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2222 2223 2224 2225 2226 2227 2228 2229 2230 2231 2232 2233 2234 2235 2236 2237 2238 2239 2240 2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261 2262 2263 2264 2265 2266 2267 2268 2269 2270 2271 2272 2273 2274 2275 2276 2277 2278 2279 2280 2281 2282 2283 2284 2285 2286 2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310 2311 2312 2313 2314 2315 2316 2317 2318 2319 2320 2321 2322 2323 2324 2325 2326 2327 2328 2329 2330 2331 2332 2333 2334 2335 2336 2337 2338 2339 2340 2341 2342 2343 2344 2345 2346 2347 2348 2349 2350 2351 2352 2353 2354 2355 2356 2357 2358 2359 2360 2361 2362 2363 2364 2365 2366 2367 2368 2369 2370 2371 2372 2373 2374 2375 2376 2377 2378 2379 2380 2381 2382 2383 2384 2385 2386 2387 2388 2389 2390 2391 2392 2393 2394 2395 2396 2397 2398 2399 | /* * Adaptec 274x/284x/294x device driver firmware for Linux and FreeBSD. * * Copyright (c) 1994-2001 Justin T. Gibbs. * Copyright (c) 2000-2001 Adaptec Inc. * All rights reserved. * * 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, * without modification. * 2. Redistributions in binary form must reproduce at minimum a disclaimer * substantially similar to the "NO WARRANTY" disclaimer below * ("Disclaimer") and any redistribution must be conditioned upon * including a substantially similar Disclaimer requirement for further * binary redistribution. * 3. Neither the names of the above-listed copyright holders nor the names * of any contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * Alternatively, this software may be distributed under the terms of the * GNU General Public License ("GPL") version 2 as published by the Free * Software Foundation. * * NO WARRANTY * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * HOLDERS OR CONTRIBUTORS BE LIABLE FOR 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 DAMAGES. * * $FreeBSD$ */ VERSION = "$Id: //depot/aic7xxx/aic7xxx/aic7xxx.seq#58 $" PATCH_ARG_LIST = "struct ahc_softc *ahc" PREFIX = "ahc_" #include "aic7xxx.reg" #include "scsi_message.h" /* * A few words on the waiting SCB list: * After starting the selection hardware, we check for reconnecting targets * as well as for our selection to complete just in case the reselection wins * bus arbitration. The problem with this is that we must keep track of the * SCB that we've already pulled from the QINFIFO and started the selection * on just in case the reselection wins so that we can retry the selection at * a later time. This problem cannot be resolved by holding a single entry * in scratch ram since a reconnecting target can request sense and this will * create yet another SCB waiting for selection. The solution used here is to * use byte 27 of the SCB as a pseudo-next pointer and to thread a list * of SCBs that are awaiting selection. Since 0-0xfe are valid SCB indexes, * SCB_LIST_NULL is 0xff which is out of range. An entry is also added to * this list every time a request sense occurs or after completing a non-tagged * command for which a second SCB has been queued. The sequencer will * automatically consume the entries. */ bus_free_sel: /* * Turn off the selection hardware. We need to reset the * selection request in order to perform a new selection. */ and SCSISEQ, TEMODE|ENSELI|ENRSELI|ENAUTOATNP; and SIMODE1, ~ENBUSFREE; poll_for_work: call clear_target_state; and SXFRCTL0, ~SPIOEN; if ((ahc->features & AHC_ULTRA2) != 0) { clr SCSIBUSL; } test SCSISEQ, ENSELO jnz poll_for_selection; if ((ahc->features & AHC_TWIN) != 0) { xor SBLKCTL,SELBUSB; /* Toggle to the other bus */ test SCSISEQ, ENSELO jnz poll_for_selection; } cmp WAITING_SCBH,SCB_LIST_NULL jne start_waiting; poll_for_work_loop: if ((ahc->features & AHC_TWIN) != 0) { xor SBLKCTL,SELBUSB; /* Toggle to the other bus */ } test SSTAT0, SELDO|SELDI jnz selection; test_queue: /* Has the driver posted any work for us? */ BEGIN_CRITICAL; if ((ahc->features & AHC_QUEUE_REGS) != 0) { test QOFF_CTLSTA, SCB_AVAIL jz poll_for_work_loop; } else { mov A, QINPOS; cmp KERNEL_QINPOS, A je poll_for_work_loop; } mov ARG_1, NEXT_QUEUED_SCB; /* * We have at least one queued SCB now and we don't have any * SCBs in the list of SCBs awaiting selection. Allocate a * card SCB for the host's SCB and get to work on it. */ if ((ahc->flags & AHC_PAGESCBS) != 0) { mov ALLZEROS call get_free_or_disc_scb; } else { /* In the non-paging case, the SCBID == hardware SCB index */ mov SCBPTR, ARG_1; } or SEQ_FLAGS2, SCB_DMA; END_CRITICAL; dma_queued_scb: /* * DMA the SCB from host ram into the current SCB location. */ mvi DMAPARAMS, HDMAEN|DIRECTION|FIFORESET; mov ARG_1 call dma_scb; /* * Check one last time to see if this SCB was canceled * before we completed the DMA operation. If it was, * the QINFIFO next pointer will not match our saved * value. */ mov A, ARG_1; BEGIN_CRITICAL; cmp NEXT_QUEUED_SCB, A jne abort_qinscb; if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { cmp SCB_TAG, A je . + 2; mvi SCB_MISMATCH call set_seqint; } mov NEXT_QUEUED_SCB, SCB_NEXT; mov SCB_NEXT,WAITING_SCBH; mov WAITING_SCBH, SCBPTR; if ((ahc->features & AHC_QUEUE_REGS) != 0) { mov NONE, SNSCB_QOFF; } else { inc QINPOS; } and SEQ_FLAGS2, ~SCB_DMA; END_CRITICAL; start_waiting: /* * Start the first entry on the waiting SCB list. */ mov SCBPTR, WAITING_SCBH; call start_selection; poll_for_selection: /* * Twin channel devices cannot handle things like SELTO * interrupts on the "background" channel. So, while * selecting, keep polling the current channel until * either a selection or reselection occurs. */ test SSTAT0, SELDO|SELDI jz poll_for_selection; selection: /* * We aren't expecting a bus free, so interrupt * the kernel driver if it happens. */ mvi CLRSINT1,CLRBUSFREE; if ((ahc->features & AHC_DT) == 0) { or SIMODE1, ENBUSFREE; } /* * Guard against a bus free after (re)selection * but prior to enabling the busfree interrupt. SELDI * and SELDO will be cleared in that case. */ test SSTAT0, SELDI|SELDO jz bus_free_sel; test SSTAT0,SELDO jnz select_out; select_in: if ((ahc->flags & AHC_TARGETROLE) != 0) { if ((ahc->flags & AHC_INITIATORROLE) != 0) { test SSTAT0, TARGET jz initiator_reselect; } mvi CLRSINT0, CLRSELDI; /* * We've just been selected. Assert BSY and * setup the phase for receiving messages * from the target. */ mvi SCSISIGO, P_MESGOUT|BSYO; /* * Setup the DMA for sending the identify and * command information. */ mvi SEQ_FLAGS, CMDPHASE_PENDING; mov A, TQINPOS; if ((ahc->features & AHC_CMD_CHAN) != 0) { mvi DINDEX, CCHADDR; mvi SHARED_DATA_ADDR call set_32byte_addr; mvi CCSCBCTL, CCSCBRESET; } else { mvi DINDEX, HADDR; mvi SHARED_DATA_ADDR call set_32byte_addr; mvi DFCNTRL, FIFORESET; } /* Initiator that selected us */ and SAVED_SCSIID, SELID_MASK, SELID; /* The Target ID we were selected at */ if ((ahc->features & AHC_MULTI_TID) != 0) { and A, OID, TARGIDIN; } else if ((ahc->features & AHC_ULTRA2) != 0) { and A, OID, SCSIID_ULTRA2; } else { and A, OID, SCSIID; } or SAVED_SCSIID, A; if ((ahc->features & AHC_TWIN) != 0) { test SBLKCTL, SELBUSB jz . + 2; or SAVED_SCSIID, TWIN_CHNLB; } if ((ahc->features & AHC_CMD_CHAN) != 0) { mov CCSCBRAM, SAVED_SCSIID; } else { mov DFDAT, SAVED_SCSIID; } /* * If ATN isn't asserted, the target isn't interested * in talking to us. Go directly to bus free. * XXX SCSI-1 may require us to assume lun 0 if * ATN is false. */ test SCSISIGI, ATNI jz target_busfree; /* * Watch ATN closely now as we pull in messages from the * initiator. We follow the guidlines from section 6.5 * of the SCSI-2 spec for what messages are allowed when. */ call target_inb; /* * Our first message must be one of IDENTIFY, ABORT, or * BUS_DEVICE_RESET. */ test DINDEX, MSG_IDENTIFYFLAG jz host_target_message_loop; /* Store for host */ if ((ahc->features & AHC_CMD_CHAN) != 0) { mov CCSCBRAM, DINDEX; } else { mov DFDAT, DINDEX; } and SAVED_LUN, MSG_IDENTIFY_LUNMASK, DINDEX; /* Remember for disconnection decision */ test DINDEX, MSG_IDENTIFY_DISCFLAG jnz . + 2; /* XXX Honor per target settings too */ or SEQ_FLAGS, NO_DISCONNECT; test SCSISIGI, ATNI jz ident_messages_done; call target_inb; /* * If this is a tagged request, the tagged message must * immediately follow the identify. We test for a valid * tag message by seeing if it is >= MSG_SIMPLE_Q_TAG and * < MSG_IGN_WIDE_RESIDUE. */ add A, -MSG_SIMPLE_Q_TAG, DINDEX; jnc