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2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 2462 2463 2464 | /* * linux/arch/arm/drivers/scsi/fas216.c * * Copyright (C) 1997 Russell King * * Based on information in qlogicfas.c by Tom Zerucha, Michael Griffith, and * other sources, including: * the AMD Am53CF94 data sheet * * This is a generic driver. To use it, have a look at cumana_2.c. You * should define your own structure that overlays FAS216_Info, eg: * struct my_host_data { * FAS216_Info info; * ... my host specific data ... * }; * * Changelog: * 30-08-1997 RMK Created * 14-09-1997 RMK Started disconnect support * 08-02-1998 RMK Corrected real DMA support * 15-02-1998 RMK Started sync xfer support * 06-04-1998 RMK Tightened conditions for printing incomplete * transfers * 02-05-1998 RMK Added extra checks in fas216_reset * 24-05-1998 RMK Fixed synchronous transfers with period >= 200ns * 27-06-1998 RMK Changed asm/delay.h to linux/delay.h * 26-08-1998 RMK Improved message support wrt MESSAGE_REJECT * * Todo: * - allow individual devices to enable sync xfers. */ #include <linux/module.h> #include <linux/blk.h> #include <linux/kernel.h> #include <linux/string.h> #include <linux/ioport.h> #include <linux/sched.h> #include <linux/proc_fs.h> #include <linux/unistd.h> #include <linux/stat.h> #include <linux/delay.h> #include <asm/dma.h> #include <asm/io.h> #include <asm/irq.h> #include <asm/ecard.h> #define FAS216_C #include "../../scsi/scsi.h" #include "../../scsi/hosts.h" #include "fas216.h" MODULE_AUTHOR("Russell King"); MODULE_DESCRIPTION("Generic FAS216/NCR53C9x driver"); #define VER_MAJOR 0 #define VER_MINOR 0 #define VER_PATCH 5 #define SCSI2_TAG /* NOTE: SCSI2 Synchronous transfers *require* DMA according to * the data sheet. This restriction is crazy, especially when * you only want to send 16 bytes! What were the guys who * designed this chip on at that time? Did they read the SCSI2 * spec at all? The following sections are taken from the SCSI2 * standard (s2r10) concerning this: * * > IMPLEMENTORS NOTES: * > (1) Re-negotiation at every selection is not recommended, since a * > significant performance impact is likely. * * > The implied synchronous agreement shall remain in effect until a BUS DEVICE * > RESET message is received, until a hard reset condition occurs, or until one * > of the two SCSI devices elects to modify the agreement. The default data * > transfer mode is asynchronous data transfer mode. The default data transfer * > mode is entered at power on, after a BUS DEVICE RESET message, or after a hard * > reset condition. * * In total, this means that once you have elected to use synchronous * transfers, you must always use DMA. * * I was thinking that this was a good chip until I found this restriction ;( */ #define SCSI2_SYNC #define SCSI2_WIDE #undef DEBUG_CONNECT #undef DEBUG_BUSSERVICE #undef DEBUG_FUNCTIONDONE #undef DEBUG_MESSAGES #undef CHECK_STRUCTURE static struct { int stat, ssr, isr, ph; } list[8]; static int ptr; static void fas216_dumpstate(FAS216_Info *info) { printk("FAS216: CTCL=%02X CTCM=%02X CMD=%02X STAT=%02X" " INST=%02X IS=%02X CFIS=%02X", inb(REG_CTCL(info)), inb(REG_CTCM(info)), inb(REG_CMD(info)), inb(REG_STAT(info)), inb(REG_INST(info)), inb(REG_IS(info)), inb(REG_CFIS(info))); printk(" CNTL1=%02X CNTL2=%02X CNTL3=%02X CTCH=%02X\n", inb(REG_CNTL1(info)), inb(REG_CNTL2(info)), inb(REG_CNTL3(info)), inb(REG_CTCH(info))); } static void fas216_dumpinfo(FAS216_Info *info) { static int used = 0; int i; if (used++) return; printk("FAS216_Info=\n"); printk(" { magic_start=%lX host=%p SCpnt=%p origSCpnt=%p\n", info->magic_start, info->host, info->SCpnt, info->origSCpnt); printk(" scsi={ io_port=%X io_shift=%X irq=%X cfg={ %X %X %X %X }\n", info->scsi.io_port, info->scsi.io_shift, info->scsi.irq, info->scsi.cfg[0], info->scsi.cfg[1], info->scsi.cfg[2], info->scsi.cfg[3]); printk(" type=%p phase=%X reconnected={ target=%d lun=%d tag=%d }\n", info->scsi.type, info->scsi.phase, info->scsi.reconnected.target, info->scsi.reconnected.lun, info->scsi.reconnected.tag); printk(" SCp={ ptr=%p this_residual=%X buffer=%p buffers_residual=%X }\n", info->scsi.SCp.ptr, info->scsi.SCp.this_residual, info->scsi.SCp.buffer, info->scsi.SCp.buffers_residual); printk(" msgs async_stp=%X disconnectable=%d aborting=%d }\n", info->scsi.async_stp, info->scsi.disconnectable, info->scsi.aborting); printk(" stats={ queues=%X removes=%X fins=%X reads=%X writes=%X miscs=%X\n" " disconnects=%X aborts=%X resets=%X }\n", info->stats.queues, info->stats.removes, info->stats.fins, info->stats.reads, info->stats.writes, info->stats.miscs, info->stats.disconnects, info->stats.aborts, info->stats.resets); printk(" ifcfg={ clockrate=%X select_timeout=%X asyncperiod=%X sync_max_depth=%X }\n", info->ifcfg.clockrate, info->ifcfg.select_timeout, info->ifcfg.asyncperiod, info->ifcfg.sync_max_depth); for (i = 0; i < 8; i++) { printk(" busyluns[%d]=%X dev[%d]={ disconnect_ok=%d stp=%X sof=%X sync_state=%X }\n", i, info->busyluns[i], i, info->device[i].disconnect_ok, info->device[i].stp, info->device[i].sof, info->device[i].sync_state); } printk(" dma={ transfer_type=%X setup=%p pseudo=%p stop=%p }\n", info->dma.transfer_type, info->dma.setup, info->dma.pseudo, info->dma.stop); printk(" internal_done=%X magic_end=%lX }\n", info->internal_done, info->magic_end); } #ifdef CHECK_STRUCTURE static void fas216_checkmagic(FAS216_Info *info, const char *func) { int corruption = 0; if (info->magic_start != MAGIC) { printk(KERN_CRIT "FAS216 Error: magic at start corrupted\n"); corruption++; } if (info->magic_end != MAGIC) { printk(KERN_CRIT "FAS216 Error: magic at end corrupted\n"); corruption++; } if (corruption) { fas216_dumpinfo(info); panic("scsi memory space corrupted in %s", func); } } #else #define fas216_checkmagic(info,func) #endif static const char *fas216_bus_phase(int stat) { static const char *phases[] = { "DATA OUT", "DATA IN", "COMMAND", "STATUS", "MISC OUT", "MISC IN", "MESG OUT", "MESG IN" }; return phases[stat & STAT_BUSMASK]; } static const char *fas216_drv_phase(FAS216_Info *info) { switch (info->scsi.phase) { case PHASE_IDLE: return "idle"; case PHASE_SELECTION: return "selection"; case PHASE_COMMAND: return "command"; case PHASE_RECONNECTED: return "reconnected"; case PHASE_DATAOUT: return "data out"; case PHASE_DATAIN: return "data in"; case PHASE_MSGIN: return "message in"; case PHASE_MSGIN_DISCONNECT: return "disconnect"; case PHASE_MSGOUT_EXPECT: return "expect message out"; case PHASE_MSGOUT: return "message out"; case PHASE_STATUS: return "status"; case PHASE_DONE: return "done"; default: return "???"; } } static char fas216_target(FAS216_Info *info) { if (info->SCpnt) return '0' + info->SCpnt->target; else return 'H'; } static void add_debug_list(int stat, int ssr, int isr, int ph) { list[ptr].stat = stat; list[ptr].ssr = ssr; list[ptr].isr = isr; list[ptr].ph = ph; ptr = (ptr + 1) & 7; } static void print_debug_list(void) { int i; i = ptr; printk(KERN_ERR "SCSI IRQ trail: "); do { printk("%02X:%02X:%02X:%1X ", list[i].stat, list[i].ssr, list[i].isr, list[i].ph); i = (i + 1) & 7; } while (i != ptr); printk("\n"); } static void fas216_done(FAS216_Info *info, unsigned int result); /* Function: int fas216_clockrate(unsigned int clock) * Purpose : calculate correct value to be written into clock conversion * factor register. * Params : clock - clock speed in MHz * Returns : CLKF_ value */ static int fas216_clockrate(int clock) { if (clock <= 10 || clock > 40) { printk(KERN_CRIT "fas216: invalid clock rate: check your driver!