atapi_fsm.c revision 507c32411f3f101e90ca2120f042b5ee698ba1d5
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507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Copyright 2004 Sun Microsystems, Inc. All rights reserved.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Use is subject to license terms.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf#pragma ident "%Z%%M% %I% %E% SMI"
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Finite State Machines for ATA controller and ATAPI devices
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Local functions
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic int atapi_start_cmd(ata_ctl_t *ata_ctlp, ata_drv_t *ata_drvp,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void atapi_send_cdb(ata_ctl_t *ata_ctlp, ata_pkt_t *ata_pktp);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void atapi_start_dma(ata_ctl_t *ata_ctlp, ata_drv_t *ata_drvp,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void atapi_pio_data_in(ata_ctl_t *ata_ctlp, ata_pkt_t *ata_pktp);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void atapi_pio_data_out(ata_ctl_t *ata_ctlp, ata_pkt_t *ata_pktp);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void atapi_status(ata_ctl_t *ata_ctlp, ata_pkt_t *ata_pktp,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void atapi_fsm_error(ata_ctl_t *ata_ctlp, uchar_t state,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * IO CoD DRQ
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * -- --- ---
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 0 0 0 == 0 invalid
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 0 0 1 == 1 Data to device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 0 1 0 == 2 Idle
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 0 1 1 == 3 Send ATAPI CDB to device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 1 0 0 == 4 invalid
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 1 0 1 == 5 Data from device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 1 1 0 == 6 Status ready
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 1 1 1 == 7 Future use
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Given the current state and the current event this
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * table determines what action to take. Note, in the actual
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * table I've left room for the invalid event codes: 0, 2, and 7.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * +-----------------------------------------------------
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * | Current Event
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * State | dataout idle cdb datain status
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * | 1 2 3 5 6
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * |-----------------------------------------------------
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * idle | sendcmd sendcmd sendcmd sendcmd sendcmd
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * cmd | * * sendcdb * read-err-code
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * cdb | xfer-out nada nada xfer-in read-err-code
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * datain | * * * xfer-in read-err-code
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * dataout | xfer-out * * * read-err-code
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * DMA | * * * * read-err-code
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfuchar_t atapi_PioAction[ATAPI_NSTATES][ATAPI_NEVENTS] = {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf/* invalid dataout idle cdb invalid datain status future */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ A_NADA, A_NADA, A_NADA, A_NADA, A_NADA, A_NADA, A_NADA, A_NADA }, /* Idle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ A_NADA, A_NADA, A_NADA, A_CDB, A_NADA, A_NADA, A_RE, A_NADA }, /* Cmd */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ A_REX, A_OUT, A_NADA, A_NADA, A_IDLE, A_IN, A_RE, A_UNK }, /* Cdb */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ A_REX, A_UNK, A_IDLE, A_UNK, A_IDLE, A_IN, A_RE, A_UNK }, /* DtaIn */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ A_REX, A_OUT, A_IDLE, A_UNK, A_IDLE, A_UNK, A_RE, A_UNK }, /* DtaOut */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ A_REX, A_UNK, A_UNK, A_UNK, A_UNK, A_UNK, A_RE, A_UNK } /* DmaAct */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Give the current state and the current event this table
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * determines the new state of the device.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * +----------------------------------------------
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * | Current Event
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * State | dataout idle cdb datain status
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * |----------------------------------------------
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * idle | cmd cmd cmd cmd cmd
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * cmd | * * cdb * *
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * cdb | dataout cdb cdb datain (idle)
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * datain | * * * datain (idle)
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * dataout | dataout * * * (idle)
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * DMA | DMA DMA DMA DMA (idle)
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Note: the states enclosed in parens "(state)", are the accept states
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * for this FSM. A separate table is used to encode the done
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * states rather than extra state codes.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfuchar_t atapi_PioNextState[ATAPI_NSTATES][ATAPI_NEVENTS] = {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf/* invalid dataout idle cdb invalid datain status future */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ S_IDLE, S_IDLE, S_IDLE, S_IDLE, S_IDLE, S_IDLE, S_IDLE, S_IDLE}, /* idle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ S_CDB, S_CDB, S_CDB, S_CDB, S_CDB, S_CDB, S_IDLE, S_X }, /* cmd */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ S_IDLE, S_OUT, S_CDB, S_CDB, S_CDB, S_IN, S_IDLE, S_X }, /* cdb */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ S_IDLE, S_X, S_IN, S_X, S_IN, S_IN, S_IDLE, S_X }, /* datain */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ S_IDLE, S_OUT, S_OUT, S_X, S_OUT, S_X, S_IDLE, S_X }, /* dataout */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf{ S_IDLE, S_DMA, S_DMA, S_DMA, S_DMA, S_DMA, S_IDLE, S_DMA } /* dmaActv */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Bug 1256489:
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * If AC_BSY_WAIT is set, wait for controller to be not busy,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * before issuing a command. If AC_BSY_WAIT is not set,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * skip the wait. This is important for laptops that do
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * suspend/resume but do not correctly wait for the busy bit to
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * drop after a resume.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Select the drive
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * make certain the drive selected
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf if (!ata_wait(io_hdl2, ata_ctlp->ac_ioaddr2, 0, ATS_BSY, 5000000)) {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Always make certain interrupts are enabled. It's been reported
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * (but not confirmed) that some notebook computers don't
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * clear the interrupt disable bit after being resumed. The
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * easiest way to fix this is to always clear the disable bit