ident_messages_done_msg_pending; add A, -MSG_IGN_WIDE_RESIDUE, DINDEX; jc ident_messages_done_msg_pending; /* Store for host */ if ((ahc->features & AHC_CMD_CHAN) != 0) { mov CCSCBRAM, DINDEX; } else { mov DFDAT, DINDEX; } /* * If the initiator doesn't feel like providing a tag number, * we've got a failed selection and must transition to bus * free. */ test SCSISIGI, ATNI jz target_busfree; /* * Store the tag for the host. */ call target_inb; if ((ahc->features & AHC_CMD_CHAN) != 0) { mov CCSCBRAM, DINDEX; } else { mov DFDAT, DINDEX; } mov INITIATOR_TAG, DINDEX; or SEQ_FLAGS, TARGET_CMD_IS_TAGGED; ident_messages_done: /* Terminate the ident list */ if ((ahc->features & AHC_CMD_CHAN) != 0) { mvi CCSCBRAM, SCB_LIST_NULL; } else { mvi DFDAT, SCB_LIST_NULL; } or SEQ_FLAGS, TARG_CMD_PENDING; test SEQ_FLAGS2, TARGET_MSG_PENDING jnz target_mesgout_pending; test SCSISIGI, ATNI jnz target_mesgout_continue; jmp target_ITloop; ident_messages_done_msg_pending: or SEQ_FLAGS2, TARGET_MSG_PENDING; jmp ident_messages_done; /* * Pushed message loop to allow the kernel to * run it's own target mode message state engine. */ host_target_message_loop: mvi HOST_MSG_LOOP call set_seqint; cmp RETURN_1, EXIT_MSG_LOOP je target_ITloop; test SSTAT0, SPIORDY jz .; jmp host_target_message_loop; } if ((ahc->flags & AHC_INITIATORROLE) != 0) { /* * Reselection has been initiated by a target. Make a note that we've been * reselected, but haven't seen an IDENTIFY message from the target yet. */ initiator_reselect: /* XXX test for and handle ONE BIT condition */ or SXFRCTL0, SPIOEN|CLRSTCNT|CLRCHN; and SAVED_SCSIID, SELID_MASK, SELID; if ((ahc->features & AHC_ULTRA2) != 0) { and A, OID, SCSIID_ULTRA2; } else { and A, OID, SCSIID; } or SAVED_SCSIID, A; if ((ahc->features & AHC_TWIN) != 0) { test SBLKCTL, SELBUSB jz . + 2; or SAVED_SCSIID, TWIN_CHNLB; } mvi CLRSINT0, CLRSELDI; jmp ITloop; } abort_qinscb: call add_scb_to_free_list; jmp poll_for_work_loop; start_selection: /* * If bus reset interrupts have been disabled (from a previous * reset), re-enable them now. Resets are only of interest * when we have outstanding transactions, so we can safely * defer re-enabling the interrupt until, as an initiator, * we start sending out transactions again. */ test SIMODE1, ENSCSIRST jnz . + 3; mvi CLRSINT1, CLRSCSIRSTI; or SIMODE1, ENSCSIRST; if ((ahc->features & AHC_TWIN) != 0) { and SINDEX,~SELBUSB,SBLKCTL;/* Clear channel select bit */ test SCB_SCSIID, TWIN_CHNLB jz . + 2; or SINDEX, SELBUSB; mov SBLKCTL,SINDEX; /* select channel */ } initialize_scsiid: if ((ahc->features & AHC_ULTRA2) != 0) { mov SCSIID_ULTRA2, SCB_SCSIID; } else if ((ahc->features & AHC_TWIN) != 0) { and SCSIID, TWIN_TID|OID, SCB_SCSIID; } else { mov SCSIID, SCB_SCSIID; } if ((ahc->flags & AHC_TARGETROLE) != 0) { mov SINDEX, SCSISEQ_TEMPLATE; test SCB_CONTROL, TARGET_SCB jz . + 2; or SINDEX, TEMODE; mov SCSISEQ, SINDEX ret; } else { mov SCSISEQ, SCSISEQ_TEMPLATE ret; } /* * Initialize transfer settings with SCB provided settings. */ set_transfer_settings: if ((ahc->features & AHC_ULTRA) != 0) { test SCB_CONTROL, ULTRAENB jz . + 2; or SXFRCTL0, FAST20; } /* * Initialize SCSIRATE with the appropriate value for this target. */ if ((ahc->features & AHC_ULTRA2) != 0) { bmov SCSIRATE, SCB_SCSIRATE, 2 ret; } else { mov SCSIRATE, SCB_SCSIRATE ret; } if ((ahc->flags & AHC_TARGETROLE) != 0) { /* * We carefully toggle SPIOEN to allow us to return the * message byte we receive so it can be checked prior to * driving REQ on the bus for the next byte. */ target_inb: /* * Drive REQ on the bus by enabling SCSI PIO. */ or SXFRCTL0, SPIOEN; /* Wait for the byte */ test SSTAT0, SPIORDY jz .; /* Prevent our read from triggering another REQ */ and SXFRCTL0, ~SPIOEN; /* Save latched contents */ mov DINDEX, SCSIDATL ret; } /* * After the selection, remove this SCB from the "waiting SCB" * list. This is achieved by simply moving our "next" pointer into * WAITING_SCBH. Our next pointer will be set to null the next time this * SCB is used, so don't bother with it now. */ select_out: /* Turn off the selection hardware */ and SCSISEQ, TEMODE|ENSELI|ENRSELI|ENAUTOATNP, SCSISEQ; mov SCBPTR, WAITING_SCBH; mov WAITING_SCBH,SCB_NEXT; mov SAVED_SCSIID, SCB_SCSIID; and SAVED_LUN, LID, SCB_LUN; call set_transfer_settings; if ((ahc->flags & AHC_TARGETROLE) != 0) { test SSTAT0, TARGET jz initiator_select; or SXFRCTL0, CLRSTCNT|CLRCHN; /* * Put tag in connonical location since not * all connections have an SCB. */ mov INITIATOR_TAG, SCB_TARGET_ITAG; /* * We've just re-selected an initiator. * Assert BSY and setup the phase for * sending our identify messages. */ mvi P_MESGIN|BSYO call change_phase; mvi CLRSINT0, CLRSELDO; /* * Start out with a simple identify message. */ or SAVED_LUN, MSG_IDENTIFYFLAG call target_outb; /* * If we are the result of a tagged command, send * a simple Q tag and the tag id. */ test SCB_CONTROL, TAG_ENB jz . + 3; mvi MSG_SIMPLE_Q_TAG call target_outb; mov SCB_TARGET_ITAG call target_outb; target_synccmd: /* * Now determine what phases the host wants us * to go through. */ mov SEQ_FLAGS, SCB_TARGET_PHASES; test SCB_CONTROL, MK_MESSAGE jz target_ITloop; mvi P_MESGIN|BSYO call change_phase; jmp host_target_message_loop; target_ITloop: /* * Start honoring ATN signals now that * we properly identified ourselves. */ test SCSISIGI, ATNI jnz target_mesgout; test SEQ_FLAGS, CMDPHASE_PENDING jnz target_cmdphase; test SEQ_FLAGS, DPHASE_PENDING jnz target_dphase; test SEQ_FLAGS, SPHASE_PENDING jnz target_sphase; /* * No more work to do. Either disconnect or not depending * on the state of NO_DISCONNECT. */ test SEQ_FLAGS, NO_DISCONNECT jz target_disconnect; mvi TARG_IMMEDIATE_SCB, SCB_LIST_NULL; call complete_target_cmd; if ((ahc->flags & AHC_PAGESCBS) != 0) { mov ALLZEROS call get_free_or_disc_scb; } cmp TARG_IMMEDIATE_SCB, SCB_LIST_NULL je .; mvi DMAPARAMS, HDMAEN|DIRECTION|FIFORESET; mov TARG_IMMEDIATE_SCB call dma_scb; call set_transfer_settings; or SXFRCTL0, CLRSTCNT|CLRCHN; jmp target_synccmd; target_mesgout: mvi SCSISIGO, P_MESGOUT|BSYO; target_mesgout_continue: call target_inb; target_mesgout_pending: and SEQ_FLAGS2, ~TARGET_MSG_PENDING; /* Local Processing goes here... */ jmp host_target_message_loop; target_disconnect: mvi P_MESGIN|BSYO call change_phase; test SEQ_FLAGS, DPHASE jz . + 2; mvi MSG_SAVEDATAPOINTER call target_outb; mvi MSG_DISCONNECT call target_outb; target_busfree_wait: /* Wait for preceding I/O session to complete. */ test SCSISIGI, ACKI jnz .; target_busfree: and SIMODE1, ~ENBUSFREE; if ((ahc->features & AHC_ULTRA2) != 0) { clr SCSIBUSL; } clr SCSISIGO; mvi LASTPHASE, P_BUSFREE; call complete_target_cmd; jmp poll_for_work; target_cmdphase: /* * The target has dropped ATN (doesn't want to abort or BDR) * and we believe this selection to be valid. If the ring * buffer for new commands is full, return busy or queue full. */ if ((ahc->features & AHC_HS_MAILBOX) != 0) { and A, HOST_TQINPOS, HS_MAILBOX; } else { mov A, KERNEL_TQINPOS; } cmp TQINPOS, A jne tqinfifo_has_space; mvi P_STATUS|BSYO call change_phase; test SEQ_FLAGS, TARGET_CMD_IS_TAGGED jz . + 3; mvi STATUS_QUEUE_FULL call target_outb; jmp target_busfree_wait; mvi STATUS_BUSY call target_outb; jmp target_busfree_wait; tqinfifo_has_space: mvi P_COMMAND|BSYO call change_phase; call target_inb; mov A, DINDEX; /* Store for host */ if ((ahc->features & AHC_CMD_CHAN) != 0) { mov CCSCBRAM, A; } else { mov DFDAT, A; } /* * Determine the number of bytes to read * based on the command group code via table lookup. * We reuse the first 8 bytes of the TARG_SCSIRATE * BIOS array for this table. Count is one less than * the total for the command since we've already fetched * the first byte. */ shr A, CMD_GROUP_CODE_SHIFT; add SINDEX, CMDSIZE_TABLE, A; mov A, SINDIR; test A, 0xFF jz command_phase_done; or SXFRCTL0, SPIOEN; command_loop: test SSTAT0, SPIORDY jz .; cmp A, 1 jne . + 2; and SXFRCTL0, ~SPIOEN; /* Last Byte */ if ((ahc->features & AHC_CMD_CHAN) != 0) { mov CCSCBRAM, SCSIDATL; } else { mov DFDAT, SCSIDATL; } dec A; test A, 0xFF jnz command_loop; command_phase_done: and SEQ_FLAGS, ~CMDPHASE_PENDING; jmp target_ITloop; target_dphase: /* * Data phases on the bus are from the * perspective of the initiator. The dma * code looks at LASTPHASE to determine the * data direction