\n"); clock = -1; } else clock = ((clock - 1) / 5 + 1) & 7; return clock; } /* Function: unsigned short fas216_get_last_msg(FAS216_Info *info, int pos) * Purpose : retrieve a last message from the list, using position in fifo * Params : info - interface to search * : pos - current fifo position */ static inline unsigned short fas216_get_last_msg(FAS216_Info *info, int pos) { unsigned short packed_msg = NOP; struct message *msg; int msgnr = 0; while ((msg = msgqueue_getmsg(&info->scsi.msgs, msgnr++)) != NULL) { if (pos >= msg->fifo) break; } if (msg) { if (msg->msg[0] == EXTENDED_MESSAGE) packed_msg = EXTENDED_MESSAGE | msg->msg[2] << 8; else packed_msg = msg->msg[0]; } #ifdef DEBUG_MESSAGES printk("Message: %04X found at position %02X\n", packed_msg, pos); #endif return packed_msg; } /* Function: int fas216_syncperiod(FAS216_Info *info, int ns) * Purpose : Calculate value to be loaded into the STP register * for a given period in ns * Params : info - state structure for interface connected to device * : ns - period in ns (between subsequent bytes) * Returns : Value suitable for REG_STP */ static int fas216_syncperiod(FAS216_Info *info, int ns) { int value = (info->ifcfg.clockrate * ns) / 1000; fas216_checkmagic(info, "fas216_syncperiod"); if (value < 4) value = 4; else if (value > 35) value = 35; return value & 31; } /* Function: void fas216_set_sync(FAS216_Info *info, int target) * Purpose : Correctly setup FAS216 chip for specified transfer period. * Params : info - state structure for interface * : target - target * Notes : we need to switch the chip out of FASTSCSI mode if we have * a transfer period >= 200ns - otherwise the chip will violate * the SCSI timings. */ static void fas216_set_sync(FAS216_Info *info, int target) { outb(info->device[target].sof, REG_SOF(info)); outb(info->device[target].stp, REG_STP(info)); if (info->device[target].period >= (200 / 4)) outb(info->scsi.cfg[2] & ~CNTL3_FASTSCSI, REG_CNTL3(info)); else outb(info->scsi.cfg[2], REG_CNTL3(info)); } /* Synchronous transfer support * * Note: The SCSI II r10 spec says (5.6.12): * * (2) Due to historical problems with early host adapters that could * not accept an SDTR message, some targets may not initiate synchronous * negotiation after a power cycle as required by this standard. Host * adapters that support synchronous mode may avoid the ensuing failure * modes when the target is independently power cycled by initiating a * synchronous negotiation on each REQUEST SENSE and INQUIRY command. * This approach increases the SCSI bus overhead and is not recommended * for new implementations. The correct method is to respond to an * SDTR message with a MESSAGE REJECT message if the either the * initiator or target devices does not support synchronous transfers * or does not want to negotiate for synchronous transfers at the time. * Using the correct method assures compatibility with wide data * transfers and future enhancements. * * We will always initiate a synchronous transfer negociation request on * every INQUIRY or REQUEST SENSE message, unless the target itself has * at some point performed a synchronous transfer negociation request, or * we have synchronous transfers disabled for this device. */ /* Function: void fas216_handlesync(FAS216_Info *info, char *msg) * Purpose : Handle a synchronous transfer message from the target * Params : info - state structure for interface * : msg - message from target */ static void fas216_handlesync(FAS216_Info *info, char *msg) { struct fas216_device *dev = &info->device[info->SCpnt->target]; enum { sync, async, none, reject } res = none; #ifdef SCSI2_SYNC switch (msg[0]) { case MESSAGE_REJECT: /* Synchronous transfer request failed. * Note: SCSI II r10: * * SCSI devices that are capable of synchronous * data transfers shall not respond to an SDTR * message with a MESSAGE REJECT message. * * Hence, if we get this condition, we disable * negociation for this device. */ if (dev->sync_state == neg_inprogress) { dev->sync_state = neg_invalid; res = async; } break; case EXTENDED_MESSAGE: switch (dev->sync_state) { /* We don't accept synchronous transfer requests. * Respond with a MESSAGE_REJECT to prevent a * synchronous transfer agreement from being reached. */ case neg_invalid: res = reject; break; /* We were not negociating a synchronous transfer, * but the device sent us a negociation request. * Honour the request by sending back a SDTR * message containing our capability, limited by * the targets capability. */ default: outb(CMD_SETATN, REG_CMD(info)); if (msg[4] > info->ifcfg.sync_max_depth) msg[4] = info->ifcfg.sync_max_depth; if (msg[3] < 1000 / info->ifcfg.clockrate) msg[3] = 1000 / info->ifcfg.clockrate; msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 5, EXTENDED_MESSAGE, 3, EXTENDED_SDTR, msg[3], msg[4]); info->scsi.phase = PHASE_MSGOUT_EXPECT; /* This is wrong. The agreement is not in effect * until this message is accepted by the device */ dev->sync_state = neg_targcomplete; res = sync; break; /* We initiated the synchronous transfer negociation, * and have successfully received a response from the * target. The synchronous transfer agreement has been * reached. Note: if the values returned are out of our * bounds, we must reject the message. */ case neg_inprogress: res = reject; if (msg[4] <= info->ifcfg.sync_max_depth && msg[3] >= 1000 / info->ifcfg.clockrate) { dev->sync_state = neg_complete; res = sync; } break; } } #else res = reject; #endif switch (res) { case sync: dev->period = msg[3]; dev->sof = msg[4]; dev->stp = fas216_syncperiod(info, msg[3] * 4); fas216_set_sync(info, info->SCpnt->target); break; case reject: outb(CMD_SETATN, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 1, MESSAGE_REJECT); info->scsi.phase = PHASE_MSGOUT_EXPECT; case async: dev->period = info->ifcfg.asyncperiod / 4; dev->sof = 0; dev->stp = info->scsi.async_stp; fas216_set_sync(info, info->SCpnt->target); break; case none: break; } } /* Function: void fas216_handlewide(FAS216_Info *info, char *msg) * Purpose : Handle a wide transfer message from the target * Params : info - state structure for interface * : msg - message from target */ static void fas216_handlewide(FAS216_Info *info, char *msg) { struct fas216_device *dev = &info->device[info->SCpnt->target]; enum { wide, bit8, none, reject } res = none; #ifdef SCSI2_WIDE switch (msg[0]) { case MESSAGE_REJECT: /* Wide transfer request failed. * Note: SCSI II r10: * * SCSI devices that are capable of wide * data transfers shall not respond to a * WDTR message with a MESSAGE REJECT message. * * Hence, if we get this condition, we never * reattempt negociation for this device. */ if (dev->wide_state == neg_inprogress) { dev->wide_state = neg_invalid; res = bit8; } break; case EXTENDED_MESSAGE: switch (dev->wide_state) { /* We don't accept wide data transfer requests. * Respond with a MESSAGE REJECT to prevent a * wide data transfer agreement from being reached. */ case neg_invalid: res = reject; break; /* We were not negociating a wide data transfer, * but the device sent is a negociation request. * Honour the request by sending back a WDTR * message containing our capability, limited by * the targets capability. */ default: outb(CMD_SETATN, REG_CMD(info)); if (msg[3] > info->ifcfg.wide_max_size) msg[3] = info->ifcfg.wide_max_size; msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 4, EXTENDED_MESSAGE, 2, EXTENDED_WDTR, msg[3]); info->scsi.phase = PHASE_MSGOUT_EXPECT; res = wide; break; /* We initiated the wide data transfer negociation, * and have successfully received a response from the * target. The synchronous transfer agreement has been * reached. Note: if the values returned are out of our * bounds, we must reject the message. */ case neg_inprogress: res = reject; if (msg[3] <= info->ifcfg.wide_max_size) { dev->wide_state = neg_complete; res = wide; } break; } } #else res = reject; #endif switch (res) { case wide: dev->wide_xfer = msg[3]; break; case reject: outb(CMD_SETATN, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 1, MESSAGE_REJECT); info->scsi.phase = PHASE_MSGOUT_EXPECT; case bit8: dev->wide_xfer = 0; break; case none: break; } } /* Function: void fas216_updateptrs(FAS216_Info *info, int bytes_transferred) * Purpose : update data pointers after transfer suspended/paused * Params : info - interface's local pointer to update * bytes_transferred - number of bytes transferred */ static void fas216_updateptrs(FAS216_Info *info, int bytes_transferred) { unsigned char *ptr; unsigned int residual; fas216_checkmagic(info, "fas216_updateptrs"); ptr = info->scsi.SCp.ptr; residual = info->scsi.SCp.this_residual; info->SCpnt->request_bufflen -= bytes_transferred; while (residual <= bytes_transferred && bytes_transferred) { /* We have used up this buffer */ bytes_transferred -= residual; if (info->scsi.SCp.buffers_residual) { info->scsi.SCp.buffer++; info->scsi.SCp.buffers_residual--; ptr = (unsigned char *)info->scsi.SCp.buffer->address; residual = info->scsi.SCp.buffer->length; } else { ptr = NULL; residual = 0; } } residual -= bytes_transferred; ptr += bytes_transferred; if (residual == 0) ptr = NULL; info->scsi.SCp.ptr = ptr; info->scsi.SCp.this_residual = residual; } /* Function: void fas216_pio(FAS216_Info *info, fasdmadir_t direction) * Purpose : transfer data off of/on to card using programmed IO * Params : info - interface to transfer data to/from * direction - direction to transfer data (DMA_OUT/DMA_IN) * Notes : this is incredibly slow */ static void fas216_pio(FAS216_Info *info, fasdmadir_t direction) { unsigned int residual; char *ptr; int correction = 0; fas216_checkmagic(info, "fas216_pio"); residual = info->scsi.SCp.this_residual; ptr = info->scsi.SCp.ptr; if (direction == DMA_OUT) { // while (residual > 0) { // if ((inb(REG_CFIS(info)) & CFIS_CF) < 8) { outb(*ptr++, REG_FF(info)); residual -= 1; // } // if (inb(REG_STAT(info)) & STAT_INT) // break; // } // correction = inb(REG_CFIS(info)) & CFIS_CF; } else { // while (residual > 0) { // if ((inb(REG_CFIS(info)) & CFIS_CF) != 0) { *ptr++ = inb(REG_FF(info)); residual -= 1; // } // if (inb(REG_STAT(info)) & STAT_INT) // break; // } } ptr -= correction; residual += correction; if (residual == 0) { if (info->scsi.SCp.buffers_residual) { info->scsi.SCp.buffer++; info->scsi.SCp.buffers_residual--; ptr = (unsigned char *)info->scsi.SCp.buffer->address; residual = info->scsi.SCp.buffer->length; } else { ptr = NULL; residual = 0; } } info->scsi.SCp.ptr = ptr; info->scsi.SCp.this_residual = residual; } /* Function: void fas216_starttransfer(FAS216_Info *info, * fasdmadir_t direction) * Purpose : Start a DMA/PIO transfer off of/on to card * Params : info - interface from which device disconnected from * direction - transfer direction (DMA_OUT/DMA_IN) */ static void fas216_starttransfer(FAS216_Info *info, fasdmadir_t direction, int flush_fifo) { fasdmatype_t dmatype; fas216_checkmagic(info, "fas216_starttransfer"); info->scsi.phase = (direction == DMA_OUT) ? PHASE_DATAOUT : PHASE_DATAIN; if (info->dma.transfer_type != fasdma_none && info->dma.transfer_type != fasdma_pio) { unsigned long total, residual; if (info->dma.transfer_type == fasdma_real_all) total = info->SCpnt->request_bufflen; else total = info->scsi.SCp.this_residual; residual = (inb(REG_CFIS(info)) & CFIS_CF) + inb(REG_CTCL(info)) + (inb(REG_CTCM(info)) << 8) + (inb(REG_CTCH(info)) << 16); fas216_updateptrs(info, total - residual); } info->dma.transfer_type = fasdma_none; if (!info->scsi.SCp.ptr) { printk("scsi%d.%c: null buffer passed to " "fas216_starttransfer\n", info->host->host_no, fas216_target(info)); return; } /* flush FIFO */ if (flush_fifo) outb(CMD_FLUSHFIFO, REG_CMD(info)); /* * Default to PIO mode or DMA mode if we have a synchronous * transfer agreement. */ if (info->device[info->SCpnt->target].sof && info->dma.setup) dmatype = fasdma_real_all; else dmatype = fasdma_pio; if (info->dma.setup) dmatype = info->dma.setup(info->host, &info->scsi.SCp, direction, dmatype); info->dma.transfer_type = dmatype; switch (dmatype) { case fasdma_pio: outb(0, REG_SOF(info)); outb(info->scsi.async_stp, REG_STP(info)); outb(info->scsi.SCp.this_residual, REG_STCL(info)); outb(info->scsi.SCp.this_residual >> 8, REG_STCM(info)); outb(info->scsi.SCp.this_residual >> 16, REG_STCH(info)); outb(CMD_TRANSFERINFO, REG_CMD(info)); fas216_pio(info, direction); break; case fasdma_pseudo: outb(info->scsi.SCp.this_residual, REG_STCL(info)); outb(info->scsi.SCp.this_residual >> 8, REG_STCM(info)); outb(info->scsi.SCp.this_residual >> 16, REG_STCH(info)); outb(CMD_TRANSFERINFO | CMD_WITHDMA, REG_CMD(info)); info->dma.pseudo(info->host, &info->scsi.SCp, direction, info->SCpnt->transfersize); break; case fasdma_real_block: outb(info->scsi.SCp.this_residual, REG_STCL(info)); outb(info->scsi.SCp.this_residual >> 8, REG_STCM(info)); outb(info->scsi.SCp.this_residual >> 16, REG_STCH(info)); outb(CMD_TRANSFERINFO | CMD_WITHDMA, REG_CMD(info)); break; case fasdma_real_all: outb(info->SCpnt->request_bufflen, REG_STCL(info)); outb(info->SCpnt->request_bufflen >> 8, REG_STCM(info)); outb(info->SCpnt->request_bufflen >> 16, REG_STCH(info)); outb(CMD_TRANSFERINFO | CMD_WITHDMA, REG_CMD(info)); break; default: printk(KERN_ERR "scsi%d.%d: invalid FAS216 DMA type\n", info->host->host_no, fas216_target(info)); break; } } /* Function: void fas216_stoptransfer(FAS216_Info *info) * Purpose : Stop a DMA transfer onto / off of the card * Params : info - interface from which device disconnected from */ static void fas216_stoptransfer(FAS216_Info *info) { fas216_checkmagic(info, "fas216_stoptransfer"); if (info->dma.transfer_type != fasdma_none && info->dma.transfer_type != fasdma_pio) { unsigned long total, residual; if ((info->dma.transfer_type == fasdma_real_all || info->dma.transfer_type == fasdma_real_block) && info->dma.stop) info->dma.stop(info->host, &info->scsi.SCp); if (info->dma.transfer_type == fasdma_real_all) total = info->SCpnt->request_bufflen; else total = info->scsi.SCp.this_residual; residual = (inb(REG_CFIS(info)) & CFIS_CF) + inb(REG_CTCL(info)) + (inb(REG_CTCM(info)) << 8) + (inb(REG_CTCH(info)) << 16); fas216_updateptrs(info, total - residual); info->dma.transfer_type = fasdma_none; } if (info->scsi.phase == PHASE_DATAOUT) outb(CMD_FLUSHFIFO, REG_CMD(info)); } /* Function: void fas216_disconnected_intr(FAS216_Info *info) * Purpose : handle device disconnection * Params : info - interface from which device disconnected from */ static void fas216_disconnect_intr(FAS216_Info *info) { fas216_checkmagic(info, "fas216_disconnected_intr"); #ifdef DEBUG_CONNECT printk("scsi%d.%c: disconnect phase=%02X\n", info->host->host_no, fas216_target(info), info->scsi.phase); #endif msgqueue_flush(&info->scsi.msgs); switch (info->scsi.phase) { case PHASE_SELECTION: /* while selecting - no target */ case PHASE_SELSTEPS: fas216_done(info, DID_NO_CONNECT); break; case PHASE_MSGIN_DISCONNECT: /* message in - disconnecting */ outb(CMD_ENABLESEL, REG_CMD(info)); info->scsi.disconnectable = 1; info->scsi.reconnected.tag = 0; info->scsi.phase = PHASE_IDLE; info->stats.disconnects += 1; break; case PHASE_DONE: /* at end of command - complete */ fas216_done(info, DID_OK); break; case PHASE_MSGOUT: /* message out - possible ABORT message */ if (fas216_get_last_msg(info, info->scsi.msgin_fifo) == ABORT) { info->scsi.aborting = 0; fas216_done(info, DID_ABORT); break; } default: /* huh? */ printk(KERN_ERR "scsi%d.%c: unexpected disconnect in phase %s\n", info->host->host_no, fas216_target(info), fas216_drv_phase(info)); print_debug_list(); fas216_stoptransfer(info); fas216_done(info, DID_ERROR); break; } } /* Function: void fas216_reselected_intr(FAS216_Info *info) * Purpose : Start reconnection of a device * Params : info - interface which was reselected */ static void fas216_reselected_intr(FAS216_Info *info) { unsigned char target, identify_msg, ok; fas216_checkmagic(info, "fas216_reselected_intr"); if ((info->scsi.phase == PHASE_SELECTION || info->scsi.phase == PHASE_SELSTEPS) && info->SCpnt) { Scsi_Cmnd *SCpnt = info->SCpnt; info->origSCpnt = SCpnt; info->SCpnt = NULL; if (info->device[SCpnt->target].wide_state == neg_inprogress) info->device[SCpnt->target].wide_state = neg_wait; if (info->device[SCpnt->target].sync_state == neg_inprogress) info->device[SCpnt->target].sync_state = neg_wait; } #ifdef DEBUG_CONNECT printk("scsi%d.%c: reconnect phase=%02X\n", info->host->host_no, fas216_target(info), info->scsi.phase); #endif if ((inb(REG_CFIS(info)) & CFIS_CF) != 2) { printk(KERN_ERR "scsi%d.H: incorrect number of bytes after reselect\n", info->host->host_no); outb(CMD_SETATN, REG_CMD(info)); outb(CMD_MSGACCEPTED, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 1, INITIATOR_ERROR); info->scsi.phase = PHASE_MSGOUT_EXPECT; return; } target = inb(REG_FF(info)); identify_msg = inb(REG_FF(info)); ok = 1; if (!