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * before every command.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ddi_put8(io_hdl1, ata_ctlp->ac_lcyl, ata_pktp->ap_lwcyl);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ddi_put8(io_hdl1, ata_ctlp->ac_hcyl, ata_pktp->ap_hicyl);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ddi_put8(io_hdl1, ata_ctlp->ac_count, ata_pktp->ap_count);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ASSERT((ata_pktp->ap_flags & (AP_READ | AP_WRITE)) != 0);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * DMA but no Overlap
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * copy the Scatter/Gather list to the controller's
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Physical Region Descriptor Table
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * no DMA and no Overlap
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * This next one sets the device in motion
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* wait for the busy bit to settle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the device will send me an interrupt when it's
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * ready for the packet
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* else */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * If we don't receive an interrupt requesting the scsi CDB,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * we must poll for DRQ, and then send out the CDB.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Wait for DRQ before sending the CDB. Bailout early
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * if an error occurs.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * I'm not certain what the correct timeout should be.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf 4000000)) {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* got good status */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ADBG_WARN(("atapi_start_cmd: 0x%x status 0x%x error 0x%x\n",
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Send the SCSI CDB to the ATAPI device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * send the CDB to the drive
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ddi_rep_put16(io_hdl1, (ushort_t *)ata_pktp->ap_cdbp, ata_ctlp->ac_data,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * pad to ad_cdb_len bytes
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* wait for the busy bit to settle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Start the DMA engine
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf/* ARGSUSED */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Determine the direction. This may look backwards
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * but the command bit programmed into the DMA engine
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * specifies the type of operation the engine performs
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * on the PCI bus (not the ATA bus). Therefore when
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * transferring data from the device to system memory, the
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * DMA engine performs PCI Write operations.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Start the DMA engine
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Transfer the data from the device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Note: the atapi_pio_data_in() and atapi_pio_data_out() functions
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * are complicated a lot by the requirement to handle an odd byte count.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * The only device we've seen which does this is the Hitachi CDR-7730.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * See bug ID 1214595. It's my understanding that Dell stopped shipping
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * that drive after discovering all the problems it caused, so it may
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * be impossible to find one for any sort of regression test.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * In the future, ATAPI tape drives will also probably support odd byte
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * counts so this code will be excersized more often.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Get the device's byte count for this transfer
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf drive_bytes = ((int)ddi_get8(io_hdl1, ata_ctlp->ac_hcyl) << 8)
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Determine actual number I'm going to transfer. My
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * buffer might have fewer bytes than what the device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * expects or handles on each interrupt.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Round down my transfer count to whole words so that
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * if the transfer count is odd it's still handled correctly.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Handle possible odd byte at end. Read a 16-bit
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * word but discard the high-order byte.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ADBG_TRANSPORT(("atapi_pio_data_in: read 0x%x bytes\n", xfer_bytes));
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Discard any unwanted data.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* rounded up if the drive_bytes count is odd */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* wait for the busy bit to settle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Transfer the data to the device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Get the device's byte count for this transfer
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf drive_bytes = ((int)ddi_get8(io_hdl1, ata_ctlp->ac_hcyl) << 8)
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Determine actual number I'm going to transfer. My
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * buffer might have fewer bytes than what the device
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * expects or handles on each interrupt.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Round down my transfer count to whole words so that
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * if the transfer count is odd it's handled correctly.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * If odd byte count, transfer the last
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * byte. Use a tmp so that I don't run off
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the end off the buffer and possibly page
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* grab the last unsigned byte and widen it to 16-bits */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ADBG_TRANSPORT(("atapi_pio_data_out: wrote 0x%x bytes\n", xfer_bytes));
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* wait for the busy bit to settle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * check status of completed command
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ata_pktp->ap_error = ddi_get8(io_hdl1, ata_ctlp->ac_error);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * If the DMA transfer failed leave the resid set to
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the original byte count. The target driver has
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * to do a REQUEST SENSE to get the true residual
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * byte count. Otherwise, it all transferred so update
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the flags and residual byte count.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf if (dma_completion && !(ata_pktp->ap_flags & AP_TRAN_ERROR)) {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlfstatic void
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* select the drive */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ddi_put8(io_hdl1, ata_ctlp->ac_drvhd, ata_drvp->ad_drive_bits);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* issue atapi DEVICE RESET */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* wait for the busy bit to settle */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Re-select the drive (this is probably only necessary
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * when resetting drive 1).