of the DMA. Toggle it for * target transfers. */ xor LASTPHASE, IOI, SCB_TARGET_DATA_DIR; or SCB_TARGET_DATA_DIR, BSYO call change_phase; jmp p_data; target_sphase: mvi P_STATUS|BSYO call change_phase; mvi LASTPHASE, P_STATUS; mov SCB_SCSI_STATUS call target_outb; /* XXX Watch for ATN or parity errors??? */ mvi SCSISIGO, P_MESGIN|BSYO; /* MSG_CMDCMPLT is 0, but we can't do an immediate of 0 */ mov ALLZEROS call target_outb; jmp target_busfree_wait; complete_target_cmd: test SEQ_FLAGS, TARG_CMD_PENDING jnz . + 2; mov SCB_TAG jmp complete_post; if ((ahc->features & AHC_CMD_CHAN) != 0) { /* Set the valid byte */ mvi CCSCBADDR, 24; mov CCSCBRAM, ALLONES; mvi CCHCNT, 28; or CCSCBCTL, CCSCBEN|CCSCBRESET; test CCSCBCTL, CCSCBDONE jz .; clr CCSCBCTL; } else { /* Set the valid byte */ or DFCNTRL, FIFORESET; mvi DFWADDR, 3; /* Third 64bit word or byte 24 */ mov DFDAT, ALLONES; mvi 28 call set_hcnt; or DFCNTRL, HDMAEN|FIFOFLUSH; call dma_finish; } inc TQINPOS; mvi INTSTAT,CMDCMPLT ret; } if ((ahc->flags & AHC_INITIATORROLE) != 0) { initiator_select: or SXFRCTL0, SPIOEN|CLRSTCNT|CLRCHN; /* * As soon as we get a successful selection, the target * should go into the message out phase since we have ATN * asserted. */ mvi MSG_OUT, MSG_IDENTIFYFLAG; mvi SEQ_FLAGS, NO_CDB_SENT; mvi CLRSINT0, CLRSELDO; /* * Main loop for information transfer phases. Wait for the * target to assert REQ before checking MSG, C/D and I/O for * the bus phase. */ mesgin_phasemis: ITloop: call phase_lock; mov A, LASTPHASE; test A, ~P_DATAIN jz p_data; cmp A,P_COMMAND je p_command; cmp A,P_MESGOUT je p_mesgout; cmp A,P_STATUS je p_status; cmp A,P_MESGIN je p_mesgin; mvi BAD_PHASE call set_seqint; jmp ITloop; /* Try reading the bus again. */ await_busfree: and SIMODE1, ~ENBUSFREE; mov NONE, SCSIDATL; /* Ack the last byte */ if ((ahc->features & AHC_ULTRA2) != 0) { clr SCSIBUSL; /* Prevent bit leakage durint SELTO */ } and SXFRCTL0, ~SPIOEN; mvi SEQ_FLAGS, NOT_IDENTIFIED|NO_CDB_SENT; test SSTAT1,REQINIT|BUSFREE jz .; test SSTAT1, BUSFREE jnz poll_for_work; mvi MISSED_BUSFREE call set_seqint; } clear_target_state: /* * We assume that the kernel driver may reset us * at any time, even in the middle of a DMA, so * clear DFCNTRL too. */ clr DFCNTRL; or SXFRCTL0, CLRSTCNT|CLRCHN; /* * We don't know the target we will connect to, * so default to narrow transfers to avoid * parity problems. */ if ((ahc->features & AHC_ULTRA2) != 0) { bmov SCSIRATE, ALLZEROS, 2; } else { clr SCSIRATE; if ((ahc->features & AHC_ULTRA) != 0) { and SXFRCTL0, ~(FAST20); } } mvi LASTPHASE, P_BUSFREE; /* clear target specific flags */ mvi SEQ_FLAGS, NOT_IDENTIFIED|NO_CDB_SENT ret; sg_advance: clr A; /* add sizeof(struct scatter) */ add SCB_RESIDUAL_SGPTR[0],SG_SIZEOF; adc SCB_RESIDUAL_SGPTR[1],A; adc SCB_RESIDUAL_SGPTR[2],A; adc SCB_RESIDUAL_SGPTR[3],A ret; if ((ahc->features & AHC_CMD_CHAN) != 0) { disable_ccsgen: test CCSGCTL, CCSGEN jz return; test CCSGCTL, CCSGDONE jz .; disable_ccsgen_fetch_done: clr CCSGCTL; test CCSGCTL, CCSGEN jnz .; ret; idle_loop: /* * Do we need any more segments for this transfer? */ test SCB_RESIDUAL_DATACNT[3], SG_LAST_SEG jnz return; /* Did we just finish fetching segs? */ cmp CCSGCTL, CCSGEN|CCSGDONE je idle_sgfetch_complete; /* Are we actively fetching segments? */ test CCSGCTL, CCSGEN jnz return; /* * Do we have any prefetch left??? */ cmp CCSGADDR, SG_PREFETCH_CNT jne idle_sg_avail; /* * Need to fetch segments, but we can only do that * if the command channel is completely idle. Make * sure we don't have an SCB prefetch going on. */ test CCSCBCTL, CCSCBEN jnz return; /* * We fetch a "cacheline aligned" and sized amount of data * so we don't end up referencing a non-existent page. * Cacheline aligned is in quotes because the kernel will * set the prefetch amount to a reasonable level if the * cacheline size is unknown. */ mvi CCHCNT, SG_PREFETCH_CNT; and CCHADDR[0], SG_PREFETCH_ALIGN_MASK, SCB_RESIDUAL_SGPTR; bmov CCHADDR[1], SCB_RESIDUAL_SGPTR[1], 3; mvi CCSGCTL, CCSGEN|CCSGRESET ret; idle_sgfetch_complete: call disable_ccsgen_fetch_done; and CCSGADDR, SG_PREFETCH_ADDR_MASK, SCB_RESIDUAL_SGPTR; idle_sg_avail: if ((ahc->features & AHC_ULTRA2) != 0) { /* Does the hardware have space for another SG entry? */ test DFSTATUS, PRELOAD_AVAIL jz return; bmov HADDR, CCSGRAM, 7; bmov SCB_RESIDUAL_DATACNT[3], CCSGRAM, 1; if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { mov SCB_RESIDUAL_DATACNT[3] call set_hhaddr; } call sg_advance; mov SINDEX, SCB_RESIDUAL_SGPTR[0]; test SCB_RESIDUAL_DATACNT[3], SG_LAST_SEG jz . + 2; or SINDEX, LAST_SEG; mov SG_CACHE_PRE, SINDEX; /* Load the segment */ or DFCNTRL, PRELOADEN; } ret; } if ((ahc->bugs & AHC_PCI_MWI_BUG) != 0 && ahc->pci_cachesize != 0) { /* * Calculate the trailing portion of this S/G segment that cannot * be transferred using memory write and invalidate PCI transactions. * XXX Can we optimize this for PCI writes only??? */ calc_mwi_residual: /* * If the ending address is on a cacheline boundary, * there is no need for an extra segment. */ mov A, HCNT[0]; add A, A, HADDR[0]; and A, CACHESIZE_MASK; test A, 0xFF jz return; /* * If the transfer is less than a cachline, * there is no need for an extra segment. */ test HCNT[1], 0xFF jnz calc_mwi_residual_final; test HCNT[2], 0xFF jnz calc_mwi_residual_final; add NONE, INVERTED_CACHESIZE_MASK, HCNT[0]; jnc return; calc_mwi_residual_final: mov MWI_RESIDUAL, A; not A; inc A; add HCNT[0], A; adc HCNT[1], -1; adc HCNT[2], -1 ret; } p_data: test SEQ_FLAGS,NOT_IDENTIFIED|NO_CDB_SENT jz p_data_allowed; mvi PROTO_VIOLATION call set_seqint; p_data_allowed: if ((ahc->features & AHC_ULTRA2) != 0) { mvi DMAPARAMS, PRELOADEN|SCSIEN|HDMAEN; } else { mvi DMAPARAMS, WIDEODD|SCSIEN|SDMAEN|HDMAEN|FIFORESET; } test LASTPHASE, IOI jnz . + 2; or DMAPARAMS, DIRECTION; if ((ahc->features & AHC_CMD_CHAN) != 0) { /* We don't have any valid S/G elements */ mvi CCSGADDR, SG_PREFETCH_CNT; } test SEQ_FLAGS, DPHASE jz data_phase_initialize; /* * If we re-enter the data phase after going through another * phase, our transfer location has almost certainly been * corrupted by the interveining, non-data, transfers. Ask * the host driver to fix us up based on the transfer residual. */ mvi PDATA_REINIT call set_seqint; jmp data_phase_loop; data_phase_initialize: /* We have seen a data phase for the first time */ or SEQ_FLAGS, DPHASE; /* * Initialize the DMA address and counter from the SCB. * Also set SCB_RESIDUAL_SGPTR, including the LAST_SEG * flag in the highest byte of the data count. We cannot * modify the saved values in the SCB until we see a save * data pointers message. */ if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { /* The lowest address byte must be loaded last. */ mov SCB_DATACNT[3] call set_hhaddr; } if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov HADDR, SCB_DATAPTR, 7; bmov SCB_RESIDUAL_DATACNT[3], SCB_DATACNT[3], 5; } else { mvi DINDEX, HADDR; mvi SCB_DATAPTR call bcopy_7; mvi DINDEX, SCB_RESIDUAL_DATACNT + 3; mvi SCB_DATACNT + 3 call bcopy_5; } if ((ahc->bugs & AHC_PCI_MWI_BUG) != 0 && ahc->pci_cachesize != 0) { call calc_mwi_residual; } and SCB_RESIDUAL_SGPTR[0], ~SG_FULL_RESID; if ((ahc->features & AHC_ULTRA2) == 0) { if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov STCNT, HCNT, 3; } else { call set_stcnt_from_hcnt; } } data_phase_loop: /* Guard against overruns */ test SCB_RESIDUAL_SGPTR[0], SG_LIST_NULL jz data_phase_inbounds; /* * Turn on `Bit Bucket' mode, wait until the target takes * us to another phase, and then notify the host. */ and DMAPARAMS, DIRECTION; mov DFCNTRL, DMAPARAMS; or SXFRCTL1,BITBUCKET; if ((ahc->features & AHC_DT) == 0) { test SSTAT1,PHASEMIS jz .; } else { test SCSIPHASE, DATA_PHASE_MASK jnz .; } and SXFRCTL1, ~BITBUCKET; mvi DATA_OVERRUN call set_seqint; jmp ITloop; data_phase_inbounds: if ((ahc->features & AHC_ULTRA2) != 0) { mov SINDEX, SCB_RESIDUAL_SGPTR[0]; test SCB_RESIDUAL_DATACNT[3], SG_LAST_SEG jz . + 2; or SINDEX, LAST_SEG; mov SG_CACHE_PRE, SINDEX; mov DFCNTRL, DMAPARAMS; ultra2_dma_loop: call idle_loop; /* * The transfer is complete if either the last segment * completes or the target changes phase. */ test SG_CACHE_SHADOW, LAST_SEG_DONE jnz ultra2_dmafinish; if ((ahc->features & AHC_DT) == 0) { if ((ahc->flags & AHC_TARGETROLE) != 0) { /* * As a target, we