(target & (1 << info->host->this_id))) { printk(KERN_ERR "scsi%d.H: invalid host id on reselect\n", info->host->host_no); ok = 0; } if (!(identify_msg & 0x80)) { printk(KERN_ERR "scsi%d.H: no IDENTIFY message on reselect, got msg %02X\n", info->host->host_no, identify_msg); ok = 0; } if (!ok) { /* * Something went wrong - send an initiator error to * the target. */ outb(CMD_SETATN, REG_CMD(info)); outb(CMD_MSGACCEPTED, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 1, INITIATOR_ERROR); info->scsi.phase = PHASE_MSGOUT_EXPECT; return; } target &= ~(1 << info->host->this_id); switch (target) { case 1: target = 0; break; case 2: target = 1; break; case 4: target = 2; break; case 8: target = 3; break; case 16: target = 4; break; case 32: target = 5; break; case 64: target = 6; break; case 128: target = 7; break; default: target = info->host->this_id; break; } identify_msg &= 7; info->scsi.reconnected.target = target; info->scsi.reconnected.lun = identify_msg; info->scsi.reconnected.tag = 0; ok = 0; if (info->scsi.disconnectable && info->SCpnt && info->SCpnt->target == target && info->SCpnt->lun == identify_msg) ok = 1; if (!ok && queue_probetgtlun(&info->queues.disconnected, target, identify_msg)) ok = 1; msgqueue_flush(&info->scsi.msgs); if (ok) { info->scsi.phase = PHASE_RECONNECTED; outb(target, REG_SDID(info)); } else { /* * Our command structure not found - abort the * command on the target. Since we have no * record of this command, we can't send * an INITIATOR DETECTED ERROR message. */ outb(CMD_SETATN, REG_CMD(info)); msgqueue_addmsg(&info->scsi.msgs, 1, ABORT); info->scsi.phase = PHASE_MSGOUT_EXPECT; } outb(CMD_MSGACCEPTED, REG_CMD(info)); } /* Function: void fas216_finish_reconnect(FAS216_Info *info) * Purpose : finish reconnection sequence for device * Params : info - interface which caused function done interrupt */ static void fas216_finish_reconnect(FAS216_Info *info) { fas216_checkmagic(info, "fas216_reconnect"); #ifdef DEBUG_CONNECT printk("Connected: %1X %1X %02X, reconnected: %1X %1X %02X\n", info->SCpnt->target, info->SCpnt->lun, info->SCpnt->tag, info->scsi.reconnected.target, info->scsi.reconnected.lun, info->scsi.reconnected.tag); #endif if (info->scsi.disconnectable && info->SCpnt) { info->scsi.disconnectable = 0; if (info->SCpnt->target == info->scsi.reconnected.target && info->SCpnt->lun == info->scsi.reconnected.lun && info->SCpnt->tag == info->scsi.reconnected.tag) { #ifdef DEBUG_CONNECT printk("scsi%d.%c: reconnected", info->host->host_no, fas216_target(info)); #endif } else { queue_add_cmd_tail(&info->queues.disconnected, info->SCpnt); #ifdef DEBUG_CONNECT printk("scsi%d.%c: had to move command to disconnected queue\n", info->host->host_no, fas216_target(info)); #endif info->SCpnt = NULL; } } if (!info->SCpnt) { info->SCpnt = queue_remove_tgtluntag(&info->queues.disconnected, info->scsi.reconnected.target, info->scsi.reconnected.lun, info->scsi.reconnected.tag); #ifdef DEBUG_CONNECT printk("scsi%d.%c: had to get command", info->host->host_no, fas216_target(info)); #endif } if (!info->SCpnt) { outb(CMD_SETATN, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); #if 0 if (info->scsi.reconnected.tag) msgqueue_addmsg(&info->scsi.msgs, 2, ABORT_TAG, info->scsi.reconnected.tag); else #endif msgqueue_addmsg(&info->scsi.msgs, 1, ABORT); info->scsi.phase = PHASE_MSGOUT_EXPECT; info->scsi.aborting = 1; } else { /* * Restore data pointer from SAVED data pointer */ info->scsi.SCp = info->SCpnt->SCp; #ifdef DEBUG_CONNECT printk(", data pointers: [%p, %X]", info->scsi.SCp.ptr, info->scsi.SCp.this_residual); #endif } #ifdef DEBUG_CONNECT printk("\n"); #endif } static unsigned char fas216_get_msg_byte(FAS216_Info *info) { int tout; outb(CMD_MSGACCEPTED, REG_CMD(info)); for (tout = 1000000; tout; tout --) if (inb(REG_STAT(info)) & STAT_INT) break; inb(REG_INST(info)); outb(CMD_TRANSFERINFO, REG_CMD(info)); for (tout = 1000000; tout; tout --) if (inb(REG_STAT(info)) & STAT_INT) break; inb(REG_INST(info)); return inb(REG_FF(info)); } /* Function: void fas216_message(FAS216_Info *info) * Purpose : handle a function done interrupt from FAS216 chip * Params : info - interface which caused function done interrupt */ static void fas216_message(FAS216_Info *info) { unsigned char message[16]; unsigned int msglen = 1; fas216_checkmagic(info, "fas216_message"); message[0] = inb(REG_FF(info)); if (message[0] == EXTENDED_MESSAGE) { message[1] = fas216_get_msg_byte(info); for (msglen = 2; msglen < message[1] + 2; msglen++) message[msglen] = fas216_get_msg_byte(info); } #ifdef DEBUG_MESSAGES { int i; printk("scsi%d.%c: message in: ", info->host->host_no, fas216_target(info)); for (i = 0; i < msglen; i++) printk("%02X ", message[i]); printk("\n"); } #endif if (info->scsi.phase == PHASE_RECONNECTED) { if (message[0] == SIMPLE_QUEUE_TAG) info->scsi.reconnected.tag = message[1]; fas216_finish_reconnect(info); info->scsi.phase = PHASE_MSGIN; } switch (message[0]) { case COMMAND_COMPLETE: printk(KERN_ERR "scsi%d.%c: command complete with no " "status in MESSAGE_IN?\n", info->host->host_no, fas216_target(info)); break; case SAVE_POINTERS: /* * Save current data pointer to SAVED data pointer * SCSI II standard says that we must not acknowledge * this until we have really saved pointers. * NOTE: we DO NOT save the command nor status pointers * as required by the SCSI II standard. These always * point to the start of their respective areas. */ info->SCpnt->SCp = info->scsi.SCp; info->SCpnt->SCp.sent_command = 0; #if defined (DEBUG_MESSAGES) || defined (DEBUG_CONNECT) printk("scsi%d.%c: save data pointers: [%p, %X]\n", info->host->host_no, fas216_target(info), info->scsi.SCp.ptr, info->scsi.SCp.this_residual); #endif break; case RESTORE_POINTERS: /* * Restore current data pointer from SAVED data pointer */ info->scsi.SCp = info->SCpnt->SCp; #if defined (DEBUG_MESSAGES) || defined (DEBUG_CONNECT) printk("scsi%d.%c: restore data pointers: [%p, %X]\n", info->host->host_no, fas216_target(info), info->scsi.SCp.ptr, info->scsi.SCp.this_residual); #endif break; case DISCONNECT: info->scsi.phase = PHASE_MSGIN_DISCONNECT; break; case MESSAGE_REJECT: switch (fas216_get_last_msg(info, info->scsi.msgin_fifo)) { case EXTENDED_MESSAGE | EXTENDED_SDTR << 8: fas216_handlesync(info, message); break; case EXTENDED_MESSAGE | EXTENDED_WDTR << 8: fas216_handlewide(info, message); break; default: printk("scsi%d.%c: reject, last message %04X\n", info->host->host_no, fas216_target(info), fas216_get_last_msg(info, info->scsi.msgin_fifo)); } break; case NOP: break; case SIMPLE_QUEUE_TAG: /* handled above */ printk("scsi%d.%c: reconnect queue tag %02X\n", info->host->host_no, fas216_target(info), message[1]); break; case EXTENDED_MESSAGE: switch (message[2]) { case EXTENDED_SDTR: /* Sync transfer negociation request/reply */ fas216_handlesync(info, message); break; case EXTENDED_WDTR: /* Wide transfer negociation request/reply */ fas216_handlewide(info, message); break; default: printk("scsi%d.%c: unrecognised extended message %02X, rejecting\n", info->host->host_no, fas216_target(info), message[2]); goto reject_message; } break; default: printk("scsi%d.