/* $OpenBSD: atapiscsi.c,v 1.24 2000/01/12 17:14:02 csapuntz Exp $ */ /* * This code is derived from code with the copyright below. */ /* * Copyright (c) 1996, 1998 Manuel Bouyer. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. All advertising materials mentioning features or use of this software * must display the following acknowledgement: * This product includes software developed by Manuel Bouyer. * 4. Neither the name of the University nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define DEBUG_INTR 0x01 #define DEBUG_XFERS 0x02 #define DEBUG_STATUS 0x04 #define DEBUG_FUNCS 0x08 #define DEBUG_PROBE 0x10 #define DEBUG_DSC 0x20 #define DEBUG_POLL 0x40 #define DEBUG_ERRORS 0x80 /* Debug error handling code */ #ifdef WDCDEBUG int wdcdebug_atapi_mask = 0; #define WDCDEBUG_PRINT(args, level) \ if (wdcdebug_atapi_mask & (level)) \ printf args #else #define WDCDEBUG_PRINT(args, level) #endif /* 10 ms, this is used only before sending a cmd. */ #define ATAPI_DELAY 10 #define ATAPI_RESET_WAIT 2000 #define ATAPI_CTRL_WAIT 4000 /* When polling, let the exponential backoff max out at 1 second's interval. */ #define ATAPI_POLL_MAXTIC (hz) void wdc_atapi_minphys __P((struct buf *bp)); void wdc_atapi_start __P((struct channel_softc *,struct wdc_xfer *)); void wdc_atapi_timer_handler __P((void *)); int wdc_atapi_real_start __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_real_start_2 __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_intr_command __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_intr_data __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_intr_complete __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_intr_for_us __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_send_packet __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_dma_flags __P((struct wdc_xfer *)); int wdc_atapi_ctrl __P((struct channel_softc *, struct wdc_xfer *, int)); char *wdc_atapi_in_data_phase __P((struct wdc_xfer *, int, int)); int wdc_atapi_intr __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_done __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_reset __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_reset_2 __P((struct channel_softc *, struct wdc_xfer *, int)); int wdc_atapi_send_cmd __P((struct scsi_xfer *sc_xfer)); int wdc_atapi_tape_done __P((struct channel_softc *, struct wdc_xfer *, int)); #define MAX_SIZE MAXPHYS struct atapiscsi_softc; struct atapiscsi_xfer; int atapiscsi_match __P((struct device *, void *, void *)); void atapiscsi_attach __P((struct device *, struct device *, void *)); int wdc_atapi_get_params __P((struct channel_softc *, u_int8_t, struct ataparams *)); int atapi_dsc_wait __P((struct ata_drive_datas *, int)); int atapi_dsc_ready __P((void *)); void atapi_dsc_check __P((void *)); int atapi_dsc_semiready __P((void *)); int atapi_poll_wait __P((int (*) __P((void *)), void *, int, int, char *)); int atapi_to_scsi_sense __P((struct scsi_xfer *, u_int8_t)); struct atapiscsi_softc { struct device sc_dev; struct scsi_link sc_adapterlink; struct channel_softc *chp; enum atapi_state { as_none, as_cmdout, as_data, as_completed }; enum atapi_state protocol_phase; int retries; int diagnostics_printed; #define ATAPI_DIAG_UNEXP_CMD 0x01 #define ATAPI_DIAG_POLARITY 0x02 }; static struct scsi_adapter atapiscsi_switch = { wdc_atapi_send_cmd, wdc_atapi_minphys, NULL, NULL, }; static struct scsi_device atapiscsi_dev = { NULL, NULL, NULL, NULL, }; /* Inital version shares bus_link structure so it can easily be "attached to current" wdc driver */ struct cfattach atapiscsi_ca = { sizeof(struct atapiscsi_softc), atapiscsi_match, atapiscsi_attach }; struct cfdriver atapiscsi_cd = { NULL, "atapiscsi", DV_DULL }; int atapiscsi_match(parent, match, aux) struct device *parent; void *match, *aux; { struct ata_atapi_attach *aa_link = aux; struct cfdata *cf = match; if (aa_link == NULL) return (0); if (aa_link->aa_type != T_ATAPI) return (0); if (cf->cf_loc[0] != aa_link->aa_channel && cf->cf_loc[0] != -1) return (0); return (1); } void atapiscsi_attach(parent, self, aux) struct device *parent, *self; void *aux; { struct atapiscsi_softc *as = (struct atapiscsi_softc *)self; struct ata_atapi_attach *aa_link = aux; struct channel_softc *chp = aa_link->aa_bus_private; struct ataparams ids; struct ataparams *id = &ids; int drive; printf("\n"); as->chp = chp; as->sc_adapterlink.adapter_softc = as; as->sc_adapterlink.adapter_target = 7; as->sc_adapterlink.adapter_buswidth = 2; as->sc_adapterlink.adapter = &atapiscsi_switch; as->sc_adapterlink.device = &atapiscsi_dev; as->sc_adapterlink.openings = 1; as->sc_adapterlink.flags = SDEV_ATAPI; as->sc_adapterlink.quirks = SDEV_NOLUNS; for (drive = 0; drive < 2 ; drive++ ) { struct ata_drive_datas *drvp = &chp->ch_drive[drive]; if ((drvp->drive_flags & DRIVE_ATAPI) && (wdc_atapi_get_params(chp, drive, id) == COMPLETE)) { /* Temporarily, the device will be called atapiscsi. */ drvp->drv_softc = (struct device*)as; wdc_probe_caps(drvp, id); WDCDEBUG_PRINT( ("general config %04x capabilities %04x ", id->atap_config, id->atap_capabilities1), DEBUG_PROBE); /* Tape drives do funny DSC stuff */ if (ATAPI_CFG_TYPE(id->atap_config) == ATAPI_CFG_TYPE_SEQUENTIAL) drvp->atapi_cap |= ACAP_DSC; if ((id->atap_config & ATAPI_CFG_CMD_MASK) == ATAPI_CFG_CMD_16) drvp->atapi_cap |= ACAP_LEN; drvp->atapi_cap |= (id->atap_config & ATAPI_CFG_DRQ_MASK); WDCDEBUG_PRINT(("driver caps %04x\n", drvp->atapi_cap), DEBUG_PROBE); } else drvp->drive_flags &= ~DRIVE_ATAPI; } as->sc_adapterlink.scsibus = (u_int8_t)-1; config_found((struct device *)as, &as->sc_adapterlink, scsiprint); if (as->sc_adapterlink.scsibus != (u_int8_t)-1) { int bus = as->sc_adapterlink.scsibus; for (drive = 0; drive < 2; drive++) { extern struct cfdriver scsibus_cd; struct scsibus_softc *scsi = scsibus_cd.cd_devs[bus]; struct scsi_link *link = scsi->sc_link[drive][0]; struct ata_drive_datas *drvp = &chp->ch_drive[drive]; if (drvp->drv_softc == (struct device *)as && link) { drvp->drv_softc = link->device_softc; wdc_print_caps(drvp); } } } } void wdc_atapibus_attach(chp) struct channel_softc *chp; { struct wdc_softc *wdc = chp->wdc; int channel = chp->channel; struct ata_atapi_attach aa_link; /* * Fill in the adapter. */ bzero(&aa_link, sizeof(struct ata_atapi_attach)); aa_link.aa_type = T_ATAPI; aa_link.aa_channel = channel; aa_link.aa_openings = 1; aa_link.aa_drv_data = NULL; aa_link.aa_bus_private = chp; (void)config_found(&wdc->sc_dev, (void *)&aa_link, atapi_print); } void wdc_atapi_minphys (struct buf *bp) { if(bp->b_bcount > MAX_SIZE) bp->b_bcount = MAX_SIZE; minphys(bp); } int wdc_atapi_get_params(chp, drive, id) struct channel_softc *chp; u_int8_t drive; struct ataparams *id; { struct ata_drive_datas *drvp = &chp->ch_drive[drive]; struct wdc_command wdc_c; int retries = 3; /* if no ATAPI device detected at wdc attach time, skip */ /* * XXX this will break scsireprobe if this is of any interest for * ATAPI devices one day. */ if ((drvp->drive_flags & DRIVE_ATAPI) == 0) { WDCDEBUG_PRINT(("wdc_atapi_get_params: drive %d not present\n", drive), DEBUG_PROBE); return (-1); } bzero(&wdc_c, sizeof(struct wdc_command)); wdc_c.r_command = ATAPI_SOFT_RESET; wdc_c.r_st_bmask = 0; wdc_c.r_st_pmask = 0; wdc_c.flags = AT_POLL; wdc_c.timeout = ATAPI_RESET_WAIT; if (wdc_exec_command(drvp, &wdc_c) != WDC_COMPLETE) { printf("wdc_atapi_get_params: ATAPI_SOFT_RESET failed for" " drive %s:%d:%d: driver failed\n", chp->wdc->sc_dev.dv_xname, chp->channel, drive); panic("wdc_atapi_get_params"); } if (wdc_c.flags & (AT_ERROR | AT_TIMEOU | AT_DF)) { WDCDEBUG_PRINT(("wdc_atapi_get_params: ATAPI_SOFT_RESET " "failed for drive %s:%d:%d: error 0x%x\n", chp->wdc->sc_dev.dv_xname, chp->channel, drive, wdc_c.r_error), DEBUG_PROBE); return (-1); } drvp->state = 0; CHP_READ_REG(chp, wdr_status); /* Some ATAPI devices need a bit more time after software reset. */ delay(5000); retry: if (ata_get_params(drvp, AT_POLL, id) != 0) { WDCDEBUG_PRINT(("wdc_atapi_get_params: ATAPI_IDENTIFY_DEVICE " "failed for drive %s:%d:%d\n", chp->wdc->sc_dev.dv_xname, chp->channel, drive), DEBUG_PROBE); if (retries--) { delay(100000); goto retry; } return (-1); } return (COMPLETE); } int wdc_atapi_send_cmd(sc_xfer) struct scsi_xfer *sc_xfer; { struct atapiscsi_softc *as = sc_xfer->sc_link->adapter_softc; int drive = sc_xfer->sc_link->target; struct channel_softc *chp = as->chp; struct ata_drive_datas *drvp = &chp->ch_drive[drive]; struct wdc_xfer *xfer; int flags = sc_xfer->flags; int s, ret; WDCDEBUG_PRINT(("wdc_atapi_send_cmd %s:%d:%d\n", chp->wdc->sc_dev.dv_xname, chp->channel, drive), DEBUG_XFERS); if (drive > 1 || !(drvp->drive_flags & DRIVE_ATAPI)) { sc_xfer->error = XS_DRIVER_STUFFUP; return (COMPLETE); } xfer = wdc_get_xfer(flags & SCSI_NOSLEEP ? WDC_NOSLEEP : WDC_CANSLEEP); if (xfer == NULL) { return (TRY_AGAIN_LATER); } if (sc_xfer->flags & SCSI_POLL) xfer->c_flags |= C_POLL; xfer->drive = drive; xfer->c_flags |= C_ATAPI; xfer->cmd = sc_xfer; xfer->databuf = sc_xfer->data; xfer->c_bcount = sc_xfer->datalen; xfer->c_start = wdc_atapi_start; xfer->c_intr = wdc_atapi_intr; s = splbio(); if (drvp->atapi_cap & ACAP_DSC) { WDCDEBUG_PRINT(("about to send cmd %x ", sc_xfer->cmd->opcode), DEBUG_DSC); switch (sc_xfer->cmd->opcode) { case READ: case WRITE: xfer->c_flags |= C_MEDIA_ACCESS; /* If we are not in buffer availability mode, we limit the first request to 0 bytes, which gets us into buffer availability mode without holding the bus. */ if (!(drvp->drive_flags & DRIVE_DSCBA)) { xfer->c_bcount = 0; xfer->transfer_len = _3btol(((struct scsi_rw_tape *) sc_xfer->cmd)->len); _lto3b(0, ((struct scsi_rw_tape *) sc_xfer->cmd)->len); xfer->c_done = wdc_atapi_tape_done; WDCDEBUG_PRINT( ("R/W in completion mode, do 0 blocks\n"), DEBUG_DSC); } else WDCDEBUG_PRINT(("R/W %d blocks %d bytes\n", _3btol(((struct scsi_rw_tape *) sc_xfer->cmd)->len), sc_xfer->datalen), DEBUG_DSC); /* DSC will change to buffer availability mode. We reflect this in wdc_atapi_intr. */ break; case ERASE: /* Media access commands */ case LOAD: case REWIND: case SPACE: case WRITE_FILEMARKS: #if 0 case LOCATE: case READ_POSITION: #endif xfer->c_flags |= C_MEDIA_ACCESS; break; default: WDCDEBUG_PRINT(("no media access\n"), DEBUG_DSC); } } wdc_exec_xfer(chp, xfer); #ifdef DIAGNOSTIC if ((xfer->c_flags & C_POLL) != 0 && (sc_xfer->flags & ITSDONE) == 0) panic("wdc_atapi_send_cmd: polled command not done"); #endif ret = (sc_xfer->flags & ITSDONE) ? COMPLETE : SUCCESSFULLY_QUEUED; splx(s); return (ret); } /* * Returns 1 if we experienced an ATA-level abort command * (ABRT bit set but no additional sense) * 0 if normal command processing */ int atapi_to_scsi_sense(xfer, flags) struct scsi_xfer *xfer; u_int8_t flags; { struct scsi_sense_data *sense = &xfer->sense; int ret = 0; xfer->error = XS_SHORTSENSE; sense->error_code = SSD_ERRCODE_VALID | 0x70; sense->flags = (flags >> 4); WDCDEBUG_PRINT(("Atapi error: %d ", (flags >> 4)), DEBUG_ERRORS); if ((flags & 4) && (sense->flags == 0)) { sense->flags = SKEY_ABORTED_COMMAND; WDCDEBUG_PRINT(("ABRT "), DEBUG_ERRORS); ret = 1; } if (flags & 0x1) { sense->flags |= SSD_ILI; WDCDEBUG_PRINT(("ILI "), DEBUG_ERRORS); } if (flags & 0x2) { sense->flags |= SSD_EOM; WDCDEBUG_PRINT(("EOM "), DEBUG_ERRORS); } /* Media change requested */ /* Let's ignore these in version 1 */ if (flags & 0x8) { WDCDEBUG_PRINT(("MCR "), DEBUG_ERRORS); if (sense->flags == 0) xfer->error = XS_NOERROR; } WDCDEBUG_PRINT(("\n"), DEBUG_ERRORS); return (ret); } int wdc_atapi_drive_selected __P((struct channel_softc *, int)); int wdc_atapi_drive_selected(chp, drive) struct channel_softc *chp; int drive; { u_int8_t reg = CHP_READ_REG(chp, wdr_sdh); return ((reg & 0x10) == (drive << 4)); } enum atapi_context { ctxt_process = 0, ctxt_timer = 1, ctxt_interrupt = 2 }; int wdc_atapi_the_machine __P((struct channel_softc *, struct wdc_xfer *, enum atapi_context)); int wdc_atapi_the_poll_machine __P((struct channel_softc *, struct wdc_xfer *)); void wdc_atapi_start(chp, xfer) struct channel_softc *chp; struct wdc_xfer *xfer; { xfer->next = wdc_atapi_real_start; wdc_atapi_the_machine(chp, xfer, ctxt_process); } void wdc_atapi_timer_handler(arg) void *arg; { struct wdc_xfer *xfer = arg; struct channel_softc *chp = xfer->chp; int s; xfer->c_flags &= ~C_POLL_MACHINE; /* There is a race here between us and the interrupt */ s = splbio(); wdc_atapi_the_machine(chp, xfer, ctxt_timer); splx(s); } int wdc_atapi_intr(chp, xfer, irq) struct channel_softc *chp; struct wdc_xfer *xfer; int irq; { /* XXX we should consider an alternate signaling regime here */ if (xfer->c_flags & C_TIMEOU) { xfer->c_flags &= ~C_TIMEOU; return (wdc_atapi_the_machine(chp, xfer, ctxt_timer)); } return (wdc_atapi_the_machine(chp, xfer, ctxt_interrupt)); } #define CONTINUE_POLL 0 #define GOTO_NEXT 1 #define DONE 2 int wdc_atapi_the_poll_machine(chp, xfer) struct channel_softc *chp; struct wdc_xfer *xfer; { int idx = 0, ret; int current_timeout = 10; xfer->timeout = -1; while (1) { idx++; xfer->timeout = -1; xfer->delay = 0; xfer->expect_irq = 0; ret = (xfer->next)(chp, xfer, (current_timeout * 1000 <= idx)); if (xfer->timeout != -1) { current_timeout = xfer->timeout; idx = 0; } if (xfer->delay != 0) { delay (1000 * xfer->delay); idx += 1000 * xfer->delay; } switch (ret) { case GOTO_NEXT: break; case CONTINUE_POLL: DELAY(1); break; case DONE: wdc_free_xfer(chp, xfer); wdcstart(chp); return (0); } } } int wdc_atapi_the_machine(chp, xfer, ctxt) struct channel_softc *chp; struct wdc_xfer *xfer; enum atapi_context ctxt; { int idx = 0, ret; int claim_irq = 0; extern int ticks; int timeout_delay = hz / 10; if (xfer->c_flags & C_POLL) { if (ctxt != ctxt_process) return (0); wdc_atapi_the_poll_machine(chp, xfer); return (0); } do_op: idx++; xfer->timeout = -1; xfer->claim_irq = 0; xfer->delay = 0; ret = (xfer->next)(chp, xfer, xfer->endticks && (ticks - xfer->endticks >= 0)); if (xfer->timeout != -1) xfer->endticks = max((xfer->timeout * 1000) / hz, 1) + ticks; if (xfer->claim_irq) claim_irq = xfer->claim_irq; if (xfer->delay) timeout_delay = max(xfer->delay * hz / 1000, 1); switch (ret) { case GOTO_NEXT: if (xfer->expect_irq) { chp->ch_flags |= WDCF_IRQ_WAIT; xfer->expect_irq = 0; timeout(wdctimeout, chp, xfer->endticks - ticks); return (claim_irq); } if (xfer->delay) break; goto do_op; case CONTINUE_POLL: if (xfer->delay) break; if (idx >= 50) break; DELAY(1); goto do_op; case DONE: if (xfer->c_flags & C_POLL_MACHINE) untimeout (wdc_atapi_timer_handler, xfer); wdc_free_xfer(chp, xfer); wdcstart(chp); return (claim_irq); } timeout(wdc_atapi_timer_handler, xfer, timeout_delay); xfer->c_flags |= C_POLL_MACHINE; return (claim_irq); } void wdc_atapi_update_status __P((struct channel_softc *)); void wdc_atapi_update_status(chp) struct channel_softc *chp; { chp->ch_status = CHP_READ_REG(chp, wdr_status); if (chp->ch_status == 0xff && (chp->ch_flags & WDCF_ONESLAVE)) { CHP_WRITE_REG(chp, wdr_sdh, WDSD_IBM | 0x10); chp->ch_status = CHP_READ_REG(chp, wdr_status); } if ((chp->ch_status & (WDCS_BSY | WDCS_ERR)) == WDCS_ERR) chp->ch_error = CHP_READ_REG(chp, wdr_error); } int wdc_atapi_real_start(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { #ifdef WDCDEBUG struct scsi_xfer *sc_xfer = xfer->cmd; #endif struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; WDCDEBUG_PRINT(("wdc_atapi_start %s:%d:%d, scsi flags 0x%x\n", chp->wdc->sc_dev.dv_xname, chp->channel, drvp->drive, sc_xfer->flags), DEBUG_XFERS); /* Adjust C_DMA, it may have changed if we are requesting sense */ if (!