control the phases, * so ignore PHASEMIS. */ test SSTAT0, TARGET jnz ultra2_dma_loop; } if ((ahc->flags & AHC_INITIATORROLE) != 0) { test SSTAT1,PHASEMIS jz ultra2_dma_loop; } } else { test DFCNTRL, SCSIEN jnz ultra2_dma_loop; } ultra2_dmafinish: /* * The transfer has terminated either due to a phase * change, and/or the completion of the last segment. * We have two goals here. Do as much other work * as possible while the data fifo drains on a read * and respond as quickly as possible to the standard * messages (save data pointers/disconnect and command * complete) that usually follow a data phase. */ if ((ahc->bugs & AHC_AUTOFLUSH_BUG) != 0) { /* * On chips with broken auto-flush, start * the flushing process now. We'll poke * the chip from time to time to keep the * flush process going as we complete the * data phase. */ or DFCNTRL, FIFOFLUSH; } /* * We assume that, even though data may still be * transferring to the host, that the SCSI side of * the DMA engine is now in a static state. This * allows us to update our notion of where we are * in this transfer. * * If, by chance, we stopped before being able * to fetch additional segments for this transfer, * yet the last S/G was completely exhausted, * call our idle loop until it is able to load * another segment. This will allow us to immediately * pickup on the next segment on the next data phase. * * If we happened to stop on the last segment, then * our residual information is still correct from * the idle loop and there is no need to perform * any fixups. */ ultra2_ensure_sg: test SG_CACHE_SHADOW, LAST_SEG jz ultra2_shvalid; /* Record if we've consumed all S/G entries */ test SSTAT2, SHVALID jnz residuals_correct; or SCB_RESIDUAL_SGPTR[0], SG_LIST_NULL; jmp residuals_correct; ultra2_shvalid: test SSTAT2, SHVALID jnz sgptr_fixup; call idle_loop; jmp ultra2_ensure_sg; sgptr_fixup: /* * Fixup the residual next S/G pointer. The S/G preload * feature of the chip allows us to load two elements * in addition to the currently active element. We * store the bottom byte of the next S/G pointer in * the SG_CACEPTR register so we can restore the * correct value when the DMA completes. If the next * sg ptr value has advanced to the point where higher * bytes in the address have been affected, fix them * too. */ test SG_CACHE_SHADOW, 0x80 jz sgptr_fixup_done; test SCB_RESIDUAL_SGPTR[0], 0x80 jnz sgptr_fixup_done; add SCB_RESIDUAL_SGPTR[1], -1; adc SCB_RESIDUAL_SGPTR[2], -1; adc SCB_RESIDUAL_SGPTR[3], -1; sgptr_fixup_done: and SCB_RESIDUAL_SGPTR[0], SG_ADDR_MASK, SG_CACHE_SHADOW; /* We are not the last seg */ and SCB_RESIDUAL_DATACNT[3], ~SG_LAST_SEG; residuals_correct: /* * Go ahead and shut down the DMA engine now. * In the future, we'll want to handle end of * transfer messages prior to doing this, but this * requires similar restructuring for pre-ULTRA2 * controllers. */ test DMAPARAMS, DIRECTION jnz ultra2_fifoempty; ultra2_fifoflush: if ((ahc->features & AHC_DT) == 0) { if ((ahc->bugs & AHC_AUTOFLUSH_BUG) != 0) { /* * On Rev A of the aic7890, the autoflush * feature doesn't function correctly. * Perform an explicit manual flush. During * a manual flush, the FIFOEMP bit becomes * true every time the PCI FIFO empties * regardless of the state of the SCSI FIFO. * It can take up to 4 clock cycles for the * SCSI FIFO to get data into the PCI FIFO * and for FIFOEMP to de-assert. Here we * guard against this condition by making * sure the FIFOEMP bit stays on for 5 full * clock cycles. */ or DFCNTRL, FIFOFLUSH; test DFSTATUS, FIFOEMP jz ultra2_fifoflush; test DFSTATUS, FIFOEMP jz ultra2_fifoflush; test DFSTATUS, FIFOEMP jz ultra2_fifoflush; test DFSTATUS, FIFOEMP jz ultra2_fifoflush; } test DFSTATUS, FIFOEMP jz ultra2_fifoflush; } else { /* * We enable the auto-ack feature on DT capable * controllers. This means that the controller may * have already transferred some overrun bytes into * the data FIFO and acked them on the bus. The only * way to detect this situation is to wait for * LAST_SEG_DONE to come true on a completed transfer * and then test to see if the data FIFO is non-empty. */ test SCB_RESIDUAL_SGPTR[0], SG_LIST_NULL jz ultra2_wait_fifoemp; test SG_CACHE_SHADOW, LAST_SEG_DONE jz .; /* * FIFOEMP can lag LAST_SEG_DONE. Wait a few * clocks before calling this an overrun. */ test DFSTATUS, FIFOEMP jnz ultra2_fifoempty; test DFSTATUS, FIFOEMP jnz ultra2_fifoempty; test DFSTATUS, FIFOEMP jnz ultra2_fifoempty; /* Overrun */ jmp data_phase_loop; ultra2_wait_fifoemp: test DFSTATUS, FIFOEMP jz .; } ultra2_fifoempty: /* Don't clobber an inprogress host data transfer */ test DFSTATUS, MREQPEND jnz ultra2_fifoempty; ultra2_dmahalt: and DFCNTRL, ~(SCSIEN|HDMAEN); test DFCNTRL, SCSIEN|HDMAEN jnz .; if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { /* * Keep HHADDR cleared for future, 32bit addressed * only, DMA operations. * * Due to bayonette style S/G handling, our residual * data must be "fixed up" once the transfer is halted. * Here we fixup the HSHADDR stored in the high byte * of the residual data cnt. By postponing the fixup, * we can batch the clearing of HADDR with the fixup. * If we halted on the last segment, the residual is * already correct. If we are not on the last * segment, copy the high address directly from HSHADDR. * We don't need to worry about maintaining the * SG_LAST_SEG flag as it will always be false in the * case where an update is required. */ or DSCOMMAND1, HADDLDSEL0; test SG_CACHE_SHADOW, LAST_SEG jnz . + 2; mov SCB_RESIDUAL_DATACNT[3], SHADDR; clr HADDR; and DSCOMMAND1, ~HADDLDSEL0; } } else { /* If we are the last SG block, tell the hardware. */ if ((ahc->bugs & AHC_PCI_MWI_BUG) != 0 && ahc->pci_cachesize != 0) { test MWI_RESIDUAL, 0xFF jnz dma_mid_sg; } test SCB_RESIDUAL_DATACNT[3], SG_LAST_SEG jz dma_mid_sg; if ((ahc->flags & AHC_TARGETROLE) != 0) { test SSTAT0, TARGET jz dma_last_sg; if ((ahc->bugs & AHC_TMODE_WIDEODD_BUG) != 0) { test DMAPARAMS, DIRECTION jz dma_mid_sg; } } dma_last_sg: and DMAPARAMS, ~WIDEODD; dma_mid_sg: /* Start DMA data transfer. */ mov DFCNTRL, DMAPARAMS; dma_loop: if ((ahc->features & AHC_CMD_CHAN) != 0) { call idle_loop; } test SSTAT0,DMADONE jnz dma_dmadone; test SSTAT1,PHASEMIS jz dma_loop; /* ie. underrun */ dma_phasemis: /* * We will be "done" DMAing when the transfer count goes to * zero, or the target changes the phase (in light of this, * it makes sense that the DMA circuitry doesn't ACK when * PHASEMIS is active). If we are doing a SCSI->Host transfer, * the data FIFO should be flushed auto-magically on STCNT=0 * or a phase change, so just wait for FIFO empty status. */ dma_checkfifo: test DFCNTRL,DIRECTION jnz dma_fifoempty; dma_fifoflush: test DFSTATUS,FIFOEMP jz dma_fifoflush; dma_fifoempty: /* Don't clobber an inprogress host data transfer */ test DFSTATUS, MREQPEND jnz dma_fifoempty; /* * Now shut off the DMA and make sure that the DMA * hardware has actually stopped. Touching the DMA * counters, etc. while a DMA is active will result * in an ILLSADDR exception. */ dma_dmadone: and DFCNTRL, ~(SCSIEN|SDMAEN|HDMAEN); dma_halt: /* * Some revisions of the aic78XX have a problem where, if the * data fifo is full, but the PCI input latch is not empty, * HDMAEN cannot be cleared. The fix used here is to drain * the prefetched but unused data from the data fifo until * there is space for the input latch to drain. */ if ((ahc->bugs & AHC_PCI_2_1_RETRY_BUG) != 0) { mov NONE, DFDAT; } test DFCNTRL, (SCSIEN|SDMAEN|HDMAEN) jnz dma_halt; /* See if we have completed this last segment */ test STCNT[0], 0xff jnz data_phase_finish; test STCNT[1], 0xff jnz data_phase_finish; test STCNT[2], 0xff jnz data_phase_finish; /* * Advance the scatter-gather pointers if needed */ if ((ahc->bugs & AHC_PCI_MWI_BUG) != 0 && ahc->pci_cachesize != 0) { test MWI_RESIDUAL, 0xFF jz no_mwi_resid; /* * Reload HADDR from SHADDR and setup the * count to be the size of our residual. */ if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov HADDR, SHADDR, 4; mov HCNT, MWI_RESIDUAL; bmov HCNT[1], ALLZEROS, 2; } else { mvi DINDEX, HADDR; mvi SHADDR call bcopy_4; mov MWI_RESIDUAL call set_hcnt; } clr MWI_RESIDUAL; jmp sg_load_done; no_mwi_resid: } test SCB_RESIDUAL_DATACNT[3], SG_LAST_SEG jz sg_load; or SCB_RESIDUAL_SGPTR[0], SG_LIST_NULL; jmp data_phase_finish; sg_load: /* * Load the