%c: unrecognised message %02X, rejecting\n", info->host->host_no, fas216_target(info), message[0]); goto reject_message; } outb(CMD_MSGACCEPTED, REG_CMD(info)); return; reject_message: outb(CMD_SETATN, REG_CMD(info)); outb(CMD_MSGACCEPTED, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 1, MESSAGE_REJECT); info->scsi.phase = PHASE_MSGOUT_EXPECT; } /* Function: void fas216_send_command(FAS216_Info *info) * Purpose : send a command to a target after all message bytes have been sent * Params : info - interface which caused bus service */ static void fas216_send_command(FAS216_Info *info) { int i; fas216_checkmagic(info, "fas216_send_command"); outb(CMD_NOP|CMD_WITHDMA, REG_CMD(info)); outb(CMD_FLUSHFIFO, REG_CMD(info)); /* load command */ for (i = info->scsi.SCp.sent_command; i < info->SCpnt->cmd_len; i++) outb(info->SCpnt->cmnd[i], REG_FF(info)); outb(CMD_TRANSFERINFO, REG_CMD(info)); info->scsi.phase = PHASE_COMMAND; } /* Function: void fas216_send_messageout(FAS216_Info *info, int start) * Purpose : handle bus service to send a message * Params : info - interface which caused bus service * Note : We do not allow the device to change the data direction! */ static void fas216_send_messageout(FAS216_Info *info, int start) { unsigned int tot_msglen = msgqueue_msglength(&info->scsi.msgs); fas216_checkmagic(info, "fas216_send_messageout"); outb(CMD_FLUSHFIFO, REG_CMD(info)); if (tot_msglen) { struct message *msg; int msgnr = 0; while ((msg = msgqueue_getmsg(&info->scsi.msgs, msgnr++)) != NULL) { int i; for (i = start; i < msg->length; i++) outb(msg->msg[i], REG_FF(info)); msg->fifo = tot_msglen - (inb(REG_CFIS(info)) & CFIS_CF); start = 0; } } else outb(NOP, REG_FF(info)); outb(CMD_TRANSFERINFO, REG_CMD(info)); info->scsi.phase = PHASE_MSGOUT; } /* Function: void fas216_busservice_intr(FAS216_Info *info, unsigned int stat, unsigned int ssr) * Purpose : handle a bus service interrupt from FAS216 chip * Params : info - interface which caused bus service interrupt * stat - Status register contents * ssr - SCSI Status register contents */ static void fas216_busservice_intr(FAS216_Info *info, unsigned int stat, unsigned int ssr) { fas216_checkmagic(info, "fas216_busservice_intr"); #ifdef DEBUG_BUSSERVICE printk("scsi%d.%c: bus service: stat=%02X ssr=%02X phase=%02X\n", info->host->host_no, fas216_target(info), stat, ssr, info->scsi.phase); #endif switch (ssr & IS_BITS) { case IS_MSGBYTESENT: /* select with ATN and stop steps completed */ case IS_COMPLETE: /* last action completed */ outb(CMD_NOP, REG_CMD(info)); #define STATE(st,ph) ((ph) << 3 | (st)) /* This table describes the legal SCSI state transitions, * as described by the SCSI II spec. */ switch (STATE(stat & STAT_BUSMASK, info->scsi.phase)) { /* Reselmsgin -> Data In */ case STATE(STAT_DATAIN, PHASE_RECONNECTED): fas216_finish_reconnect(info); case STATE(STAT_DATAIN, PHASE_SELSTEPS):/* Sel w/ steps -> Data In */ case STATE(STAT_DATAIN, PHASE_DATAIN): /* Data In -> Data In */ case STATE(STAT_DATAIN, PHASE_MSGOUT): /* Message Out -> Data In */ case STATE(STAT_DATAIN, PHASE_COMMAND): /* Command -> Data In */ case STATE(STAT_DATAIN, PHASE_MSGIN): /* Message In -> Data In */ fas216_starttransfer(info, DMA_IN, 0); return; case STATE(STAT_DATAOUT, PHASE_DATAOUT):/* Data Out -> Data Out */ fas216_starttransfer(info, DMA_OUT, 0); return; /* Reselmsgin -> Data Out */ case STATE(STAT_DATAOUT, PHASE_RECONNECTED): fas216_finish_reconnect(info); case STATE(STAT_DATAOUT, PHASE_SELSTEPS):/* Sel w/ steps-> Data Out */ case STATE(STAT_DATAOUT, PHASE_MSGOUT): /* Message Out -> Data Out */ case STATE(STAT_DATAOUT, PHASE_COMMAND):/* Command -> Data Out */ case STATE(STAT_DATAOUT, PHASE_MSGIN): /* Message In -> Data Out */ fas216_starttransfer(info, DMA_OUT, 1); return; /* Reselmsgin -> Status */ case STATE(STAT_STATUS, PHASE_RECONNECTED): fas216_finish_reconnect(info); goto status; case STATE(STAT_STATUS, PHASE_DATAOUT): /* Data Out -> Status */ case STATE(STAT_STATUS, PHASE_DATAIN): /* Data In -> Status */ fas216_stoptransfer(info); case STATE(STAT_STATUS, PHASE_SELSTEPS):/* Sel w/ steps -> Status */ case STATE(STAT_STATUS, PHASE_MSGOUT): /* Message Out -> Status */ case STATE(STAT_STATUS, PHASE_COMMAND): /* Command -> Status */ case STATE(STAT_STATUS, PHASE_MSGIN): /* Message In -> Status */ status: outb(CMD_INITCMDCOMPLETE, REG_CMD(info)); info->scsi.phase = PHASE_STATUS; return; case STATE(STAT_MESGIN, PHASE_DATAOUT): /* Data Out -> Message In */ case STATE(STAT_MESGIN, PHASE_DATAIN): /* Data In -> Message In */ fas216_stoptransfer(info); case STATE(STAT_MESGIN, PHASE_SELSTEPS):/* Sel w/ steps -> Message In */ case STATE(STAT_MESGIN, PHASE_MSGOUT): /* Message Out -> Message In */ info->scsi.msgin_fifo = inb(REG_CFIS(info)) & CFIS_CF; outb(CMD_TRANSFERINFO, REG_CMD(info)); info->scsi.phase = PHASE_MSGIN; return; /* Reselmsgin -> Message In */ case STATE(STAT_MESGIN, PHASE_RECONNECTED): case STATE(STAT_MESGIN, PHASE_MSGIN): info->scsi.msgin_fifo = inb(REG_CFIS(info)) & CFIS_CF; outb(CMD_TRANSFERINFO, REG_CMD(info)); return; /* Reselmsgin -> Command */ case STATE(STAT_COMMAND, PHASE_RECONNECTED): fas216_finish_reconnect(info); case STATE(STAT_COMMAND, PHASE_MSGOUT): /* Message Out -> Command */ case STATE(STAT_COMMAND, PHASE_MSGIN): /* Message In -> Command */ fas216_send_command(info); info->scsi.phase = PHASE_COMMAND; return; /* Selection -> Message Out */ case STATE(STAT_MESGOUT, PHASE_SELECTION): fas216_send_messageout(info, 1); return; /* Any -> Message Out */ case STATE(STAT_MESGOUT, PHASE_MSGOUT_EXPECT): fas216_send_messageout(info, 0); return; /* Error recovery rules. * These either attempt to abort or retry the operation. * TODO: we need more of these */ case STATE(STAT_COMMAND, PHASE_COMMAND):/* Command -> Command */ /* error - we've sent out all the command bytes * we have. * NOTE: we need SAVE DATA POINTERS/RESTORE DATA POINTERS * to include the command bytes sent for this to work * correctly. */ printk(KERN_ERR "scsi%d.%c: " "target trying to receive more command bytes\n", info->host->host_no, fas216_target(info)); outb(CMD_SETATN, REG_CMD(info)); outb(15, REG_STCL(info)); outb(0, REG_STCM(info)); outb(0, REG_STCH(info)); outb(CMD_PADBYTES | CMD_WITHDMA, REG_CMD(info)); msgqueue_flush(&info->scsi.msgs); msgqueue_addmsg(&info->scsi.msgs, 1, INITIATOR_ERROR); info->scsi.phase = PHASE_MSGOUT_EXPECT; return; /* Selection -> Message Out */ case STATE(STAT_MESGOUT, PHASE_SELSTEPS): case STATE(STAT_MESGOUT, PHASE_MSGOUT): /* Message Out -> Message Out */ /* If we get another message out phase, this * usually means some parity error occurred. * Resend complete set of messages. If we have * more than 1 byte to send, we need to assert * ATN again. */ if (msgqueue_msglength(&info->scsi.msgs) > 1) outb(CMD_SETATN, REG_CMD(info)); fas216_send_messageout(info, 0); return; } if (info->scsi.phase == PHASE_MSGIN_DISCONNECT) { printk(KERN_ERR "scsi%d.%c: disconnect message received, but bus service %s?\n", info->host->host_no, fas216_target(info), fas216_bus_phase(stat)); msgqueue_flush(&info->scsi.msgs); outb(CMD_SETATN, REG_CMD(info)); msgqueue_addmsg(&info->scsi.msgs, 1, INITIATOR_ERROR); info->scsi.phase = PHASE_MSGOUT_EXPECT; info->scsi.aborting = 1; outb(CMD_TRANSFERINFO, REG_CMD(info)); return; } printk(KERN_ERR "scsi%d.%c: bus phase %s after %s?\n", info->host->host_no, fas216_target(info), fas216_bus_phase(stat), fas216_drv_phase(info)); print_debug_list(); return; default: printk("scsi%d.%c: bus service at step %d?\n", info->host->host_no, fas216_target(info), ssr & IS_BITS); print_debug_list(); } } /* Function: void fas216_funcdone_intr(FAS216_Info *info, unsigned int stat, unsigned int ssr) * Purpose : handle a function done interrupt from FAS216 chip * Params : info - interface which caused function done interrupt * stat - Status register contents * ssr - SCSI Status register contents */ static void fas216_funcdone_intr(FAS216_Info *info, unsigned int stat, unsigned int ssr) { int status, message; fas216_checkmagic(info, "fas216_funcdone_intr"); #ifdef DEBUG_FUNCTIONDONE printk("scsi%d.%c: function done: stat=%X ssr=%X phase=%02X\n", info->host->host_no, fas216_target(info), stat, ssr, info->scsi.phase); #endif switch (info->scsi.phase) { case PHASE_STATUS: /* status phase - read status and msg */ status = inb(REG_FF(info)); message = inb(REG_FF(info)); info->scsi.SCp.Message = message; info->scsi.SCp.Status = status; info->scsi.phase = PHASE_DONE; outb(CMD_MSGACCEPTED, REG_CMD(info)); break; case PHASE_IDLE: /* reselected? */ case PHASE_MSGIN: /* message in phase */ case PHASE_RECONNECTED: /* reconnected command */ if ((stat & STAT_BUSMASK) == STAT_MESGIN) { info->scsi.msgin_fifo = inb(REG_CFIS(info)) & CFIS_CF; fas216_message(info); break; } default: printk("scsi%d.%c: internal phase %s for function done?" " What do I do with this?