/* @(#)scsi-os2.c 1.26 06/11/26 Copyright 1998 J. Schilling, C. Wohlgemuth */ #ifndef lint static char __sccsid[] = "@(#)scsi-os2.c 1.26 06/11/26 Copyright 1998 J. Schilling, C. Wohlgemuth"; #endif /* * Interface for the OS/2 ASPI-Router ASPIROUT.SYS ((c) D. Dorau). * This additional driver is a prerequisite for using cdrecord. * Get it from HOBBES or LEO. * * Warning: you may change this source, but if you do that * you need to change the _scg_version and _scg_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. * * XXX it currently uses static SRB and for this reason is not reentrant * * Copyright (c) 1998 J. Schilling * Copyright (c) 1998 C. Wohlgemuth for this interface. */ /* * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * See the file CDDL.Schily.txt in this distribution for details. * * The following exceptions apply: * CDDL §3.6 needs to be replaced by: "You may create a Larger Work by * combining Covered Software with other code if all other code is governed by * the terms of a license that is OSI approved (see www.opensource.org) and * you may distribute the Larger Work as a single product. In such a case, * You must make sure the requirements of this License are fulfilled for * the Covered Software." * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file CDDL.Schily.txt from this distribution. */ #undef sense /*#define DEBUG*/ /* For AspiRouter */ #include "scg/srb_os2.h" /* * Warning: you may change this source, but if you do that * you need to change the _scg_version and _scg_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. */ LOCAL char _scg_trans_version[] = "scsi-os2.c-1.26"; /* The version for this transport*/ #define FILE_OPEN 0x0001 #define OPEN_SHARE_DENYREADWRITE 0x0010 #define OPEN_ACCESS_READWRITE 0x0002 #define DC_SEM_SHARED 0x01 #define OBJ_TILE 0x0040 #define PAG_READ 0x0001 #define PAG_WRITE 0x0002 #define PAG_COMMIT 0x0010 typedef unsigned long LHANDLE; typedef unsigned long ULONG; typedef unsigned char *PSZ; typedef unsigned short USHORT; typedef unsigned char UCHAR; typedef LHANDLE HFILE; typedef ULONG HEV; #define MAX_SCG 16 /* Max # of SCSI controllers */ #define MAX_TGT 16 #define MAX_LUN 8 struct scg_local { int dummy; }; #define scglocal(p) ((struct scg_local *)((p)->local)) #define MAX_DMA_OS2 (63*1024) /* ASPI-Router allows up to 64k */ LOCAL void *buffer = NULL; LOCAL HFILE driver_handle = 0; LOCAL HEV postSema = 0; LOCAL BOOL open_driver __PR((SCSI *scgp)); LOCAL BOOL close_driver __PR((void)); LOCAL ULONG wait_post __PR((ULONG ulTimeOut)); LOCAL BOOL init_buffer __PR((void* mem)); LOCAL void exit_func __PR((void)); LOCAL void set_error __PR((SRB *srb, struct scg_cmd *sp)); LOCAL void exit_func() { if (!close_driver()) js_fprintf(stderr, "Cannot close OS/2-ASPI-Router!