next SG element's data address and length * into the DMA engine. If we don't have hardware * to perform a prefetch, we'll have to fetch the * segment from host memory first. */ if ((ahc->features & AHC_CMD_CHAN) != 0) { /* Wait for the idle loop to complete */ test CCSGCTL, CCSGEN jz . + 3; call idle_loop; test CCSGCTL, CCSGEN jnz . - 1; bmov HADDR, CCSGRAM, 7; /* * Workaround for flaky external SCB RAM * on certain aic7895 setups. It seems * unable to handle direct transfers from * S/G ram to certain SCB locations. */ mov SINDEX, CCSGRAM; mov SCB_RESIDUAL_DATACNT[3], SINDEX; } else { if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { mov ALLZEROS call set_hhaddr; } mvi DINDEX, HADDR; mvi SCB_RESIDUAL_SGPTR call bcopy_4; mvi SG_SIZEOF call set_hcnt; or DFCNTRL, HDMAEN|DIRECTION|FIFORESET; call dma_finish; mvi DINDEX, HADDR; call dfdat_in_7; mov SCB_RESIDUAL_DATACNT[3], DFDAT; } if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { mov SCB_RESIDUAL_DATACNT[3] call set_hhaddr; /* * The lowest address byte must be loaded * last as it triggers the computation of * some items in the PCI block. The ULTRA2 * chips do this on PRELOAD. */ mov HADDR, HADDR; } if ((ahc->bugs & AHC_PCI_MWI_BUG) != 0 && ahc->pci_cachesize != 0) { call calc_mwi_residual; } /* Point to the new next sg in memory */ call sg_advance; sg_load_done: if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov STCNT, HCNT, 3; } else { call set_stcnt_from_hcnt; } if ((ahc->flags & AHC_TARGETROLE) != 0) { test SSTAT0, TARGET jnz data_phase_loop; } } data_phase_finish: /* * If the target has left us in data phase, loop through * the dma code again. In the case of ULTRA2 adapters, * we should only loop if there is a data overrun. For * all other adapters, we'll loop after each S/G element * is loaded as well as if there is an overrun. */ if ((ahc->flags & AHC_TARGETROLE) != 0) { test SSTAT0, TARGET jnz data_phase_done; } if ((ahc->flags & AHC_INITIATORROLE) != 0) { test SSTAT1, REQINIT jz .; if ((ahc->features & AHC_DT) == 0) { test SSTAT1,PHASEMIS jz data_phase_loop; } else { test SCSIPHASE, DATA_PHASE_MASK jnz data_phase_loop; } } data_phase_done: /* * After a DMA finishes, save the SG and STCNT residuals back into * the SCB. We use STCNT instead of HCNT, since it's a reflection * of how many bytes were transferred on the SCSI (as opposed to the * host) bus. */ if ((ahc->features & AHC_CMD_CHAN) != 0) { /* Kill off any pending prefetch */ call disable_ccsgen; } if ((ahc->features & AHC_ULTRA2) == 0) { /* * Clear the high address byte so that all other DMA * operations, which use 32bit addressing, can assume * HHADDR is 0. */ if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { mov ALLZEROS call set_hhaddr; } } /* * Update our residual information before the information is * lost by some other type of SCSI I/O (e.g. PIO). If we have * transferred all data, no update is needed. * */ test SCB_RESIDUAL_SGPTR, SG_LIST_NULL jnz residual_update_done; if ((ahc->bugs & AHC_PCI_MWI_BUG) != 0 && ahc->pci_cachesize != 0) { if ((ahc->features & AHC_CMD_CHAN) != 0) { test MWI_RESIDUAL, 0xFF jz bmov_resid; } mov A, MWI_RESIDUAL; add SCB_RESIDUAL_DATACNT[0], A, STCNT[0]; clr A; adc SCB_RESIDUAL_DATACNT[1], A, STCNT[1]; adc SCB_RESIDUAL_DATACNT[2], A, STCNT[2]; clr MWI_RESIDUAL; if ((ahc->features & AHC_CMD_CHAN) != 0) { jmp . + 2; bmov_resid: bmov SCB_RESIDUAL_DATACNT, STCNT, 3; } } else if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov SCB_RESIDUAL_DATACNT, STCNT, 3; } else { mov SCB_RESIDUAL_DATACNT[0], STCNT[0]; mov SCB_RESIDUAL_DATACNT[1], STCNT[1]; mov SCB_RESIDUAL_DATACNT[2], STCNT[2]; } residual_update_done: /* * Since we've been through a data phase, the SCB_RESID* fields * are now initialized. Clear the full residual flag. */ and SCB_SGPTR[0], ~SG_FULL_RESID; if ((ahc->features & AHC_ULTRA2) != 0) { /* Clear the channel in case we return to data phase later */ or SXFRCTL0, CLRSTCNT|CLRCHN; or SXFRCTL0, CLRSTCNT|CLRCHN; } if ((ahc->flags & AHC_TARGETROLE) != 0) { test SEQ_FLAGS, DPHASE_PENDING jz ITloop; and SEQ_FLAGS, ~DPHASE_PENDING; /* * For data-in phases, wait for any pending acks from the * initiator before changing phase. We only need to * send Ignore Wide Residue messages for data-in phases. */ test DFCNTRL, DIRECTION jz target_ITloop; test SSTAT1, REQINIT jnz .; test SCB_LUN, SCB_XFERLEN_ODD jz target_ITloop; test SCSIRATE, WIDEXFER jz target_ITloop; /* * Issue an Ignore Wide Residue Message. */ mvi P_MESGIN|BSYO call change_phase; mvi MSG_IGN_WIDE_RESIDUE call target_outb; mvi 1 call target_outb; jmp target_ITloop; } else { jmp ITloop; } if ((ahc->flags & AHC_INITIATORROLE) != 0) { /* * Command phase. Set up the DMA registers and let 'er rip. */ p_command: test SEQ_FLAGS, NOT_IDENTIFIED jz p_command_okay; mvi PROTO_VIOLATION call set_seqint; p_command_okay: if ((ahc->features & AHC_ULTRA2) != 0) { bmov HCNT[0], SCB_CDB_LEN, 1; bmov HCNT[1], ALLZEROS, 2; mvi SG_CACHE_PRE, LAST_SEG; } else if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov STCNT[0], SCB_CDB_LEN, 1; bmov STCNT[1], ALLZEROS, 2; } else { mov STCNT[0], SCB_CDB_LEN; clr STCNT[1]; clr STCNT[2]; } add NONE, -13, SCB_CDB_LEN; mvi SCB_CDB_STORE jnc p_command_embedded; p_command_from_host: if ((ahc->features & AHC_ULTRA2) != 0) { bmov HADDR[0], SCB_CDB_PTR, 4; mvi DFCNTRL, (PRELOADEN|SCSIEN|HDMAEN|DIRECTION); } else { if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov HADDR[0], SCB_CDB_PTR, 4; bmov HCNT, STCNT, 3; } else { mvi DINDEX, HADDR; mvi SCB_CDB_PTR call bcopy_4; mov SCB_CDB_LEN call set_hcnt; } mvi DFCNTRL, (SCSIEN|SDMAEN|HDMAEN|DIRECTION|FIFORESET); } jmp p_command_xfer; p_command_embedded: /* * The data fifo seems to require 4 byte aligned * transfers from the sequencer. Force this to * be the case by clearing HADDR[0] even though * we aren't going to touch host memory. */ clr HADDR[0]; if ((ahc->features & AHC_ULTRA2) != 0) { mvi DFCNTRL, (PRELOADEN|SCSIEN|DIRECTION); bmov DFDAT, SCB_CDB_STORE, 12; } else if ((ahc->features & AHC_CMD_CHAN) != 0) { if ((ahc->flags & AHC_SCB_BTT) != 0) { /* * On the 7895 the data FIFO will * get corrupted if you try to dump * data from external SCB memory into * the FIFO while it is enabled. So, * fill the fifo and then enable SCSI * transfers. */ mvi DFCNTRL, (DIRECTION|FIFORESET); } else { mvi DFCNTRL, (SCSIEN|SDMAEN|DIRECTION|FIFORESET); } bmov DFDAT, SCB_CDB_STORE, 12; if ((ahc->flags & AHC_SCB_BTT) != 0) { mvi DFCNTRL, (SCSIEN|SDMAEN|DIRECTION|FIFOFLUSH); } else { or DFCNTRL, FIFOFLUSH; } } else { mvi DFCNTRL, (SCSIEN|SDMAEN|DIRECTION|FIFORESET); call copy_to_fifo_6; call copy_to_fifo_6; or DFCNTRL, FIFOFLUSH; } p_command_xfer: and SEQ_FLAGS, ~NO_CDB_SENT; if ((ahc->features & AHC_DT) == 0) { test SSTAT0, SDONE jnz . + 2; test SSTAT1, PHASEMIS jz . - 1; /* * Wait for our ACK to go-away on it's own * instead of being killed by SCSIEN getting cleared. */ test SCSISIGI, ACKI jnz .; } else { test DFCNTRL, SCSIEN jnz .; } test SSTAT0, SDONE jnz p_command_successful; /* * Don't allow a data phase if the command * was not fully transferred. */ or SEQ_FLAGS, NO_CDB_SENT; p_command_successful: and DFCNTRL, ~(SCSIEN|SDMAEN|HDMAEN); test DFCNTRL, (SCSIEN|SDMAEN|HDMAEN) jnz .; jmp ITloop; /* * Status phase. Wait for the data byte to appear, then read it * and store it into the SCB. */ p_status: test SEQ_FLAGS, NOT_IDENTIFIED jnz mesgin_proto_violation; p_status_okay: mov SCB_SCSI_STATUS, SCSIDATL; or SCB_CONTROL, STATUS_RCVD; jmp ITloop; /* * Message out phase. If MSG_OUT is MSG_IDENTIFYFLAG, build a full * indentify message sequence and send it to the target. The host may * override this behavior by setting the MK_MESSAGE bit in the SCB * control byte. This will cause us to interrupt the host and allow * it to handle the message phase completely on its own. If the bit * associated with this target is set, we will also interrupt the host, * thereby allowing it to send a message on the next selection regardless * of the transaction being sent. * * If MSG_OUT is == HOST_MSG, also interrupt the host and take a message. * This is done to allow the host to send messages outside of an identify * sequence while protecting the seqencer from testing the MK_MESSAGE bit * on an SCB that might not be for the current nexus. (For example, a * BDR message in response to a bad reselection would