\n", info->host->host_no, fas216_target(info), fas216_drv_phase(info)); } } /* Function: void fas216_intr(struct Scsi_Host *instance) * Purpose : handle interrupts from the interface to progress a command * Params : instance - interface to service */ void fas216_intr(struct Scsi_Host *instance) { FAS216_Info *info = (FAS216_Info *)instance->hostdata; unsigned char isr, ssr, stat; fas216_checkmagic(info, "fas216_intr"); stat = inb(REG_STAT(info)); ssr = inb(REG_IS(info)); isr = inb(REG_INST(info)); add_debug_list(stat, ssr, isr, info->scsi.phase); if (stat & STAT_INT) { if (isr & INST_BUSRESET) printk(KERN_DEBUG "scsi%d.H: bus reset detected\n", instance->host_no); else if (isr & INST_ILLEGALCMD) { printk(KERN_CRIT "scsi%d.H: illegal command given\n", instance->host_no); fas216_dumpstate(info); } else if (isr & INST_DISCONNECT) fas216_disconnect_intr(info); else if (isr & INST_RESELECTED) /* reselected */ fas216_reselected_intr(info); else if (isr & INST_BUSSERVICE) /* bus service request */ fas216_busservice_intr(info, stat, ssr); else if (isr & INST_FUNCDONE) /* function done */ fas216_funcdone_intr(info, stat, ssr); else printk("scsi%d.%c: unknown interrupt received:" " phase %s isr %02X ssr %02X stat %02X\n", instance->host_no, fas216_target(info), fas216_drv_phase(info), isr, ssr, stat); } } /* Function: void fas216_kick(FAS216_Info *info) * Purpose : kick a command to the interface - interface should be idle * Params : info - our host interface to kick * Notes : Interrupts are always disabled! */ static void fas216_kick(FAS216_Info *info) { Scsi_Cmnd *SCpnt; int tot_msglen, from_queue = 0; fas216_checkmagic(info, "fas216_kick"); if (info->origSCpnt) { SCpnt = info->origSCpnt; info->origSCpnt = NULL; } else SCpnt = NULL; /* retrieve next command */ if (!SCpnt) { SCpnt = queue_remove_exclude(&info->queues.issue, info->busyluns); from_queue = 1; } if (!SCpnt) /* no command pending - just exit */ return; if (info->scsi.disconnectable && info->SCpnt) { queue_add_cmd_tail(&info->queues.disconnected, info->SCpnt); info->scsi.disconnectable = 0; info->SCpnt = NULL; printk("scsi%d.%c: moved command to disconnected queue\n", info->host->host_no, fas216_target(info)); } /* * tagged queuing - allocate a new tag to this command */ if (SCpnt->device->tagged_queue && SCpnt->cmnd[0] != REQUEST_SENSE) { SCpnt->device->current_tag += 1; if (SCpnt->device->current_tag == 0) SCpnt->device->current_tag = 1; SCpnt->tag = SCpnt->device->current_tag; } /* * claim host busy */ info->scsi.phase = PHASE_SELECTION; info->SCpnt = SCpnt; info->scsi.SCp = SCpnt->SCp; info->dma.transfer_type = fasdma_none; #ifdef DEBUG_CONNECT printk("scsi%d.%c: starting cmd %02X", info->host->host_no, '0' + SCpnt->target, SCpnt->cmnd[0]); #endif if (from_queue) { #ifdef SCSI2_TAG if (SCpnt->device->tagged_queue && SCpnt->cmnd[0] != REQUEST_SENSE && SCpnt->cmnd[0] != INQUIRY) { SCpnt->device->current_tag += 1; if (SCpnt->device->current_tag == 0) SCpnt->device->current_tag = 1; SCpnt->tag = SCpnt->device->current_tag; } else #endif set_bit(SCpnt->target * 8 + SCpnt->lun, info->busyluns); info->stats.removes += 1; switch (SCpnt->cmnd[0]) { case WRITE_6: case WRITE_10: case WRITE_12: info->stats.writes += 1; break; case READ_6: case READ_10: case READ_12: info->stats.reads += 1; break; default: info->stats.miscs += 1; break; } } /* build outgoing message bytes */ msgqueue_flush(&info->scsi.msgs); if (info->device[SCpnt->target].disconnect_ok) msgqueue_addmsg(&info->scsi.msgs, 1, IDENTIFY(1, SCpnt->lun)); else msgqueue_addmsg(&info->scsi.msgs, 1, IDENTIFY(0, SCpnt->lun)); /* add tag message if required */ if (SCpnt->tag) msgqueue_addmsg(&info->scsi.msgs, 2, SIMPLE_QUEUE_TAG, SCpnt->tag); #ifdef SCSI2_WIDE if (info->device[SCpnt->target].wide_state == neg_wait) { info->device[SCpnt->target].wide_state = neg_inprogress; msgqueue_addmsg(&info->scsi.msgs, 4, EXTENDED_MESSAGE, 2, EXTENDED_WDTR, info->ifcfg.wide_max_size); } #ifdef SCSI2_SYNC else #endif #endif #ifdef SCSI2_SYNC if ((info->device[SCpnt->target].sync_state == neg_wait || info->device[SCpnt->target].sync_state == neg_complete) && (SCpnt->cmnd[0] == REQUEST_SENSE || SCpnt->cmnd[0] == INQUIRY)) { info->device[SCpnt->target].sync_state = neg_inprogress; msgqueue_addmsg(&info->scsi.msgs, 5, EXTENDED_MESSAGE, 3, EXTENDED_SDTR, 1000 / info->ifcfg.clockrate, info->ifcfg.sync_max_depth); } #endif /* following what the ESP driver says */ outb(0, REG_STCL(info)); outb(0, REG_STCM(info)); outb(0, REG_STCH(info)); outb(CMD_NOP | CMD_WITHDMA, REG_CMD(info)); /* flush FIFO */ outb(CMD_FLUSHFIFO, REG_CMD(info)); /* load bus-id and timeout */ outb(BUSID(SCpnt->target), REG_SDID(info)); outb(info->ifcfg.select_timeout, REG_STIM(info)); /* synchronous transfers */ fas216_set_sync(info, SCpnt->target); tot_msglen = msgqueue_msglength(&info->scsi.msgs); if (tot_msglen == 1 || tot_msglen == 3) { /* * We have an easy message length to send... */ struct message *msg; int msgnr = 0, i; info->scsi.phase = PHASE_SELSTEPS; /* load message bytes */ while ((msg = msgqueue_getmsg(&info->scsi.msgs, msgnr++)) != NULL) { for (i = 0; i < msg->length; i++) outb(msg->msg[i], REG_FF(info)); msg->fifo = tot_msglen - (inb(REG_CFIS(info)) & CFIS_CF); } /* load command */ for (i = 0; i < SCpnt->cmd_len; i++) outb(SCpnt->cmnd[i], REG_FF(info)); if (tot_msglen == 1) outb(CMD_SELECTATN, REG_CMD(info)); else outb(CMD_SELECTATN3, REG_CMD(info)); } else { /* * We have an unusual number of message bytes to send. * Load first byte into fifo, and issue SELECT with ATN and * stop steps. */ struct message *msg = msgqueue_getmsg(&info->scsi.msgs, 0); outb(msg->msg[0], REG_FF(info)); msg->fifo = 1; outb(CMD_SELECTATNSTOP, REG_CMD(info)); } #ifdef DEBUG_CONNECT printk(", data pointers [%p, %X]\n", info->scsi.SCp.ptr, info->scsi.SCp.this_residual); #endif /* should now get either DISCONNECT or (FUNCTION DONE with BUS SERVICE) intr */ } /* Function: void fas216_done(FAS216_Info *info, unsigned int result) * Purpose : complete processing for command * Params : info - interface that completed * result - driver byte of result */ static void fas216_done(FAS216_Info *info, unsigned int result) { Scsi_Cmnd *SCpnt; fas216_checkmagic(info, "fas216_done"); SCpnt = info->SCpnt; if (info->scsi.aborting) { printk("scsi%d.%c: uncaught abort - returning DID_ABORT\n", info->host->host_no, fas216_target(info)); result = DID_ABORT; info->scsi.aborting = 0; } info->stats.fins += 1; if (SCpnt) { info->scsi.phase = PHASE_IDLE; info->SCpnt = NULL; SCpnt->result = result << 16 | info->scsi.SCp.Message << 8 | info->scsi.SCp.Status; /* * In theory, this should not happen, but just in case it does. */ if (info->scsi.SCp.ptr && info->scsi.SCp.this_residual && result == DID_OK) { switch (SCpnt->cmnd[0]) { case INQUIRY: case START_STOP: case READ_CAPACITY: case TEST_UNIT_READY: case MODE_SENSE: break; default: switch (status_byte(SCpnt->result)) { case CHECK_CONDITION: case COMMAND_TERMINATED: case BUSY: case QUEUE_FULL: case RESERVATION_CONFLICT: break; default: printk(KERN_ERR "scsi%d.H: incomplete data transfer " "detected: res=%08X ptr=%p len=%X command=", info->host->host_no, SCpnt->result, info->scsi.SCp.ptr, info->scsi.SCp.this_residual); print_command(SCpnt->cmnd); } } } #ifdef DEBUG_CONNECT printk("scsi%d.%c: scsi command (%p) complete, result=%08X\n", info->host->host_no, fas216_target(info), SCpnt, SCpnt->result); #endif if (!SCpnt->scsi_done) panic("scsi%d.H: null scsi_done function in " "fas216_done", info->host->host_no); clear_bit(SCpnt->target * 8 + SCpnt->lun, info->busyluns); SCpnt->scsi_done(SCpnt); } else panic("scsi%d.H: null command in fas216_done", info->host->host_no); if (info->scsi.irq != NO_IRQ) fas216_kick(info); } /* Function: int fas216_queue_command(Scsi_Cmnd *SCpnt, void (*done)(Scsi_Cmnd *)) * Purpose : queue a command for adapter to process. * Params : SCpnt - Command to queue * done - done function to call once command is complete * Returns : 0 - success, else error */ int fas216_queue_command(Scsi_Cmnd *SCpnt, void (*done)(Scsi_Cmnd *)) { FAS216_Info *info = (FAS216_Info *)SCpnt->host->hostdata; unsigned long flags; fas216_checkmagic(info, "fas216_queue_command"); #ifdef DEBUG_CONNECT printk("scsi%d.