(xfer->c_flags & C_POLL) && (drvp->drive_flags & (DRIVE_DMA | DRIVE_UDMA)) && (xfer->c_bcount > 0 || (xfer->c_flags & C_SENSE))) xfer->c_flags |= C_DMA; else xfer->c_flags &= ~C_DMA; CHP_WRITE_REG(chp, wdr_sdh, WDSD_IBM | (xfer->drive << 4)); DELAY(1); xfer->next = wdc_atapi_real_start_2; xfer->timeout = ATAPI_DELAY; return (GOTO_NEXT); } int wdc_atapi_real_start_2(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; if (timeout) { printf("wdc_atapi_start: not ready, st = %02x\n", chp->ch_status); sc_xfer->error = XS_TIMEOUT; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); } else { wdc_atapi_update_status(chp); if (chp->ch_status & WDCS_BSY) return (CONTINUE_POLL); } /* Do control operations specially. */ if (drvp->state < READY) { if (drvp->state != IDENTIFY) { printf("%s:%d:%d: bad state %d in wdc_atapi_start\n", chp->wdc->sc_dev.dv_xname, chp->channel, xfer->drive, drvp->state); panic("wdc_atapi_start: bad state"); } xfer->next = wdc_atapi_ctrl; return (GOTO_NEXT); } xfer->next = wdc_atapi_send_packet; return (GOTO_NEXT); } int wdc_atapi_send_packet(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; struct atapiscsi_softc *as = sc_xfer->sc_link->adapter_softc; /* * Even with WDCS_ERR, the device should accept a command packet * Limit length to what can be stuffed into the cylinder register * (16 bits). Some CD-ROMs seem to interpret '0' as 65536, * but not all devices do that and it's not obvious from the * ATAPI spec that that behaviour should be expected. If more * data is necessary, multiple data transfer phases will be done. */ wdccommand(chp, xfer->drive, ATAPI_PKT_CMD, xfer->c_bcount <= 0xfffe ? xfer->c_bcount : 0xfffe, 0, 0, 0, (xfer->c_flags & C_DMA) ? ATAPI_PKT_CMD_FTRE_DMA : 0); as->protocol_phase = as_cmdout; as->retries = 0; DELAY(1); xfer->next = wdc_atapi_intr_for_us; xfer->timeout = sc_xfer->timeout; if ((drvp->atapi_cap & ATAPI_CFG_DRQ_MASK) == ATAPI_CFG_IRQ_DRQ) { /* We expect an IRQ to tell us of the next state */ xfer->expect_irq = 1; } return (GOTO_NEXT); } int wdc_atapi_dma_flags(xfer) struct wdc_xfer *xfer; { struct scsi_xfer *sc_xfer = xfer->cmd; int dma_flags; dma_flags = ((sc_xfer->flags & SCSI_DATA_IN) || (xfer->c_flags & C_SENSE)) ? WDC_DMA_READ : 0; dma_flags |= (xfer->c_flags & C_POLL) ? WDC_DMA_POLL : 0; return (dma_flags); } int wdc_atapi_intr_command(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; struct atapiscsi_softc *as = sc_xfer->sc_link->adapter_softc; int i; u_int8_t cmd[16]; struct scsi_sense *cmd_reqsense; int cmdlen = (drvp->atapi_cap & ACAP_LEN) ? 16 : 12; int dma_flags; dma_flags = wdc_atapi_dma_flags(xfer); bzero(cmd, sizeof(cmd)); if (xfer->c_flags & C_SENSE) { cmd_reqsense = (struct scsi_sense *)&cmd[0]; cmd_reqsense->opcode = REQUEST_SENSE; cmd_reqsense->length = xfer->c_bcount; } else bcopy(sc_xfer->cmd, cmd, sc_xfer->cmdlen); for (i = 0; i < 12; i++) WDCDEBUG_PRINT(("%02x ", cmd[i]), DEBUG_INTR); WDCDEBUG_PRINT((": PHASE_CMDOUT\n"), DEBUG_INTR); /* Init the DMA channel if necessary */ if (xfer->c_flags & C_DMA) { if ((*chp->wdc->dma_init)(chp->wdc->dma_arg, chp->channel, xfer->drive, xfer->databuf, xfer->c_bcount, dma_flags) != 0) { sc_xfer->error = XS_DRIVER_STUFFUP; xfer->next = wdc_atapi_done; return (GOTO_NEXT); } } wdc_output_bytes(drvp, cmd, cmdlen); if (xfer->c_bcount == 0) as->protocol_phase = as_completed; else as->protocol_phase = as_data; /* Start the DMA channel if necessary */ if (xfer->c_flags & C_DMA) { (*chp->wdc->dma_start)(chp->wdc->dma_arg, chp->channel, xfer->drive, dma_flags); } xfer->expect_irq = 1; /* If we read/write to a tape we will get into buffer availability mode. */ if (drvp->atapi_cap & ACAP_DSC) { if ((sc_xfer->cmd->opcode == READ || sc_xfer->cmd->opcode == WRITE)) { drvp->drive_flags |= DRIVE_DSCBA; WDCDEBUG_PRINT(("set DSCBA\n"), DEBUG_DSC); } else if ((xfer->c_flags & C_MEDIA_ACCESS) && (drvp->drive_flags & DRIVE_DSCBA)) { /* Clause 3.2.4 of QIC-157 D. Any