leave us pointed to * an SCB that doesn't have anything to do with the current target). * * Otherwise, treat MSG_OUT as a 1 byte message to send (abort, abort tag, * bus device reset). * * When there are no messages to send, MSG_OUT should be set to MSG_NOOP, * in case the target decides to put us in this phase for some strange * reason. */ p_mesgout_retry: /* Turn on ATN for the retry */ if ((ahc->features & AHC_DT) == 0) { or SCSISIGO, ATNO, LASTPHASE; } else { mvi SCSISIGO, ATNO; } p_mesgout: mov SINDEX, MSG_OUT; cmp SINDEX, MSG_IDENTIFYFLAG jne p_mesgout_from_host; test SCB_CONTROL,MK_MESSAGE jnz host_message_loop; p_mesgout_identify: or SINDEX, MSG_IDENTIFYFLAG|DISCENB, SAVED_LUN; test SCB_CONTROL, DISCENB jnz . + 2; and SINDEX, ~DISCENB; /* * Send a tag message if TAG_ENB is set in the SCB control block. * Use SCB_TAG (the position in the kernel's SCB array) as the tag value. */ p_mesgout_tag: test SCB_CONTROL,TAG_ENB jz p_mesgout_onebyte; mov SCSIDATL, SINDEX; /* Send the identify message */ call phase_lock; cmp LASTPHASE, P_MESGOUT jne p_mesgout_done; and SCSIDATL,TAG_ENB|SCB_TAG_TYPE,SCB_CONTROL; call phase_lock; cmp LASTPHASE, P_MESGOUT jne p_mesgout_done; mov SCB_TAG jmp p_mesgout_onebyte; /* * Interrupt the driver, and allow it to handle this message * phase and any required retries. */ p_mesgout_from_host: cmp SINDEX, HOST_MSG jne p_mesgout_onebyte; jmp host_message_loop; p_mesgout_onebyte: mvi CLRSINT1, CLRATNO; mov SCSIDATL, SINDEX; /* * If the next bus phase after ATN drops is message out, it means * that the target is requesting that the last message(s) be resent. */ call phase_lock; cmp LASTPHASE, P_MESGOUT je p_mesgout_retry; p_mesgout_done: mvi CLRSINT1,CLRATNO; /* Be sure to turn ATNO off */ mov LAST_MSG, MSG_OUT; mvi MSG_OUT, MSG_NOOP; /* No message left */ jmp ITloop; /* * Message in phase. Bytes are read using Automatic PIO mode. */ p_mesgin: mvi ACCUM call inb_first; /* read the 1st message byte */ test A,MSG_IDENTIFYFLAG jnz mesgin_identify; cmp A,MSG_DISCONNECT je mesgin_disconnect; cmp A,MSG_SAVEDATAPOINTER je mesgin_sdptrs; cmp ALLZEROS,A je mesgin_complete; cmp A,MSG_RESTOREPOINTERS je mesgin_rdptrs; cmp A,MSG_IGN_WIDE_RESIDUE je mesgin_ign_wide_residue; cmp A,MSG_NOOP je mesgin_done; /* * Pushed message loop to allow the kernel to * run it's own message state engine. To avoid an * extra nop instruction after signaling the kernel, * we perform the phase_lock before checking to see * if we should exit the loop and skip the phase_lock * in the ITloop. Performing back to back phase_locks * shouldn't hurt, but why do it twice... */ host_message_loop: mvi HOST_MSG_LOOP call set_seqint; call phase_lock; cmp RETURN_1, EXIT_MSG_LOOP je ITloop + 1; jmp host_message_loop; mesgin_ign_wide_residue: if ((ahc->features & AHC_WIDE) != 0) { test SCSIRATE, WIDEXFER jz mesgin_reject; /* Pull the residue byte */ mvi ARG_1 call inb_next; cmp ARG_1, 0x01 jne mesgin_reject; test SCB_RESIDUAL_SGPTR[0], SG_LIST_NULL jz . + 2; test SCB_LUN, SCB_XFERLEN_ODD jnz mesgin_done; mvi IGN_WIDE_RES call set_seqint; jmp mesgin_done; } mesgin_proto_violation: mvi PROTO_VIOLATION call set_seqint; jmp mesgin_done; mesgin_reject: mvi MSG_MESSAGE_REJECT call mk_mesg; mesgin_done: mov NONE,SCSIDATL; /*dummy read from latch to ACK*/ jmp ITloop; /* * We received a "command complete" message. Put the SCB_TAG into the QOUTFIFO, * and trigger a completion interrupt. Before doing so, check to see if there * is a residual or the status byte is something other than STATUS_GOOD (0). * In either of these conditions, we upload the SCB back to the host so it can * process this information. In the case of a non zero status byte, we * additionally interrupt the kernel driver synchronously, allowing it to * decide if sense should be retrieved. If the kernel driver wishes to request * sense, it will fill the kernel SCB with a request sense command, requeue * it to the QINFIFO and tell us not to post to the QOUTFIFO by setting * RETURN_1 to SEND_SENSE. */ mesgin_complete: /* * If ATN is raised, we still want to give the target a message. * Perhaps there was a parity error on this last message byte. * Either way, the target should take us to message out phase * and then attempt to complete the command again. We should use a * critical section here to guard against a timeout triggering * for this command and setting ATN while we are still processing * the completion. test SCSISIGI, ATNI jnz mesgin_done; */ /* * If we are identified and have successfully sent the CDB, * any status will do. Optimize this fast path. */ test SCB_CONTROL, STATUS_RCVD jz mesgin_proto_violation; test SEQ_FLAGS, NOT_IDENTIFIED|NO_CDB_SENT jz complete_accepted; /* * If the target never sent an identify message but instead went * to mesgin to give an invalid message, let the host abort us. */ test SEQ_FLAGS, NOT_IDENTIFIED jnz mesgin_proto_violation; /* * If we recevied good status but never successfully sent the * cdb, abort the command. */ test SCB_SCSI_STATUS,0xff jnz complete_accepted; test SEQ_FLAGS, NO_CDB_SENT jnz mesgin_proto_violation; complete_accepted: /* * See if we attempted to deliver a message but the target ingnored us. */ test SCB_CONTROL, MK_MESSAGE jz . + 2; mvi MKMSG_FAILED call set_seqint; /* * Check for residuals */ test SCB_SGPTR, SG_LIST_NULL jnz check_status;/* No xfer */ test SCB_SGPTR, SG_FULL_RESID jnz upload_scb;/* Never xfered */ test SCB_RESIDUAL_SGPTR, SG_LIST_NULL jz upload_scb; check_status: test SCB_SCSI_STATUS,0xff jz complete; /* Good Status? */ upload_scb: or SCB_SGPTR, SG_RESID_VALID; mvi DMAPARAMS, FIFORESET; mov SCB_TAG call dma_scb; test SCB_SCSI_STATUS, 0xff jz complete; /* Just a residual? */ mvi BAD_STATUS call set_seqint; /* let driver know */ cmp RETURN_1, SEND_SENSE jne complete; call add_scb_to_free_list; jmp await_busfree; complete: mov SCB_TAG call complete_post; jmp await_busfree; } complete_post: /* Post the SCBID in SINDEX and issue an interrupt */ call add_scb_to_free_list; mov ARG_1, SINDEX; if ((ahc->features & AHC_QUEUE_REGS) != 0) { mov A, SDSCB_QOFF; } else { mov A, QOUTPOS; } mvi QOUTFIFO_OFFSET call post_byte_setup; mov ARG_1 call post_byte; if ((ahc->features & AHC_QUEUE_REGS) == 0) { inc QOUTPOS; } mvi INTSTAT,CMDCMPLT ret; if ((ahc->flags & AHC_INITIATORROLE) != 0) { /* * Is it a disconnect message? Set a flag in the SCB to remind us * and await the bus going free. If this is an untagged transaction * store the SCB id for it in our untagged target table for lookup on * a reselection. */ mesgin_disconnect: /* * If ATN is raised, we still want to give the target a message. * Perhaps there was a parity error on this last message byte * or we want to abort this command. Either way, the target * should take us to message out phase and then attempt to * disconnect again. * XXX - Wait for more testing. test SCSISIGI, ATNI jnz mesgin_done; */ test SEQ_FLAGS, NOT_IDENTIFIED|NO_CDB_SENT jnz mesgin_proto_violation; or SCB_CONTROL,DISCONNECTED; if ((ahc->flags & AHC_PAGESCBS) != 0) { call add_scb_to_disc_list; } test SCB_CONTROL, TAG_ENB jnz await_busfree; mov ARG_1, SCB_TAG; and SAVED_LUN, LID, SCB_LUN; mov SCB_SCSIID call set_busy_target; jmp await_busfree; /* * Save data pointers message: * Copying RAM values back to SCB, for Save Data Pointers message, but * only if we've actually been into a data phase to change them. This * protects against bogus data in scratch ram and the residual counts * since they are only initialized when we go into data_in or data_out. * Ack the message as soon as possible. For chips without S/G pipelining, * we can only ack the message after SHADDR has been saved. On these * chips, SHADDR increments with every bus transaction, even PIO. */ mesgin_sdptrs: if ((ahc->features & AHC_ULTRA2) != 0) { mov NONE,SCSIDATL; /*dummy read from latch to ACK*/ test SEQ_FLAGS, DPHASE jz ITloop; } else { test SEQ_FLAGS, DPHASE jz mesgin_done; } /* * If we are asked to save our position at the end of the * transfer, just mark us at the end rather than perform a * full save. */ test SCB_RESIDUAL_SGPTR[0], SG_LIST_NULL jz mesgin_sdptrs_full; or SCB_SGPTR, SG_LIST_NULL; if ((ahc->features & AHC_ULTRA2) != 0) { jmp ITloop; } else { jmp mesgin_done; } mesgin_sdptrs_full: /* * The SCB_SGPTR becomes the next one we'll download, * and the SCB_DATAPTR becomes