%c: received queuable command (%p) %02X\n", SCpnt->host->host_no, '0' + SCpnt->target, SCpnt, SCpnt->cmnd[0]); #endif SCpnt->scsi_done = done; SCpnt->host_scribble = NULL; SCpnt->result = 0; SCpnt->SCp.Message = 0; SCpnt->SCp.Status = 0; if (SCpnt->use_sg) { unsigned long len = 0; int buf; SCpnt->SCp.buffer = (struct scatterlist *) SCpnt->buffer; SCpnt->SCp.buffers_residual = SCpnt->use_sg - 1; SCpnt->SCp.ptr = (char *) SCpnt->SCp.buffer->address; SCpnt->SCp.this_residual = SCpnt->SCp.buffer->length; /* * Calculate correct buffer length */ for (buf = 0; buf <= SCpnt->SCp.buffers_residual; buf++) len += SCpnt->SCp.buffer[buf].length; SCpnt->request_bufflen = len; } else { SCpnt->SCp.buffer = NULL; SCpnt->SCp.buffers_residual = 0; SCpnt->SCp.ptr = (unsigned char *)SCpnt->request_buffer; SCpnt->SCp.this_residual = SCpnt->request_bufflen; } info->stats.queues += 1; SCpnt->tag = 0; /* add command into execute queue and let it complete under * whatever scheme we're using. */ if (!queue_add_cmd_ordered(&info->queues.issue, SCpnt)) { SCpnt->result = DID_ERROR << 16; done(SCpnt); } save_flags_cli(flags); if (!info->SCpnt || info->scsi.disconnectable) fas216_kick(info); restore_flags(flags); return 0; } /* Function: void fas216_internal_done(Scsi_Cmnd *SCpnt) * Purpose : trigger restart of a waiting thread in fas216_command * Params : SCpnt - Command to wake */ static void fas216_internal_done(Scsi_Cmnd *SCpnt) { FAS216_Info *info = (FAS216_Info *)SCpnt->host->hostdata; fas216_checkmagic(info, "fas216_internal_done"); info->internal_done = 1; } /* Function: int fas216_command(Scsi_Cmnd *SCpnt) * Purpose : queue a command for adapter to process. * Params : SCpnt - Command to queue * Returns : scsi result code */ int fas216_command(Scsi_Cmnd *SCpnt) { FAS216_Info *info = (FAS216_Info *)SCpnt->host->hostdata; unsigned long flags; fas216_checkmagic(info, "fas216_command"); info->internal_done = 0; fas216_queue_command(SCpnt, fas216_internal_done); /* * This wastes time, since we can't return until the command is * complete. We can't sleep either since we may get re-entered! * However, we must re-enable interrupts, or else we'll be * waiting forever. */ save_flags(flags); sti(); while (!info->internal_done) { /* * If we don't have an IRQ, then we must * poll the card for it's interrupt, and * use that to call this driver's interrupt * routine. That way, we keep the command * progressing. */ if (info->scsi.irq == NO_IRQ) { sti(); while (!(inb(REG_STAT(info)) & STAT_INT)); cli(); fas216_intr(info->host); } } restore_flags(flags); return SCpnt->result; } /* Prototype: void fas216_reportstatus(Scsi_Cmnd **SCpntp1, * Scsi_Cmnd **SCpntp2, int result) * Purpose : pass a result to *SCpntp1, and check if *SCpntp1 = *SCpntp2 * Params : SCpntp1 - pointer to command to return * SCpntp2 - pointer to command to check * result - result to pass back to mid-level done function * Returns : *SCpntp2 = NULL if *SCpntp1 is the same command * structure as *SCpntp2. */ static void fas216_reportstatus(Scsi_Cmnd **SCpntp1, Scsi_Cmnd **SCpntp2, int result) { Scsi_Cmnd *SCpnt = *SCpntp1; if (SCpnt) { *SCpntp1 = NULL; SCpnt->result = result; SCpnt->scsi_done(SCpnt); } if (SCpnt == *SCpntp2) *SCpntp2 = NULL; } /* Function: int fas216_eh_abort(Scsi_Cmnd *SCpnt) * Purpose : abort this command * Params : SCpnt - command to abort * Returns : FAILED if unable to abort */ int fas216_eh_abort(Scsi_Cmnd *SCpnt) { return FAILED; } /* Function: int fas216_eh_device_reset(Scsi_Cmnd *SCpnt) * Purpose : Reset the device associated with this command * Params : SCpnt - command specifing device to reset * Returns : FAILED if unable to reset */ int fas216_eh_device_reset(Scsi_Cmnd *SCpnt) { return FAILED; } /* Function: int fas216_eh_bus_reset(Scsi_Cmnd *SCpnt) * Purpose : Reset the complete bus associated with this command * Params : SCpnt - command specifing bus to reset * Returns : FAILED if unable to reset */ int fas216_eh_bus_reset(Scsi_Cmnd *SCpnt) { return FAILED; } /* Function: int fas216_eh_host_reset(Scsi_Cmnd *SCpnt) * Purpose : Reset the host associated with this command * Params : SCpnt - command specifing host to reset * Returns : FAILED if unable to reset */ int fas216_eh_host_reset(Scsi_Cmnd *SCpnt) { return FAILED; } enum res_abort { res_not_running, res_success, res_success_clear, res_snooze }; /* * Prototype: enum res_abort fas216_do_abort(FAS216_Info *info, Scsi_Cmnd *SCpnt) * Purpose : abort a command on this host * Params : SCpnt - command to abort * Returns : abort status */ static enum res_abort fas216_do_abort(FAS216_Info *info, Scsi_Cmnd *SCpnt) { enum res_abort res = res_not_running; if (queue_removecmd(&info->queues.issue, SCpnt)) { /* * The command was on the issue queue, and has not been * issued yet. We can remove the command from the queue, * and acknowledge the abort. Neither the devices nor the * interface know about the command. */ printk("on issue queue "); res = res_success; } else if (queue_removecmd(&info->queues.disconnected, SCpnt)) { /* * The command was on the disconnected queue. Simply * acknowledge the abort condition, and when the target * reconnects, we will give it an ABORT message. The * target should then disconnect, and we will clear * the busylun bit. */ printk("on disconnected queue "); res = res_success; } else if (info->SCpnt == SCpnt) { unsigned long flags; printk("executing "); save_flags(flags); cli(); switch (info->scsi.phase) { /* * If the interface is idle, and the command is 'disconnectable', * then it is the same as on the disconnected queue. We simply * remove all traces of the command. When the target reconnects, * we will give it an ABORT message since the command could not * be found. When the target finally disconnects, we will clear * the busylun bit. */ case PHASE_IDLE: if (info->scsi.disconnectable) { info->scsi.disconnectable = 0; info->SCpnt = NULL; res = res_success; } break; /* * If the command has connected and done nothing futher, * simply force a disconnect. We also need to clear the * busylun bit. */ case PHASE_SELECTION: // info->SCpnt = NULL; // res = res_success_clear; // break; default: res = res_snooze; break; } restore_flags(flags); } else if (info->origSCpnt == SCpnt) { /* * The command will be executed next, but a command * is currently using the interface. This is similar to * being on the issue queue, except the busylun bit has * been set. */ info->origSCpnt = NULL; printk("waiting for execution "); res = res_success_clear; } else printk("unknown "); return res; } /* Function: int fas216_abort(Scsi_Cmnd *SCpnt) * Purpose : abort a command if something horrible happens. * Params : SCpnt - Command that is believed to be causing a problem. * Returns : one of SCSI_ABORT_ macros. */ int fas216_abort(Scsi_Cmnd *SCpnt) { FAS216_Info *info = (FAS216_Info *)SCpnt->host->hostdata; int result = SCSI_ABORT_SNOOZE; fas216_checkmagic(info, "fas216_abort"); info->stats.aborts += 1; print_debug_list(); fas216_dumpstate(info); fas216_dumpinfo(info); printk(KERN_WARNING "scsi%d: abort ", info->host->host_no); switch (fas216_do_abort(info, SCpnt)) { /* * We managed to find the command and cleared it out. * We do not expect the command to be executing on the * target, but we have set the busylun bit. */ case res_success_clear: printk("clear "); clear_bit(SCpnt->target * 8 + SCpnt->lun, info->busyluns); /* * We found the command, and cleared it out. Either * the command is still known to be executing on the * target, or the busylun bit is not set. */ case res_success: printk("success\n"); SCpnt->result = DID_ABORT << 16; SCpnt->scsi_done(SCpnt); result = SCSI_ABORT_SUCCESS; break; /* * We did find the command, but unfortunately we couldn't * unhook it from ourselves. Wait some more, and if it * still doesn't complete, reset the interface. */ case res_snooze: printk("snooze\n"); result = SCSI_ABORT_SNOOZE; break; /* * The command could not be found (either because it completed, * or it got dropped. */ default: case res_not_running: result = SCSI_ABORT_SNOOZE; printk("not running\n"); break; } return result; } /* Function: void fas216_reset_state(FAS216_Info *info) * Purpose : Initialise driver internal state * Params : info - state to initialise */ static void fas216_reset_state(FAS216_Info *info) { neg_t sync_state, wide_state; int i; fas216_checkmagic(info, "fas216_reset_state"); /* * Clear out all stale info in our