media access command other than read or write will switch DSC back to completion mode */ drvp->drive_flags &= ~DRIVE_DSCBA; WDCDEBUG_PRINT(("clear DCSBA\n"), DEBUG_DSC); } } return (GOTO_NEXT); } char * wdc_atapi_in_data_phase(xfer, len, ire) struct wdc_xfer *xfer; int len, ire; { struct scsi_xfer *sc_xfer = xfer->cmd; struct atapiscsi_softc *as = sc_xfer->sc_link->adapter_softc; char *message; if (as->protocol_phase != as_data) { message = "unexpected data phase"; goto unexpected_state; } if (ire & WDCI_CMD) { message = "unexpectedly in command phase"; goto unexpected_state; } if (!(xfer->c_flags & C_SENSE)) { if (!(sc_xfer->flags & (SCSI_DATA_IN | SCSI_DATA_OUT))) { message = "data phase where none expected"; goto unexpected_state; } /* Make sure polarities match */ if (((ire & WDCI_IN) == WDCI_IN) == ((sc_xfer->flags & SCSI_DATA_OUT) == SCSI_DATA_OUT)) { message = "data transfer direction disagreement"; goto unexpected_state; } } else { if (!(ire & WDCI_IN)) { message = "data transfer direction disagreement during sense"; goto unexpected_state; } } if (len == 0) { message = "zero length transfer requested in data phase"; goto unexpected_state; } return (0); unexpected_state: return (message); } int wdc_atapi_intr_data(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; int len, ire; char *message; len = (CHP_READ_REG(chp, wdr_cyl_hi) << 8) | CHP_READ_REG(chp, wdr_cyl_lo); ire = CHP_READ_REG(chp, wdr_ireason); if ((message = wdc_atapi_in_data_phase(xfer, len, ire))) { /* The drive has dropped BSY before setting up the registers correctly for DATA phase. This drive is not compliant with ATA/ATAPI-4. Give the drive 100ms to get its house in order before we try again. */ if (!timeout) { xfer->delay = 100; return (CONTINUE_POLL); } } if (timeout) { printf ("wdc_atapi_intr_data: error: %s\n", message); sc_xfer->error = XS_RESET; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); } if (xfer->c_bcount >= len) { WDCDEBUG_PRINT(("wdc_atapi_intr: c_bcount %d len %d " "st 0x%x err 0x%x " "ire 0x%x\n", xfer->c_bcount, len, chp->ch_status, chp->ch_error, ire), DEBUG_INTR); /* Common case */ if (sc_xfer->flags & SCSI_DATA_OUT) wdc_output_bytes(drvp, (u_int8_t *)xfer->databuf + xfer->c_skip, len); else wdc_input_bytes(drvp, (u_int8_t *)xfer->databuf + xfer->c_skip, len); xfer->c_skip += len; xfer->c_bcount -= len; } else { /* Exceptional case */ if (sc_xfer->flags & SCSI_DATA_OUT) { printf("wdc_atapi_intr: warning: write only " "%d of %d requested bytes\n", xfer->c_bcount, len); wdc_output_bytes(drvp, (u_int8_t *)xfer->databuf + xfer->c_skip, xfer->c_bcount); CHP_WRITE_RAW_MULTI_2(chp, NULL, len - xfer->c_bcount); } else { printf("wdc_atapi_intr: warning: reading only " "%d of %d bytes\n", xfer->c_bcount, len); wdc_input_bytes(drvp, (char *)xfer->databuf + xfer->c_skip, xfer->c_bcount); wdcbit_bucket(chp, len - xfer->c_bcount); } xfer->c_skip += xfer->c_bcount; xfer->c_bcount = 0; } xfer->expect_irq = 1; xfer->next = wdc_atapi_intr_for_us; return (GOTO_NEXT); } int wdc_atapi_intr_complete(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; struct atapiscsi_softc *as = sc_xfer->sc_link->adapter_softc; int dma_err = 0; int dma_flags = wdc_atapi_dma_flags(xfer); WDCDEBUG_PRINT(("PHASE_COMPLETED\n"), DEBUG_INTR); /* turn off DMA channel */ if (as->protocol_phase == as_data && xfer->c_flags & C_DMA) { dma_err = (*chp->wdc->dma_finish)(chp->wdc->dma_arg, chp->channel, xfer->drive, dma_flags); /* Assume everything was transferred */ xfer->c_bcount = 0; } as->protocol_phase = as_none; if (xfer->c_flags & C_SENSE) { if (chp->ch_status & WDCS_ERR) { if (chp->ch_error & WDCE_ABRT) { WDCDEBUG_PRINT(("wdc_atapi_intr: request_sense aborted, " "calling wdc_atapi_done()" ), DEBUG_INTR); xfer->next = wdc_atapi_done; return (GOTO_NEXT); } /* * request sense failed ! it's not suppossed * to be possible */ sc_xfer->error = XS_RESET; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); } else if (xfer->c_bcount < sizeof(sc_xfer->sense)) { /* use the sense we just read */ sc_xfer->error = XS_SENSE; } else { /* * command completed, but no data was read. * use the short sense we saved previsouly. */ sc_xfer->error = XS_SHORTSENSE; } } else { sc_xfer->resid = xfer->c_bcount; if (chp->ch_status & WDCS_ERR) { if (!atapi_to_scsi_sense(sc_xfer, chp->ch_error) && (sc_xfer->sc_link->quirks & ADEV_NOSENSE) == 0) { /* * let the driver issue a * 'request sense' */ xfer->databuf = &sc_xfer->sense; xfer->c_bcount = sizeof(sc_xfer->sense); xfer->c_skip = 0; xfer->c_done = NULL; xfer->c_flags |= C_SENSE; xfer->next = wdc_atapi_real_start; return (GOTO_NEXT); } } } if (dma_err < 0) { drvp->n_dmaerrs++; sc_xfer->error = XS_RESET; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); } if (xfer->c_bcount != 0) { WDCDEBUG_PRINT(("wdc_atapi_intr: bcount value is " "%d after io\n", xfer->c_bcount), DEBUG_XFERS); } #ifdef DIAGNOSTIC if (xfer->c_bcount < 0) { printf("wdc_atapi_intr warning: bcount value " "is %d after io\n", xfer->c_bcount); } #endif WDCDEBUG_PRINT(("wdc_atapi_intr: wdc_atapi_done() (end), error 0x%x " "\n", sc_xfer->error), DEBUG_INTR); if (xfer->c_done) xfer->next = xfer->c_done; else xfer->next = wdc_atapi_done; return (GOTO_NEXT); } int wdc_atapi_intr_for_us(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; struct atapiscsi_softc *as = sc_xfer->sc_link->adapter_softc; WDCDEBUG_PRINT(("ATAPI_INTR\n"), DEBUG_INTR); wdc_atapi_update_status(chp); if (timeout) { printf("%s:%d:%d: device timeout, c_bcount=%d, c_skip=%d\n", chp->wdc->sc_dev.dv_xname, chp->channel, xfer->drive, xfer->c_bcount, xfer->c_skip); if (xfer->c_flags & C_DMA) drvp->n_dmaerrs++; sc_xfer->error = XS_TIMEOUT; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); } if (chp->ch_status & WDCS_BSY) return (CONTINUE_POLL); if (!wdc_atapi_drive_selected(chp, xfer->drive)) { CHP_WRITE_REG(chp, wdr_sdh, WDSD_IBM | (xfer->drive << 4)); delay (1); return (CONTINUE_POLL); } if (as->protocol_phase != as_cmdout && (xfer->c_flags & C_MEDIA_ACCESS) && !(chp->ch_status & WDCS_DSC)) { xfer->delay = 100; return (CONTINUE_POLL); } xfer->claim_irq = 1; if (chp->ch_status & WDCS_DRQ) { if (as->protocol_phase == as_cmdout) return (wdc_atapi_intr_command(chp, xfer, timeout)); return (wdc_atapi_intr_data(chp, xfer, timeout)); } return (wdc_atapi_intr_complete(chp, xfer, timeout)); } int wdc_atapi_ctrl(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; char *errstring = NULL; switch (drvp->state) { case IDENTIFY: case IDENTIFY_WAIT: errstring = "IDENTIFY"; break; case PIOMODE: errstring = "Post IDENTIFY"; break; case PIOMODE_WAIT: errstring = "PIOMODE"; break; case DMAMODE_WAIT: errstring = "dmamode"; break; default: errstring = "unknown state"; break; } if (timeout) { if (drvp->state != IDENTIFY) goto timeout; else { #ifdef DIAGNOSTIC printf ("wdc_atapi_ctrl: timeout before IDENTIFY." "Should not happen\n"); #endif sc_xfer->error = XS_DRIVER_STUFFUP; xfer->next = wdc_atapi_done; return (GOTO_NEXT); } } wdc_atapi_update_status(chp); if (chp->ch_status & WDCS_BSY) return (CONTINUE_POLL); if (!wdc_atapi_drive_selected(chp, xfer->drive)) { CHP_WRITE_REG(chp, wdr_sdh, WDSD_IBM | (xfer->drive << 4)); delay (1); return (CONTINUE_POLL); } xfer->claim_irq = 1; WDCDEBUG_PRINT(("wdc_atapi_ctrl %s:%d:%d state %d\n", chp->wdc->sc_dev.dv_xname, chp->channel, drvp->drive, drvp->state), DEBUG_INTR | DEBUG_FUNCS); switch (drvp->state) { /* You need to send an ATAPI drive an ATAPI-specific command to revive it after a hard reset. Identify is about the most innocuous thing you can do that's guaranteed to be there */ case IDENTIFY: wdccommandshort(chp, drvp->drive, ATAPI_IDENTIFY_DEVICE); drvp->state = IDENTIFY_WAIT; xfer->timeout = ATAPI_CTRL_WAIT; xfer->expect_irq = 1; break; case IDENTIFY_WAIT: /* We don't really care if this operation failed. It's just there to wake the drive from its stupor. */ if (!