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ddi_put8(io_hdl1, ata_ctlp->ac_drvhd, ata_drvp->ad_drive_bits);
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* allow the drive the full 6 seconds to respond */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* LINTED */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf if (!ata_wait(io_hdl2, ata_ctlp->ac_ioaddr2, 0, ATS_BSY, 6 * 1000000)) {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * It's not clear to me what to do at this point,
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the drive might be dead or might eventually
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * recover. For now just ignore it and continue
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * to attempt to use the drive.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * reset drive drive 0 and the drive 1
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf ADBG_TRANSPORT(("atapi_start: pkt = 0x%p\n", ata_pktp));
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * check for valid state
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf switch (rc) {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * The command started okay. Just return.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Got Command Phase. The upper layer will send
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the cdb by faking an interrupt.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * command completed immediately, stick on done q
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * The command wouldn't start, tell the upper layer to
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * stick this request on the done queue.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * All interrupts on an ATAPI device come through here.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * This function determines what to do next, based on
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the current state of the request and the drive's current
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * status bits. See the FSM tables at the top of this file.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * get the prior state
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * If doing DMA, then:
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 1. halt the DMA engine
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 2. reset the interrupt and error latches
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * 3. reset the drive's IRQ.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * I think the order of these operations must be
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * exactly as listed. Otherwise we the PCI-IDE
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * controller can hang or we can miss the next interrupt
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf switch (state) {
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Halt the DMA engine. When we reach this point
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * we already know for certain that the device has
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * an interrupt pending since the ata_get_status()
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * function already checked the PCI-IDE interrupt
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * status bit.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /*FALLTHRU*/
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * Clear the PCI-IDE latches and the drive's IRQ
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * some non-compliant (i.e., NEC) drives don't
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * set ATS_BSY within 400 nsec. and/or don't keep
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * it asserted until they're actually non-busy.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * There's a small window between reading the alt_status
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * and status registers where the drive might "bounce"
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the ATS_BSY bit.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * get the interrupt reason code
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * encode the status and interrupt reason bits
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * into an event code which is used to index the
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * FSM tables
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * determine the action for this event
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * determine the new state
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * invalid state
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * ??? this shouldn't happen. ???
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * if there's an active command on
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * this device, the pkt timer should eventually clear the
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * device. I might try sending a DEVICE-RESET here to speed
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * up the error recovery except that DEVICE-RESET is kind of
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * complicated to implement correctly because if I send a
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * DEVICE-RESET to drive 1 it deselects itself.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * send out atapi pkt
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * start the DMA engine if necessary and change
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * the state variable to reflect not doing PIO
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * maybe this was a spurious interrupt, just
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * spin for a bit and see if the drive
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * recovers
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * read in the data
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf /* spin for a bit and see if the drive recovers */
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * send out data
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * The DRQ bit deasserted before or between the data
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * transfer phases.
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * If we get here, a command has completed!
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * check status of completed command
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * some NEC drives don't report the right interrupt
507c32411f3f101e90ca2120f042b5ee698ba1d5mlf * reason code for the status phase