\n"); } /* * Return version information for the low level SCSI transport code. * This has been introduced to make it easier to trace down problems * in applications. */ LOCAL char * scgo_version(scgp, what) SCSI *scgp; int what; { if (scgp != (SCSI *)0) { switch (what) { case SCG_VERSION: return (_scg_trans_version); /* * If you changed this source, you are not allowed to * return "schily" for the SCG_AUTHOR request. */ case SCG_AUTHOR: return (_scg_auth_schily); case SCG_SCCS_ID: return (__sccsid); } } return ((char *)0); } LOCAL int scgo_help(scgp, f) SCSI *scgp; FILE *f; { __scg_help(f, "ASPI", "Generic transport independent SCSI", "", "bus,target,lun", "1,2,0", TRUE, FALSE); return (0); } LOCAL int scgo_open(scgp, device) SCSI *scgp; char *device; { int busno = scg_scsibus(scgp); int tgt = scg_target(scgp); int tlun = scg_lun(scgp); if (busno >= MAX_SCG || tgt >= MAX_TGT || tlun >= MAX_LUN) { errno = EINVAL; if (scgp->errstr) js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE, "Illegal value for busno, target or lun '%d,%d,%d'", busno, tgt, tlun); return (-1); } if ((device != NULL && *device != '\0') || (busno == -2 && tgt == -2)) { errno = EINVAL; if (scgp->errstr) js_snprintf(scgp->errstr, SCSI_ERRSTR_SIZE, "Open by 'devname' not supported on this OS"); return (-1); } if (scgp->local == NULL) { scgp->local = malloc(sizeof (struct scg_local)); if (scgp->local == NULL) return (0); } if (!open_driver(scgp)) /* Try to open ASPI-Router */ return (-1); atexit(exit_func); /* Install Exit Function which closes the ASPI-Router */ /* * Success after all */ return (1); } LOCAL int scgo_close(scgp) SCSI *scgp; { exit_func(); return (0); } LOCAL long scgo_maxdma(scgp, amt) SCSI *scgp; long amt; { long maxdma = MAX_DMA_OS2; return (maxdma); } LOCAL void * scgo_getbuf(scgp, amt) SCSI *scgp; long amt; { ULONG rc; #ifdef DEBUG js_fprintf((FILE *)scgp->errfile, "scgo_getbuf: %ld bytes\n", amt); #endif rc = DosAllocMem(&buffer, amt, OBJ_TILE | PAG_READ | PAG_WRITE | PAG_COMMIT); if (rc) { js_fprintf((FILE *)scgp->errfile, "Cannot allocate buffer.\n"); return ((void *)0); } scgp->bufbase = buffer; #ifdef DEBUG js_fprintf((FILE *)scgp->errfile, "Buffer allocated at: 0x%x\n", scgp->bufbase); #endif /* Lock memory */ if (init_buffer(scgp->bufbase)) return (scgp->bufbase); js_fprintf((FILE *)scgp->errfile, "Cannot lock memory buffer.\n"); return ((void *)0); /* Error */ } LOCAL void scgo_freebuf(scgp) SCSI *scgp; { if (scgp->bufbase && DosFreeMem(scgp->bufbase)) { js_fprintf((FILE *)scgp->errfile, "Cannot free buffer memory for ASPI-Router!\n"); /* Free our memory buffer if not already done */ } if (buffer == scgp->bufbase) buffer = NULL; scgp->bufbase = NULL; } LOCAL int scgo_numbus(scgp) SCSI *scgp; { return (MAX_SCG); } LOCAL BOOL scgo_havebus(scgp, busno) SCSI *scgp; int busno; { register int t; register int l; if (busno < 0 || busno >= MAX_SCG) return (FALSE); return (TRUE); } LOCAL int scgo_fileno(scgp, busno, tgt, tlun) SCSI *scgp; int busno; int tgt; int tlun; { if (busno < 0 || busno >= MAX_SCG || tgt < 0 || tgt >= MAX_TGT || tlun < 0 || tlun >= MAX_LUN) return (-1); /* * Return fake */ return (1); } LOCAL int scgo_initiator_id(scgp) SCSI *scgp; { return (-1); } LOCAL int scgo_isatapi(scgp) SCSI *scgp; { return (FALSE); } LOCAL int scgo_reset(scgp, what) SCSI *scgp; int what; { ULONG rc; /* return value */ ULONG cbreturn; ULONG cbParam; BOOL success; static SRB SRBlock; /* XXX makes it non