state structure */ memset(info->busyluns, 0, sizeof(info->busyluns)); msgqueue_flush(&info->scsi.msgs); info->scsi.reconnected.target = 0; info->scsi.reconnected.lun = 0; info->scsi.reconnected.tag = 0; info->scsi.disconnectable = 0; info->scsi.aborting = 0; info->scsi.phase = PHASE_IDLE; info->scsi.async_stp = fas216_syncperiod(info, info->ifcfg.asyncperiod); if (info->ifcfg.wide_max_size == 0) wide_state = neg_invalid; else #ifdef SCSI2_WIDE wide_state = neg_wait; #else wide_state = neg_invalid; #endif if (info->host->dma_channel == NO_DMA || !info->dma.setup) sync_state = neg_invalid; else #ifdef SCSI2_SYNC sync_state = neg_wait; #else sync_state = neg_invalid; #endif for (i = 0; i < 8; i++) { info->device[i].disconnect_ok = info->ifcfg.disconnect_ok; info->device[i].sync_state = sync_state; info->device[i].wide_state = wide_state; info->device[i].period = info->ifcfg.asyncperiod / 4; info->device[i].stp = info->scsi.async_stp; info->device[i].sof = 0; info->device[i].wide_xfer = 0; } } /* Function: void fas216_init_chip(FAS216_Info *info) * Purpose : Initialise FAS216 state after reset * Params : info - state structure for interface */ static void fas216_init_chip(FAS216_Info *info) { fas216_checkmagic(info, "fas216_init_chip"); outb(fas216_clockrate(info->ifcfg.clockrate), REG_CLKF(info)); outb(info->scsi.cfg[0], REG_CNTL1(info)); outb(info->scsi.cfg[1], REG_CNTL2(info)); outb(info->scsi.cfg[2], REG_CNTL3(info)); outb(info->ifcfg.select_timeout, REG_STIM(info)); outb(0, REG_SOF(info)); outb(info->scsi.async_stp, REG_STP(info)); outb(info->scsi.cfg[0], REG_CNTL1(info)); } /* Function: int fas216_reset(Scsi_Cmnd *SCpnt, unsigned int reset_flags) * Purpose : resets the adapter if something horrible happens. * Params : SCpnt - Command that is believed to be causing a problem. * reset_flags - flags indicating reset type that is believed * to be required. * Returns : one of SCSI_RESET_ macros, or'd with the SCSI_RESET_*_RESET * macros. */ int fas216_reset(Scsi_Cmnd *SCpnt, unsigned int reset_flags) { FAS216_Info *info = (FAS216_Info *)SCpnt->host->hostdata; Scsi_Cmnd *SCptr; int result = 0; fas216_checkmagic(info, "fas216_reset"); /* * Validate that command is actually on one of our queues if we're doing * an asynchronous reset */ if (reset_flags & SCSI_RESET_ASYNCHRONOUS && SCpnt && info->SCpnt != SCpnt && info->origSCpnt != SCpnt && !queue_cmdonqueue(&info->queues.disconnected, SCpnt) && !queue_cmdonqueue(&info->queues.issue, SCpnt)) { printk("scsi%d: fas216_reset: asynchronous reset for unknown command\n", info->host->host_no); return SCSI_RESET_NOT_RUNNING; } info->stats.resets += 1; print_debug_list(); printk(KERN_WARNING "scsi%d: reset ", info->host->host_no); if (SCpnt) printk("for target %d ", SCpnt->target); printk("\n"); outb(info->scsi.cfg[3], REG_CNTL3(info)); fas216_stoptransfer(info); switch (reset_flags & (SCSI_RESET_SUGGEST_BUS_RESET | SCSI_RESET_SUGGEST_HOST_RESET)) { case SCSI_RESET_SUGGEST_BUS_RESET: outb(CMD_RESETSCSI, REG_CMD(info)); outb(CMD_NOP, REG_CMD(info)); result |= SCSI_RESET_BUS_RESET; break; case SCSI_RESET_SUGGEST_HOST_RESET: outb(CMD_RESETCHIP, REG_CMD(info)); outb(CMD_NOP, REG_CMD(info)); result |= SCSI_RESET_HOST_RESET; break; default: outb(CMD_RESETCHIP, REG_CMD(info)); outb(CMD_NOP, REG_CMD(info)); outb(CMD_RESETSCSI, REG_CMD(info)); result |= SCSI_RESET_HOST_RESET | SCSI_RESET_BUS_RESET; break; } udelay(300); fas216_reset_state(info); fas216_init_chip(info); /* * Signal all commands in progress have been reset */ fas216_reportstatus(&info->SCpnt, &SCpnt, DID_RESET << 16); while ((SCptr = queue_remove(&info->queues.disconnected)) != NULL) fas216_reportstatus(&SCptr, &SCpnt, DID_RESET << 16); if (SCpnt) { /* * Command not found on disconnected queue, nor currently * executing command - check pending commands */ if (info->origSCpnt == SCpnt) info->origSCpnt = NULL; queue_removecmd(&info->queues.issue, SCpnt); SCpnt->result = DID_RESET << 16; SCpnt->scsi_done(SCpnt); } return result | SCSI_RESET_SUCCESS; } /* Function: int fas216_init(struct Scsi_Host *instance) * Purpose : initialise FAS/NCR/AMD SCSI ic. * Params : instance - a driver-specific filled-out structure * Returns : 0 on success */ int fas216_init(struct Scsi_Host *instance) { FAS216_Info *info = (FAS216_Info *)instance->hostdata; unsigned long flags; int target_jiffies; info->magic_start = MAGIC; info->magic_end = MAGIC; info->host = instance; info->scsi.cfg[0] = instance->this_id; info->scsi.cfg[1] = CNTL2_ENF | CNTL2_S2FE; info->scsi.cfg[2] = info->ifcfg.cntl3 | CNTL3_ADIDCHK | CNTL3_G2CB; info->scsi.type = "unknown"; info->SCpnt = NULL; fas216_reset_state(info); memset(&info->stats, 0, sizeof(info->stats)); msgqueue_initialise(&info->scsi.msgs); if (!queue_initialise(&info->queues.issue)) return 1; if (!queue_initialise(&info->queues.disconnected)) { queue_free(&info->queues.issue); return 1; } outb(CMD_RESETCHIP, REG_CMD(info)); outb(0, REG_CNTL3(info)); outb(CNTL2_S2FE, REG_CNTL2(info)); if ((inb(REG_CNTL2(info)) & (~0xe0)) != CNTL2_S2FE) { info->scsi.type = "NCR53C90"; } else { outb(0, REG_CNTL2(info)); outb(0, REG_CNTL3(info)); outb(5, REG_CNTL3(info)); if (inb(REG_CNTL3(info)) != 5) { info->scsi.type = "NCR53C90A"; } else { outb(0, REG_CNTL3(info)); info->scsi.type = "NCR53C9x"; } } outb(CNTL3_ADIDCHK, REG_CNTL3(info)); outb(0, REG_CNTL3(info)); outb(CMD_RESETCHIP, REG_CMD(info)); outb(CMD_WITHDMA | CMD_NOP, REG_CMD(info)); outb(CNTL2_ENF, REG_CNTL2(info)); outb(CMD_RESETCHIP, REG_CMD(info)); switch (inb(REG1_ID(info))) { case 12: info->scsi.type = "Am53CF94"; break; default: break; } udelay(300); /* now for the real initialisation */ fas216_init_chip(info); outb(info->scsi.cfg[0] | CNTL1_DISR, REG_CNTL1(info)); outb(CMD_RESETSCSI, REG_CMD(info)); /* scsi standard says 250ms */ target_jiffies = jiffies + (25 * HZ) / 100; save_flags(flags); sti(); while (time_before(jiffies, target_jiffies)) barrier(); restore_flags(flags); outb(info->scsi.cfg[0], REG_CNTL1(info)); inb(REG_INST(info)); /* now for the real initialisation */ fas216_init_chip(info); fas216_checkmagic(info, "fas216_init"); return 0; } /* Function: int fas216_release(struct Scsi_Host *instance) * Purpose : release all resources and put everything to bed for * FAS/NCR/AMD SCSI ic. * Params : instance - a driver-specific filled-out structure * Returns : 0 on success */ int fas216_release(struct Scsi_Host *instance) { FAS216_Info *info = (FAS216_Info *)instance->hostdata; fas216_checkmagic(info, "fas216_release"); outb(CMD_RESETCHIP, REG_CMD(info)); queue_free(&info->queues.disconnected); queue_free(&info->queues.issue); return 0; } int fas216_print_stats(FAS216_Info *info, char *buffer) { return sprintf(buffer, "Queued commands: %-10u Issued commands: %-10u\n" "Done commands : %-10u Reads : %-10u\n" "Writes : %-10u Others : %-10u\n" "Disconnects : %-10u Aborts : %-10u\n" "Resets : %-10u\n", info->stats.queues, info->stats.removes, info->stats.fins, info->stats.reads, info->stats.writes, info->stats.miscs, info->stats.disconnects, info->stats.aborts, info->stats.resets); } int fas216_print_device(FAS216_Info *info, Scsi_Device *scd, char *buffer) { struct fas216_device *dev = &info->device[scd->id]; int len = 0; char *p; proc_print_scsidevice(scd, buffer, &len, 0); p = buffer + len; p += sprintf(p, " Extensions: "); if (scd->tagged_supported) p += sprintf(p, "TAG %sabled [%d] ", scd->tagged_queue ? "en" : "dis", scd->current_tag); p += sprintf(p, "\n Transfers : %d-bit ", 8 << dev->wide_xfer); if (dev->sof) p += sprintf(p, "sync offset %d, %d ns\n", dev->sof, dev->period * 4); else p += sprintf(p, "async\n"); return p - buffer; } EXPORT_SYMBOL(fas216_init); EXPORT_SYMBOL(fas216_abort); EXPORT_SYMBOL(fas216_reset); EXPORT_SYMBOL(fas216_queue_command); EXPORT_SYMBOL(fas216_command); EXPORT_SYMBOL(fas216_intr); EXPORT_SYMBOL(fas216_release); EXPORT_SYMBOL(fas216_eh_abort); EXPORT_SYMBOL(fas216_eh_device_reset); EXPORT_SYMBOL(fas216_eh_bus_reset); EXPORT_SYMBOL(fas216_eh_host_reset); EXPORT_SYMBOL(fas216_print_stats); EXPORT_SYMBOL(fas216_print_device); #ifdef MODULE int init_module(void) { return 0; } void cleanup_module(void) { } #endif |