the current SHADDR. * Use the residual number since STCNT is corrupted by * any message transfer. */ if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov SCB_DATAPTR, SHADDR, 4; if ((ahc->features & AHC_ULTRA2) == 0) { mov NONE,SCSIDATL; /*dummy read from latch to ACK*/ } bmov SCB_DATACNT, SCB_RESIDUAL_DATACNT, 8; } else { mvi DINDEX, SCB_DATAPTR; mvi SHADDR call bcopy_4; mov NONE,SCSIDATL; /*dummy read from latch to ACK*/ mvi SCB_RESIDUAL_DATACNT call bcopy_8; } jmp ITloop; /* * Restore pointers message? Data pointers are recopied from the * SCB anytime we enter a data phase for the first time, so all * we need to do is clear the DPHASE flag and let the data phase * code do the rest. We also reset/reallocate the FIFO to make * sure we have a clean start for the next data or command phase. */ mesgin_rdptrs: and SEQ_FLAGS, ~DPHASE; /* * We'll reload them * the next time through * the dataphase. */ or SXFRCTL0, CLRSTCNT|CLRCHN; jmp mesgin_done; /* * Index into our Busy Target table. SINDEX and DINDEX are modified * upon return. SCBPTR may be modified by this action. */ set_busy_target: shr DINDEX, 4, SINDEX; if ((ahc->flags & AHC_SCB_BTT) != 0) { mov SCBPTR, SAVED_LUN; add DINDEX, SCB_64_BTT; } else { add DINDEX, BUSY_TARGETS; } mov DINDIR, ARG_1 ret; /* * Identify message? For a reconnecting target, this tells us the lun * that the reconnection is for - find the correct SCB and switch to it, * clearing the "disconnected" bit so we don't "find" it by accident later. */ mesgin_identify: /* * Determine whether a target is using tagged or non-tagged * transactions by first looking at the transaction stored in * the busy target array. If there is no untagged transaction * for this target or the transaction is for a different lun, then * this must be a tagged transaction. */ shr SINDEX, 4, SAVED_SCSIID; and SAVED_LUN, MSG_IDENTIFY_LUNMASK, A; if ((ahc->flags & AHC_SCB_BTT) != 0) { add SINDEX, SCB_64_BTT; mov SCBPTR, SAVED_LUN; if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { add NONE, -SCB_64_BTT, SINDEX; jc . + 2; mvi INTSTAT, OUT_OF_RANGE; nop; add NONE, -(SCB_64_BTT + 16), SINDEX; jnc . + 2; mvi INTSTAT, OUT_OF_RANGE; nop; } } else { add SINDEX, BUSY_TARGETS; if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { add NONE, -BUSY_TARGETS, SINDEX; jc . + 2; mvi INTSTAT, OUT_OF_RANGE; nop; add NONE, -(BUSY_TARGETS + 16), SINDEX; jnc . + 2; mvi INTSTAT, OUT_OF_RANGE; nop; } } mov ARG_1, SINDIR; cmp ARG_1, SCB_LIST_NULL je snoop_tag; if ((ahc->flags & AHC_PAGESCBS) != 0) { mov ARG_1 call findSCB; } else { mov SCBPTR, ARG_1; } if ((ahc->flags & AHC_SCB_BTT) != 0) { jmp setup_SCB_id_lun_okay; } else { /* * We only allow one untagged command per-target * at a time. So, if the lun doesn't match, look * for a tag message. */ and A, LID, SCB_LUN; cmp SAVED_LUN, A je setup_SCB_id_lun_okay; if ((ahc->flags & AHC_PAGESCBS) != 0) { /* * findSCB removes the SCB from the * disconnected list, so we must replace * it there should this SCB be for another * lun. */ call cleanup_scb; } } /* * Here we "snoop" the bus looking for a SIMPLE QUEUE TAG message. * If we get one, we use the tag returned to find the proper * SCB. With SCB paging, we must search for non-tagged * transactions since the SCB may exist in any slot. If we're not * using SCB paging, we can use the tag as the direct index to the * SCB. */ snoop_tag: if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { or SEQ_FLAGS, 0x80; } mov NONE,SCSIDATL; /* ACK Identify MSG */ call phase_lock; if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { or SEQ_FLAGS, 0x1; } cmp LASTPHASE, P_MESGIN jne not_found; if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { or SEQ_FLAGS, 0x2; } cmp SCSIBUSL,MSG_SIMPLE_Q_TAG jne not_found; get_tag: if ((ahc->flags & AHC_PAGESCBS) != 0) { mvi ARG_1 call inb_next; /* tag value */ mov ARG_1 call findSCB; } else { mvi ARG_1 call inb_next; /* tag value */ mov SCBPTR, ARG_1; } /* * Ensure that the SCB the tag points to is for * an SCB transaction to the reconnecting target. */ setup_SCB: if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { or SEQ_FLAGS, 0x4; } mov A, SCB_SCSIID; cmp SAVED_SCSIID, A jne not_found_cleanup_scb; if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { or SEQ_FLAGS, 0x8; } setup_SCB_id_okay: and A, LID, SCB_LUN; cmp SAVED_LUN, A jne not_found_cleanup_scb; setup_SCB_id_lun_okay: if ((ahc->flags & AHC_SEQUENCER_DEBUG) != 0) { or SEQ_FLAGS, 0x10; } test SCB_CONTROL,DISCONNECTED jz not_found_cleanup_scb; and SCB_CONTROL,~DISCONNECTED; test SCB_CONTROL, TAG_ENB jnz setup_SCB_tagged; if ((ahc->flags & AHC_SCB_BTT) != 0) { mov A, SCBPTR; } mvi ARG_1, SCB_LIST_NULL; mov SAVED_SCSIID call set_busy_target; if ((ahc->flags & AHC_SCB_BTT) != 0) { mov SCBPTR, A; } setup_SCB_tagged: clr SEQ_FLAGS; /* make note of IDENTIFY */ call set_transfer_settings; /* See if the host wants to send a message upon reconnection */ test SCB_CONTROL, MK_MESSAGE jz mesgin_done; mvi HOST_MSG call mk_mesg; jmp mesgin_done; not_found_cleanup_scb: if ((ahc->flags & AHC_PAGESCBS) != 0) { call cleanup_scb; } not_found: mvi NO_MATCH call set_seqint; jmp mesgin_done; mk_mesg: if ((ahc->features & AHC_DT) == 0) { or SCSISIGO, ATNO, LASTPHASE; } else { mvi SCSISIGO, ATNO; } mov MSG_OUT,SINDEX ret; /* * Functions to read data in Automatic PIO mode. * * According to Adaptec's documentation, an ACK is not sent on input from * the target until SCSIDATL is read from. So we wait until SCSIDATL is * latched (the usual way), then read the data byte directly off the bus * using SCSIBUSL. When we have pulled the ATN line, or we just want to * acknowledge the byte, then we do a dummy read from SCISDATL. The SCSI * spec guarantees that the target will hold the data byte on the bus until * we send our ACK. * * The assumption here is that these are called in a particular sequence, * and that REQ is already set when inb_first is called. inb_{first,next} * use the same calling convention as inb. */ inb_next_wait_perr: mvi PERR_DETECTED call set_seqint; jmp inb_next_wait; inb_next: mov NONE,SCSIDATL; /*dummy read from latch to ACK*/ inb_next_wait: /* * If there is a parity error, wait for the kernel to * see the interrupt and prepare our message response * before continuing. */ test SSTAT1, REQINIT jz inb_next_wait; test SSTAT1, SCSIPERR jnz inb_next_wait_perr; inb_next_check_phase: and LASTPHASE, PHASE_MASK, SCSISIGI; cmp LASTPHASE, P_MESGIN jne mesgin_phasemis; inb_first: mov DINDEX,SINDEX; mov DINDIR,SCSIBUSL ret; /*read byte directly from bus*/ inb_last: mov NONE,SCSIDATL ret; /*dummy read from latch to ACK*/ } if ((ahc->flags & AHC_TARGETROLE) != 0) { /* * Change to a new phase. If we are changing the state of the I/O signal, * from out to in, wait an additional data release delay before continuing. */ change_phase: /* Wait for preceding I/O session to complete. */ test SCSISIGI, ACKI jnz .; /* Change the phase */ and DINDEX, IOI, SCSISIGI; mov SCSISIGO, SINDEX; and A, IOI, SINDEX; /* * If the data direction has changed, from * out (initiator driving) to in (target driving), * we must wait at least a data release delay plus * the normal bus settle delay. [SCSI III SPI 10.11.0] */ cmp DINDEX, A je change_phase_wait; test SINDEX, IOI jz change_phase_wait; call change_phase_wait; change_phase_wait: nop; nop; nop; nop ret; /* * Send a byte to an initiator in Automatic PIO mode. */ target_outb: or SXFRCTL0, SPIOEN; test SSTAT0, SPIORDY jz .; mov SCSIDATL, SINDEX; test SSTAT0, SPIORDY jz .; and SXFRCTL0, ~SPIOEN ret; } /* * Locate a disconnected SCB by SCBID. Upon return, SCBPTR and SINDEX will * be set to the position of the SCB. If the SCB cannot be found locally, * it will be paged in from host memory. RETURN_2 stores the address of the * preceding SCB in the disconnected list which can be used to speed up * removal of the found SCB from the disconnected list. */ if ((ahc->flags & AHC_PAGESCBS) != 0) { BEGIN_CRITICAL; findSCB: mov A, SINDEX; /* Tag passed in SINDEX */ cmp DISCONNECTED_SCBH, SCB_LIST_NULL je findSCB_notFound; mov SCBPTR, DISCONNECTED_SCBH; /* Initialize SCBPTR */ mvi ARG_2, SCB_LIST_NULL; /* Head of list */ jmp findSCB_loop; findSCB_next: cmp SCB_NEXT, SCB_LIST_NULL je findSCB_notFound; mov ARG_2, SCBPTR; mov SCBPTR,SCB_NEXT; findSCB_loop: cmp SCB_TAG, A jne findSCB_next; rem_scb_from_disc_list: cmp ARG_2, SCB_LIST_NULL je rHead; mov DINDEX, SCB_NEXT; mov SINDEX, SCBPTR; mov SCBPTR, ARG_2; mov SCB_NEXT, DINDEX; mov SCBPTR, SINDEX ret; rHead: mov DISCONNECTED_SCBH,SCB_NEXT ret; END_CRITICAL; findSCB_notFound: /* * We didn't find it. Page in the SCB. */ mov ARG_1, A; /* Save tag */ mov ALLZEROS call get_free_or_disc_scb; mvi DMAPARAMS, HDMAEN|DIRECTION|FIFORESET; mov ARG_1 jmp dma_scb; } /* * Prepare the hardware to post a byte to host memory given an * index of (A + (256 * SINDEX)) and a base address of SHARED_DATA_ADDR. */ post_byte_setup: mov ARG_2, SINDEX; if ((ahc->features & AHC_CMD_CHAN) != 0) { mvi DINDEX, CCHADDR; mvi SHARED_DATA_ADDR call set_1byte_addr; mvi CCHCNT, 1; mvi CCSCBCTL, CCSCBRESET ret; } else { mvi DINDEX, HADDR; mvi SHARED_DATA_ADDR call set_1byte_addr; mvi 1 call set_hcnt; mvi DFCNTRL, FIFORESET ret; } post_byte: if ((ahc->features & AHC_CMD_CHAN) != 0) { bmov CCSCBRAM, SINDEX, 1; or CCSCBCTL, CCSCBEN|CCSCBRESET; test CCSCBCTL, CCSCBDONE jz .; clr CCSCBCTL ret; } else { mov DFDAT, SINDEX; or DFCNTRL, HDMAEN|FIFOFLUSH; jmp dma_finish; } phase_lock_perr: mvi PERR_DETECTED call set_seqint; phase_lock: /* * If there is a parity error, wait for the kernel to * see the interrupt and prepare our message response * before continuing. */ test SSTAT1, REQINIT jz phase_lock; test SSTAT1, SCSIPERR jnz phase_lock_perr; phase_lock_latch_phase: if ((ahc->features & AHC_DT) == 0) { and SCSISIGO, PHASE_MASK, SCSISIGI; } and LASTPHASE, PHASE_MASK, SCSISIGI ret; if ((ahc->features & AHC_CMD_CHAN) == 0) { set_hcnt: mov HCNT[0], SINDEX; clear_hcnt: clr HCNT[1]; clr HCNT[2] ret; set_stcnt_from_hcnt: mov STCNT[0], HCNT[0]; mov STCNT[1], HCNT[1]; mov STCNT[2], HCNT[2] ret; bcopy_8: mov DINDIR, SINDIR; bcopy_7: mov DINDIR, SINDIR; mov DINDIR, SINDIR; bcopy_5: mov DINDIR, SINDIR; bcopy_4: mov DINDIR, SINDIR; bcopy_3: mov DINDIR, SINDIR; mov DINDIR, SINDIR; mov DINDIR, SINDIR ret; } if ((ahc->flags & AHC_TARGETROLE) != 0) { /* * Setup addr assuming that A is an index into * an array of 32byte objects, SINDEX contains * the base address of that array, and DINDEX * contains the base address of the location * to store the indexed address. */ set_32byte_addr: shr ARG_2, 3, A; shl A, 5; jmp set_1byte_addr; } /* * Setup addr assuming that A is an index into * an array of 64byte objects, SINDEX contains * the base address of that array, and DINDEX * contains the base address of the location * to store the indexed address. */ set_64byte_addr: shr ARG_2, 2, A; shl A, 6; /* * Setup addr assuming that A + (ARG_2 * 256) is an * index into an array of 1byte objects, SINDEX contains * the base address of that array, and DINDEX contains * the base address of the location to store the computed * address. */ set_1byte_addr: add DINDIR, A, SINDIR; mov A, ARG_2; adc DINDIR, A, SINDIR; clr A; adc DINDIR, A, SINDIR; adc DINDIR, A, SINDIR ret; /* * Either post or fetch an SCB from host memory based on the * DIRECTION bit in DMAPARAMS. The host SCB index is in SINDEX. */ dma_scb: mov A, SINDEX; if ((ahc->features & AHC_CMD_CHAN) != 0) { mvi DINDEX, CCHADDR; mvi HSCB_ADDR call set_64byte_addr; mov CCSCBPTR, SCBPTR; test DMAPARAMS, DIRECTION jz dma_scb_tohost; if ((ahc->flags & AHC_SCB_BTT) != 0) { mvi CCHCNT, SCB_DOWNLOAD_SIZE_64; } else { mvi CCHCNT, SCB_DOWNLOAD_SIZE; } mvi CCSCBCTL, CCARREN|CCSCBEN|CCSCBDIR|CCSCBRESET; cmp CCSCBCTL, CCSCBDONE|ARRDONE|CCARREN|CCSCBEN|CCSCBDIR jne .; jmp dma_scb_finish; dma_scb_tohost: mvi CCHCNT, SCB_UPLOAD_SIZE; if ((ahc->features & AHC_ULTRA2) == 0) { mvi CCSCBCTL, CCSCBRESET; bmov CCSCBRAM, SCB_BASE, SCB_UPLOAD_SIZE; or CCSCBCTL, CCSCBEN|CCSCBRESET; test CCSCBCTL, CCSCBDONE jz .; } else if ((ahc->bugs & AHC_SCBCHAN_UPLOAD_BUG) != 0) { mvi CCSCBCTL, CCARREN|CCSCBRESET; cmp CCSCBCTL, ARRDONE|CCARREN jne .; mvi CCHCNT, SCB_UPLOAD_SIZE; mvi CCSCBCTL, CCSCBEN|CCSCBRESET; cmp CCSCBCTL, CCSCBDONE|CCSCBEN jne .; } else { mvi CCSCBCTL, CCARREN|CCSCBEN|CCSCBRESET; cmp CCSCBCTL, CCSCBDONE|ARRDONE|CCARREN|CCSCBEN jne .; } dma_scb_finish: clr CCSCBCTL; test CCSCBCTL, CCARREN|CCSCBEN jnz .; ret; } else { mvi DINDEX, HADDR; mvi HSCB_ADDR call set_64byte_addr; mvi SCB_DOWNLOAD_SIZE call set_hcnt; mov DFCNTRL, DMAPARAMS; test DMAPARAMS, DIRECTION jnz dma_scb_fromhost; /* Fill it with the SCB data */ copy_scb_tofifo: mvi SINDEX, SCB_BASE; add A, SCB_DOWNLOAD_SIZE, SINDEX; copy_scb_tofifo_loop: call copy_to_fifo_8; cmp SINDEX, A jne copy_scb_tofifo_loop; or DFCNTRL, HDMAEN|FIFOFLUSH; jmp dma_finish; dma_scb_fromhost: mvi DINDEX, SCB_BASE; if ((ahc->bugs & AHC_PCI_2_1_RETRY_BUG) != 0) { /* * The PCI module will only issue a PCI * retry if the data FIFO is empty. If the * host disconnects in the middle of a * transfer, we must empty the fifo of all * available data to force the chip to * continue the transfer. This does not * happen for SCSI transfers as the SCSI module * will drain the FIFO as data are made available. * When the hang occurs, we know that a multiple * of 8 bytes is in the FIFO because the PCI * module has an 8 byte input latch that only * dumps to the FIFO when HCNT == 0 or the * latch is full. */ clr A; /* Wait for at least 8 bytes of data to arrive. */ dma_scb_hang_fifo: test DFSTATUS, FIFOQWDEMP jnz dma_scb_hang_fifo; dma_scb_hang_wait: test DFSTATUS, MREQPEND jnz dma_scb_hang_wait; test DFSTATUS, HDONE jnz dma_scb_hang_dma_done; test DFSTATUS, HDONE jnz dma_scb_hang_dma_done; test DFSTATUS, HDONE jnz dma_scb_hang_dma_done; /* * The PCI module no longer intends to perform * a PCI transaction. Drain the fifo. */ dma_scb_hang_dma_drain_fifo: not A, HCNT; add A, SCB_DOWNLOAD_SIZE+SCB_BASE+1; and A, ~0x7; mov DINDIR,DFDAT; cmp DINDEX, A jne . - 1; cmp DINDEX, SCB_DOWNLOAD_SIZE+SCB_BASE je dma_finish_nowait; /* Restore A as the lines left to transfer. */ add A, -SCB_BASE, DINDEX; shr A, 3; jmp dma_scb_hang_fifo; dma_scb_hang_dma_done: and DFCNTRL, ~HDMAEN; test DFCNTRL, HDMAEN jnz .; add SEQADDR0, A; } else { call dma_finish; } call dfdat_in_8; call dfdat_in_8; call dfdat_in_8; dfdat_in_8: mov DINDIR,DFDAT; dfdat_in_7: mov DINDIR,DFDAT; mov DINDIR,DFDAT; mov DINDIR,DFDAT; mov DINDIR,DFDAT; mov DINDIR,DFDAT; dfdat_in_2: mov DINDIR,DFDAT; mov DINDIR,DFDAT ret; } copy_to_fifo_8: mov DFDAT,SINDIR; mov DFDAT,SINDIR; copy_to_fifo_6: mov DFDAT,SINDIR; copy_to_fifo_5: mov DFDAT,SINDIR; copy_to_fifo_4: mov DFDAT,SINDIR; mov DFDAT,SINDIR; mov DFDAT,SINDIR; mov DFDAT,SINDIR ret; /* * Wait for DMA from host memory to data FIFO to complete, then disable * DMA and wait for it to acknowledge that it's off. */ dma_finish: test DFSTATUS,HDONE jz dma_finish; dma_finish_nowait: /* Turn off DMA */ and DFCNTRL, ~HDMAEN; test DFCNTRL, HDMAEN jnz .; ret; /* * Restore an SCB that failed to match an incoming reselection * to the correct/safe state. If the SCB is for a disconnected * transaction, it must be returned to the disconnected list. * If it is not in the disconnected state, it must be free. */ cleanup_scb: if ((ahc->flags & AHC_PAGESCBS) != 0) { test SCB_CONTROL,DISCONNECTED jnz add_scb_to_disc_list; } add_scb_to_free_list: if ((ahc->flags & AHC_PAGESCBS) != 0) { BEGIN_CRITICAL; mov SCB_NEXT, FREE_SCBH; mvi SCB_TAG, SCB_LIST_NULL; mov FREE_SCBH, SCBPTR ret; END_CRITICAL; } else { mvi SCB_TAG, SCB_LIST_NULL ret; } if ((ahc->flags & AHC_39BIT_ADDRESSING) != 0) { set_hhaddr: or DSCOMMAND1, HADDLDSEL0; and HADDR, SG_HIGH_ADDR_BITS, SINDEX; and DSCOMMAND1, ~HADDLDSEL0 ret; } if ((ahc->flags & AHC_PAGESCBS) != 0) { get_free_or_disc_scb: BEGIN_CRITICAL; cmp FREE_SCBH, SCB_LIST_NULL jne dequeue_free_scb; cmp DISCONNECTED_SCBH, SCB_LIST_NULL jne dequeue_disc_scb; return_error: mvi NO_FREE_SCB call set_seqint; mvi SINDEX, SCB_LIST_NULL ret; dequeue_disc_scb: mov SCBPTR, DISCONNECTED_SCBH; mov DISCONNECTED_SCBH, SCB_NEXT; END_CRITICAL; mvi DMAPARAMS, FIFORESET; mov SCB_TAG jmp dma_scb; BEGIN_CRITICAL; dequeue_free_scb: mov SCBPTR, FREE_SCBH; mov FREE_SCBH, SCB_NEXT ret; END_CRITICAL; add_scb_to_disc_list: /* * Link this SCB into the DISCONNECTED list. This list holds the * candidates for paging out an SCB if one is needed for a new command. * Modifying the disconnected list is a critical(pause dissabled) section. */ BEGIN_CRITICAL; mov SCB_NEXT, DISCONNECTED_SCBH; mov DISCONNECTED_SCBH, SCBPTR ret; END_CRITICAL; } set_seqint: mov INTSTAT, SINDEX; nop; return: ret; |