reentrant */ if (what == SCG_RESET_NOP) return (0); if (what != SCG_RESET_BUS) { errno = EINVAL; return (-1); } /* * XXX Does this reset TGT or BUS ??? */ SRBlock.cmd = SRB_Reset; /* reset device */ SRBlock.ha_num = scg_scsibus(scgp); /* host adapter number */ SRBlock.flags = SRB_Post; /* posting enabled */ SRBlock.u.res.target = scg_target(scgp); /* target id */ SRBlock.u.res.lun = scg_lun(scgp); /* target LUN */ rc = DosDevIOCtl(driver_handle, 0x92, 0x02, (void*) &SRBlock, sizeof (SRB), &cbParam, (void*) &SRBlock, sizeof (SRB), &cbreturn); if (rc) { js_fprintf((FILE *)scgp->errfile, "DosDevIOCtl() failed in resetDevice.\n"); return (1); /* DosDevIOCtl failed */ } else { success = wait_post(40000); /** wait for SRB being processed */ if (success) return (2); } if (SRBlock.status != SRB_Done) return (3); #ifdef DEBUG js_fprintf((FILE *)scgp->errfile, "resetDevice of host: %d target: %d lun: %d successful.\n", scg_scsibus(scgp), scg_target(scgp), scg_lun(scgp)); js_fprintf((FILE *)scgp->errfile, "SRBlock.ha_status: 0x%x, SRBlock.target_status: 0x%x, SRBlock.satus: 0x%x\n", SRBlock.u.cmd.ha_status, SRBlock.u.cmd.target_status, SRBlock.status); #endif return (0); } /* * Set error flags */ LOCAL void set_error(srb, sp) SRB *srb; struct scg_cmd *sp; { switch (srb->status) { case SRB_InvalidCmd: /* 0x80 Invalid SCSI request */ case SRB_InvalidHA: /* 0x81 Invalid host adapter number */ case SRB_BadDevice: /* 0x82 SCSI device not installed */ sp->error = SCG_FATAL; sp->ux_errno = EINVAL; /* Should we ever return != EIO */ sp->ux_errno = EIO; break; case SRB_Busy: /* 0x00 SCSI request in progress */ case SRB_Aborted: /* 0x02 SCSI aborted by host */ case SRB_BadAbort: /* 0x03 Unable to abort SCSI request */ case SRB_Error: /* 0x04 SCSI request completed with error */ default: sp->error = SCG_RETRYABLE; sp->ux_errno = EIO; break; } } LOCAL int scgo_send(scgp) SCSI *scgp; { struct scg_cmd *sp = scgp->scmd; ULONG rc; /* return value */ static SRB SRBlock; /* XXX makes it non reentrant */ Ulong cbreturn; Ulong cbParam; UCHAR* ptr; if (scgp->fd < 0) { /* Set in scgo_open() */ sp->error = SCG_FATAL; return (0); } if (sp->cdb_len > sizeof (SRBlock.u.cmd.cdb_st)) { /* commandsize too big */ sp->error = SCG_FATAL; sp->ux_errno = EINVAL; js_fprintf((FILE *)scgp->errfile, "sp->cdb_len > SRBlock.u.cmd.cdb_st. Fatal error in scgo_send, exiting...\n"); return (-1); } /* clear command block */ fillbytes((caddr_t)&SRBlock.u.cmd.cdb_st, sizeof (SRBlock.u.cmd.cdb_st), '\0'); /* copy cdrecord command into SRB */ movebytes(&sp->cdb, &SRBlock.u.cmd.cdb_st, sp->cdb_len); /* Build SRB command block */ SRBlock.cmd = SRB_Command; SRBlock.ha_num = scg_scsibus(scgp); /* host adapter number */ SRBlock.flags = SRB_Post; /* flags */ SRBlock.u.cmd.target = scg_target(scgp); /* Target SCSI ID */ SRBlock.u.cmd.lun = scg_lun(scgp); /* Target SCSI LUN */ SRBlock.u.cmd.data_len = sp->size; /* # of bytes transferred */ SRBlock.u.cmd.data_ptr = 0; /* pointer to data buffer */ SRBlock.u.cmd.sense_len = sp->sense_len; /* length of sense buffer */ SRBlock.u.cmd.link_ptr = 0; /* pointer to next SRB */ SRBlock.u.cmd.cdb_len = sp->cdb_len; /* SCSI command length */ /* Specify direction */ if (sp->flags & SCG_RECV_DATA) { SRBlock.flags |= SRB_Read; } else { if (sp->size > 0) { SRBlock.flags |= SRB_Write; if (scgp->bufbase != sp->addr) { /* Copy only if data not in ASPI-Mem */ movebytes(sp->addr, scgp->bufbase, sp->size); } } else { SRBlock.flags |= SRB_NoTransfer; } } sp->error = SCG_NO_ERROR; sp->sense_count = 0; sp->u_scb.cmd_scb[0] = 0; sp->resid = 0; /* execute SCSI command */ rc = DosDevIOCtl(driver_handle, 0x92, 0x02, (void*) &SRBlock, sizeof (SRB), &cbParam, (void*) &SRBlock, sizeof (SRB), &cbreturn); if (rc) { /* An error occured */ js_fprintf((FILE *)scgp->errfile, "DosDevIOCtl() in sendCommand failed.\n"); sp->error = SCG_FATAL; sp->ux_errno = EIO; /* Später vielleicht errno einsetzen */ return (rc); } else { /* Wait until the command is processed */ rc = wait_post(sp->timeout*1000); if (rc) { /* An error occured */ if (rc == 640) { /* Timeout */ sp->error = SCG_TIMEOUT; sp->ux_errno = EIO; js_fprintf((FILE *)scgp->errfile, "Timeout during SCSI-Command.\n"); return (1); } sp->error = SCG_FATAL; sp->ux_errno = EIO; js_fprintf((FILE *)scgp->errfile, "Fatal Error during DosWaitEventSem().\n"); return (1); } /* The command is processed */ if (SRBlock.status == SRB_Done) { /* succesful completion */ #ifdef DEBUG js_fprintf((FILE *)scgp->errfile, "Command successful finished. SRBlock.status=0x%x\n\n", SRBlock.status); #endif sp->sense_count = 0; sp->resid = 0; if (sp->flags & SCG_RECV_DATA) { /* We read data */ if (sp->addr && sp->size) { if (scgp->bufbase != sp->addr) /* Copy only if data not in ASPI-Mem */ movebytes(scgp->bufbase, sp->addr, SRBlock.u.cmd.data_len); ptr = (UCHAR*)sp->addr; sp->resid = sp->size - SRBlock.u.cmd.data_len; /*nicht übertragene bytes. Korrekt berechnet???*/ } } /* end of if (sp->flags & SCG_RECV_DATA) */ if (SRBlock.u.cmd.target_status == SRB_CheckStatus) { /* Sense data valid */ sp->sense_count = (int)SRBlock.u.cmd.sense_len; if (sp->sense_count > sp->sense_len) sp->sense_count = sp->sense_len; ptr = (UCHAR*)&SRBlock.u.cmd.cdb_st; ptr += SRBlock.u.cmd.cdb_len; fillbytes(&sp->u_sense.Sense, sizeof (sp->u_sense.Sense), '\0'); movebytes(ptr, &sp->u_sense.Sense, sp->sense_len); sp->u_scb.cmd_scb[0] = SRBlock.u.cmd.target_status; sp->ux_errno = EIO; /* Später differenzieren? */ } return (0); } /* SCSI-Error occured */ set_error(&SRBlock, sp); if (SRBlock.u.cmd.target_status == SRB_CheckStatus) { /* Sense data valid */ sp->sense_count = (int)SRBlock.u.cmd.sense_len; if (sp->sense_count > sp->sense_len) sp->sense_count = sp->sense_len; ptr = (UCHAR*)&SRBlock.u.cmd.cdb_st; ptr += SRBlock.u.cmd.cdb_len; fillbytes(&sp->u_sense.Sense, sizeof (sp->u_sense.Sense), '\0'); movebytes(ptr, &sp->u_sense.Sense, sp->sense_len); sp->u_scb.cmd_scb[0] = SRBlock.u.cmd.target_status; } if (sp->flags & SCG_RECV_DATA) { if (sp->addr && sp->size) { if (scgp->bufbase != sp->addr) /* Copy only if data not in ASPI-Mem */ movebytes(scgp->bufbase, sp->addr, SRBlock.u.cmd.data_len); } } #ifdef really sp->resid = SRBlock.u.cmd.data_len; /* XXXXX Got no Data ????? */ #else sp->resid = sp->size - SRBlock.u.cmd.data_len; #endif return (1); } } /*************************************************************************** * * * BOOL open_driver() * * * * Opens the ASPI Router device driver and sets device_handle. * * Returns: * * TRUE - Success * * FALSE - Unsuccessful opening of device driver * * * * Preconditions: ASPI Router driver has be loaded * * * ***************************************************************************/ LOCAL BOOL open_driver(scgp) SCSI *scgp; { ULONG rc; /* return value */ ULONG ActionTaken; /* return value */ USHORT openSemaReturn; /* return value */ ULONG cbreturn; ULONG cbParam; if (driver_handle) /* ASPI-Router already opened */ return (TRUE); rc = DosOpen((PSZ) "aspirou$", /* open driver*/ &driver_handle, &ActionTaken, 0, 0, FILE_OPEN, OPEN_SHARE_DENYREADWRITE | OPEN_ACCESS_READWRITE, NULL); if (rc) { js_fprintf((FILE *)scgp->errfile, "Cannot open ASPI-Router!\n"); return (FALSE); /* opening failed -> return false*/ } /* Init semaphore */ if (DosCreateEventSem(NULL, &postSema, /* create event semaphore */ DC_SEM_SHARED, 0)) { DosClose(driver_handle); js_fprintf((FILE *)scgp->errfile, "Cannot create event semaphore!\n"); return (FALSE); } rc = DosDevIOCtl(driver_handle, 0x92, 0x03, /* pass semaphore handle */ (void*) &postSema, sizeof (HEV), /* to driver */ &cbParam, (void*) &openSemaReturn, sizeof (USHORT), &cbreturn); if (rc||openSemaReturn) { /* Error */ DosCloseEventSem(postSema); DosClose(driver_handle); return (FALSE); } return (TRUE); } /*************************************************************************** * * * BOOL close_driver() * * * * Closes the device driver * * Returns: * * TRUE - Success * * FALSE - Unsuccessful closing of device driver * * * * Preconditions: ASPI Router driver has be opened with open_driver * * * ***************************************************************************/ LOCAL BOOL close_driver() { ULONG rc; /* return value */ if (driver_handle) { rc = DosClose(driver_handle); if (rc) return (FALSE); /* closing failed -> return false */ driver_handle = 0; if (DosCloseEventSem(postSema)) js_fprintf(stderr, "Cannot close event semaphore!\n"); if (buffer && DosFreeMem(buffer)) { js_fprintf(stderr, "Cannot free buffer memory for ASPI-Router!\n"); /* Free our memory buffer if not already done */ } buffer = NULL; } return (TRUE); } LOCAL ULONG wait_post(ULONG ulTimeOut) { ULONG count = 0; ULONG rc; /* return value */ /* rc = DosWaitEventSem(postSema, -1);*/ /* wait forever*/ rc = DosWaitEventSem(postSema, ulTimeOut); DosResetEventSem(postSema, &count); return (rc); } LOCAL BOOL init_buffer(mem) void *mem; { ULONG rc; /* return value */ USHORT lockSegmentReturn; /* return value */ Ulong cbreturn; Ulong cbParam; rc = DosDevIOCtl(driver_handle, 0x92, 0x04, /* pass buffers pointer */ (void*) mem, sizeof (void*), /* to driver */ &cbParam, (void*) &lockSegmentReturn, sizeof (USHORT), &cbreturn); if (rc) return (FALSE); /* DosDevIOCtl failed */ if (lockSegmentReturn) return (FALSE); /* Driver could not lock segment */ return (TRUE); } #define sense u_sense.Sense