { /* assume having a modern AIX here */ #ifdef HAVE_ALLOCA_H usalp->bufbase = (void *)valloc((size_t)amt); return (usalp->bufbase); #else void *ret; int pagesize = getpagesize(); if (usalp->debug > 0) { fprintf((FILE *)usalp->errfile, "usalo_getbuf: %ld bytes\n", amt); } /* * Damn AIX is a paged system but has no valloc() */ usalp->bufbase = ret = malloc((size_t)(amt+pagesize)); if (ret == NULL) return (ret); ret = palign(ret, pagesize); return (ret); #endif } static void usalo_freebuf(SCSI *usalp) { if (usalp->bufbase) free(usalp->bufbase); usalp->bufbase = NULL; } static BOOL usalo_havebus(SCSI *usalp, int busno) { register int t; register int l; if (busno < 0 || busno >= MAX_SCG) return (FALSE); if (usalp->local == NULL) return (FALSE); for (t = 0; t < MAX_TGT; t++) { for (l = 0; l < MAX_LUN; l++) if (usallocal(usalp)->usalfiles[busno][t][l] >= 0) return (TRUE); } return (FALSE); } static int usalo_fileno(SCSI *usalp, int busno, int tgt, int tlun) { if (busno < 0 || busno >= MAX_SCG || tgt < 0 || tgt >= MAX_TGT || tlun < 0 || tlun >= MAX_LUN) return (-1); if (usalp->local == NULL) return (-1); return ((int)usallocal(usalp)->usalfiles[busno][tgt][tlun]); } static int usalo_initiator_id(SCSI *usalp) { return (-1); } static int usalo_isatapi(SCSI *usalp) { return (FALSE); } static int usalo_reset(SCSI *usalp, int what) { if (what == SCG_RESET_NOP) return (0); if (what != SCG_RESET_BUS) { errno = EINVAL; return (-1); } /* * XXX Does this reset TGT or BUS ??? */ return (ioctl(usalp->fd, SCIORESET, IDLUN(usal_target(usalp), usal_lun(usalp)))); } static int do_usal_cmd(SCSI *usalp, struct usal_cmd *sp) { struct sc_iocmd req; int ret; if (sp->cdb_len > 12) comerrno(EX_BAD, "Can't do %d byte command.\n", sp->cdb_len); fillbytes(&req, sizeof (req), '\0'); req.flags = SC_ASYNC; if (sp->flags & SCG_RECV_DATA) { req.flags |= B_READ; } else if (sp->size > 0) { req.flags |= B_WRITE; } req.data_length = sp->size; req.buffer = sp->addr; req.timeout_value = sp->timeout; req.command_length = sp->cdb_len; movebytes(&sp->cdb, req.scsi_cdb, 12); errno = 0; ret = ioctl(usalp->fd, DKIOCMD, &req); if (usalp->debug > 0) { fprintf((FILE *)usalp->errfile, "ret: %d errno: %d (%s)\n", ret, errno, errmsgstr(errno)); fprintf((FILE *)usalp->errfile, "data_length: %d\n", req.data_length); fprintf((FILE *)usalp->errfile, "buffer: 0x%X\n", req.buffer); fprintf((FILE *)usalp->errfile, "timeout_value: %d\n", req.timeout_value); fprintf((FILE *)usalp->errfile, "status_validity: %d\n", req.status_validity); fprintf((FILE *)usalp->errfile, "scsi_bus_status: 0x%X\n", req.scsi_bus_status); fprintf((FILE *)usalp->errfile, "adapter_status: 0x%X\n", req.adapter_status); fprintf((FILE *)usalp->errfile, "adap_q_status: 0x%X\n", req.adap_q_status); fprintf((FILE *)usalp->errfile, "q_tag_msg: 0x%X\n", req.q_tag_msg); fprintf((FILE *)usalp->errfile, "flags: 0X%X\n", req.flags); } if (ret < 0) { sp->ux_errno = geterrno(); /* * Check if SCSI command cound not be send at all. */ if (sp->ux_errno == ENOTTY || sp->ux_errno == ENXIO || sp->ux_errno == EINVAL || sp->ux_errno == EACCES) { return (-1); } } else { sp->ux_errno = 0; } ret = 0; sp->sense_count = 0; sp->resid = 0; /* AIX is the same rubbish as Linux here */ fillbytes(&sp->scb, sizeof (sp->scb), '\0'); fillbytes(&sp->u_sense.cmd_sense, sizeof (sp->u_sense.cmd_sense), '\0'); if (req.status_validity == 0) { sp->error = SCG_NO_ERROR; return (0); } if (req.status_validity & 1) { sp->u_scb.cmd_scb[0] = req.scsi_bus_status; sp->error = SCG_RETRYABLE; } if (req.status_validity & 2) { if (req.adapter_status & SC_NO_DEVICE_RESPONSE) { sp->error = SCG_FATAL; } else if (req.adapter_status & SC_CMD_TIMEOUT) { sp->error = SCG_TIMEOUT; } else if (req.adapter_status != 0) { sp->error = SCG_RETRYABLE; } } return (ret); } static int do_usal_sense(SCSI *usalp, struct usal_cmd *sp) { int ret; struct usal_cmd s_cmd; fillbytes((caddr_t)&s_cmd, sizeof (s_cmd), '\0'); s_cmd.addr = sp->u_sense.cmd_sense; s_cmd.size = sp->sense_len; s_cmd.flags = SCG_RECV_DATA|SCG_DISRE_ENA; s_cmd.cdb_len = SC_G0_CDBLEN; s_cmd.sense_len = CCS_SENSE_LEN; s_cmd.cdb.g0_cdb.cmd = SC_REQUEST_SENSE; s_cmd.cdb.g0_cdb.lun = sp->cdb.g0_cdb.lun; s_cmd.cdb.g0_cdb.count = sp->sense_len; ret = do_usal_cmd(usalp, &s_cmd); if (ret < 0) return (ret); if (s_cmd.u_scb.cmd_scb[0] & 02) { /* XXX ??? Check condition on request Sense ??? */ } sp->sense_count = sp->sense_len - s_cmd.resid; return (ret); } static int usalo_send(SCSI *usalp) { struct usal_cmd *sp = usalp->scmd; int ret; if (usalp->fd < 0) { sp->error = SCG_FATAL; return (0); } ret = do_usal_cmd(usalp, sp); if (ret < 0) return (ret); if (sp->u_scb.cmd_scb[0] & 02) ret = do_usal_sense(usalp, sp); return (ret); }