(chp->ch_status & WDCS_ERR)) { wdcbit_bucket(chp, 512); xfer->timeout = 100; drvp->state = PIOMODE; break; } drvp->state = PIOMODE; case PIOMODE: piomode: /* Don't try to set mode if controller can't be adjusted */ if ((chp->wdc->cap & WDC_CAPABILITY_MODE) == 0) goto ready; /* Also don't try if the drive didn't report its mode */ if ((drvp->drive_flags & DRIVE_MODE) == 0) goto ready; wdccommand(chp, drvp->drive, SET_FEATURES, 0, 0, 0, 0x08 | drvp->PIO_mode, WDSF_SET_MODE); drvp->state = PIOMODE_WAIT; xfer->timeout = ATAPI_CTRL_WAIT; xfer->expect_irq = 1; break; case PIOMODE_WAIT: if (chp->ch_status & WDCS_ERR) { if (drvp->PIO_mode < 3) { drvp->PIO_mode = 3; goto piomode; } else { goto error; } } /* fall through */ case DMAMODE: if (drvp->drive_flags & DRIVE_UDMA) { wdccommand(chp, drvp->drive, SET_FEATURES, 0, 0, 0, 0x40 | drvp->UDMA_mode, WDSF_SET_MODE); } else if (drvp->drive_flags & DRIVE_DMA) { wdccommand(chp, drvp->drive, SET_FEATURES, 0, 0, 0, 0x20 | drvp->DMA_mode, WDSF_SET_MODE); } else { goto ready; } drvp->state = DMAMODE_WAIT; xfer->timeout = ATAPI_CTRL_WAIT; xfer->expect_irq = 1; break; case DMAMODE_WAIT: if (chp->ch_status & WDCS_ERR) drvp->drive_flags &= ~(DRIVE_DMA | DRIVE_UDMA); /* fall through */ case READY: ready: drvp->state = READY; xfer->next = wdc_atapi_real_start; break; } return (GOTO_NEXT); timeout: printf("%s:%d:%d: %s timed out\n", chp->wdc->sc_dev.dv_xname, chp->channel, xfer->drive, errstring); sc_xfer->error = XS_TIMEOUT; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); error: printf("%s:%d:%d: %s ", chp->wdc->sc_dev.dv_xname, chp->channel, xfer->drive, errstring); printf("error (0x%x)\n", chp->ch_error); sc_xfer->error = XS_DRIVER_STUFFUP; xfer->next = wdc_atapi_reset; return (GOTO_NEXT); } int wdc_atapi_tape_done(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; if (sc_xfer->error != XS_NOERROR) { xfer->next = wdc_atapi_done; return (GOTO_NEXT); } _lto3b(xfer->transfer_len, ((struct scsi_rw_tape *) sc_xfer->cmd)->len); xfer->c_bcount = sc_xfer->datalen; xfer->c_done = NULL; xfer->c_skip = 0; xfer->next = wdc_atapi_real_start; return (GOTO_NEXT); } int wdc_atapi_done(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct scsi_xfer *sc_xfer = xfer->cmd; int need_done = xfer->c_flags & C_NEEDDONE; struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; int doing_dma = xfer->c_flags & C_DMA; WDCDEBUG_PRINT(("wdc_atapi_done %s:%d:%d: flags 0x%x\n", chp->wdc->sc_dev.dv_xname, chp->channel, xfer->drive, (u_int)xfer->c_flags), DEBUG_XFERS); sc_xfer->flags |= ITSDONE; if (drvp->n_dmaerrs || (sc_xfer->error != XS_NOERROR && sc_xfer->error != XS_SENSE && sc_xfer->error != XS_SHORTSENSE)) { #if 0 printf("wdc_atapi_done: sc_xfer->error %d\n", sc_xfer->error); #endif drvp->n_dmaerrs = 0; if (doing_dma) wdc_downgrade_mode(drvp); } if (need_done) { WDCDEBUG_PRINT(("wdc_atapi_done: scsi_done\n"), DEBUG_XFERS); scsi_done(sc_xfer); } return (DONE); } int wdc_atapi_reset(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; wdccommandshort(chp, xfer->drive, ATAPI_SOFT_RESET); drvp->state = 0; /* Some ATAPI devices need extra time to find their brains after a reset */ xfer->next = wdc_atapi_reset_2; xfer->delay = 10; xfer->timeout = ATAPI_RESET_WAIT; return (GOTO_NEXT); } int wdc_atapi_reset_2(chp, xfer, timeout) struct channel_softc *chp; struct wdc_xfer *xfer; int timeout; { struct ata_drive_datas *drvp = &chp->ch_drive[xfer->drive]; struct scsi_xfer *sc_xfer = xfer->cmd; if (timeout) { printf("%s:%d:%d: reset failed\n", chp->wdc->sc_dev.dv_xname, chp->channel, xfer->drive); sc_xfer->error = XS_SELTIMEOUT; wdc_reset_channel(drvp); xfer->next = wdc_atapi_done; return (GOTO_NEXT); } wdc_atapi_update_status(chp); if (chp->ch_status & (WDCS_BSY | WDCS_DRQ)) { return (CONTINUE_POLL); } xfer->next = wdc_atapi_done; return (GOTO_NEXT); }