1*35401Stef /* @(#)tmscp.c 7.5 (Berkeley) 08/27/88 */ 226135Skarels 326127Skarels #ifndef lint 426127Skarels static char *sccsid = "@(#)tmscp.c 1.24 (ULTRIX) 1/21/86"; 526127Skarels #endif lint 626127Skarels 726135Skarels 826127Skarels /************************************************************************ 926127Skarels * * 1027468Skjd * Licensed from Digital Equipment Corporation * 1127468Skjd * Copyright (c) * 1227468Skjd * Digital Equipment Corporation * 1327468Skjd * Maynard, Massachusetts * 1427468Skjd * 1985, 1986 * 1527468Skjd * All rights reserved. * 1626127Skarels * * 1727468Skjd * The Information in this software is subject to change * 1827468Skjd * without notice and should not be construed as a commitment * 1927468Skjd * by Digital Equipment Corporation. Digital makes no * 2027468Skjd * representations about the suitability of this software for * 2127468Skjd * any purpose. It is supplied "As Is" without expressed or * 2227468Skjd * implied warranty. * 2326127Skarels * * 2427468Skjd * If the Regents of the University of California or its * 2527468Skjd * licensees modify the software in a manner creating * 2627468Skjd * diriviative copyright rights, appropriate copyright * 2727468Skjd * legends may be placed on the drivative work in addition * 2827468Skjd * to that set forth above. * 2926127Skarels * * 3026127Skarels ************************************************************************ 3126127Skarels * 3226127Skarels * tmscp.c - TMSCP (TK50/TU81) tape device driver 3326127Skarels * 3426127Skarels * Modification History: 3526127Skarels * 3626127Skarels * 06-Jan-86 - afd 3726127Skarels * Changed the probe routine to use DELAY (not TODR). This now 3826127Skarels * works for MicroVAXen as well. This eliminates the busy-wait 3926127Skarels * for MicroVAXen so a dead TK50 controller will not hang autoconf. 4026127Skarels * 4126127Skarels * 06-Dec-85 - afd 4226127Skarels * Fixed a bug in density selection. The "set unit characteristics" 4326127Skarels * command to select density, was clearing the "unit flags" field 4426127Skarels * where the CACHE bit was for TU81-E. Now the unit's "format" and 4526127Skarels * "unitflgs" are saved in tms_info struct. And are used on STUNT 4626127Skarels * commands. 4726127Skarels * 4826127Skarels * 19-Oct-85 - afd 4926127Skarels * Added support to the open routine to allow drives to be opened 5026127Skarels * for low density (800 or 1600 bpi) use. When the slave routine 5126127Skarels * initiates a "get-unit-char" cmd, the format menu for the unit 5226127Skarels * is saved in the tms_info structure. The format menu is used in the 5326127Skarels * start routine to select the proper low density. 5426127Skarels * 5526127Skarels * 02-Oct-85 - afd 5626127Skarels * When a tmscp-type controller is initializing, it is possible for 5726127Skarels * the sa reg to become 0 between states. Thus the init code in 5826127Skarels * the interrupt routine had to be modified to reflect this. 5926127Skarels * 6026127Skarels * 21-Sep-85 - afd 6126127Skarels * The TK50 declares a serious exception when a tape mark is encountered. 6226127Skarels * This causes problems to dd (& other UN*X utilities). So a flag 6326127Skarels * is set in the rsp() routine when a tape mark is encountered. If 6426127Skarels * this flag is set, the start() routine appends the Clear Serious 6526127Skarels * Exception modifier to the next command. 6626127Skarels * 6726127Skarels * 03-Sep-85 -- jaw 6826127Skarels * messed up previous edit.. 6926127Skarels * 7026127Skarels * 29-Aug-85 - jaw 7126127Skarels * fixed bugs in 8200 and 750 buffered datapath handling. 7226127Skarels * 7326127Skarels * 06-Aug-85 - afd 7426127Skarels * 1. When repositioning records or files, the count of items skipped 7526127Skarels * does NOT HAVE to be returned by controllers (& the TU81 doesn't). 7626127Skarels * So tmscprsp() had to be modified to stop reporting 7726127Skarels * residual count errors on reposition commands. 7826127Skarels * 7926127Skarels * 2. Fixed bug in the open routine which allowed multiple opens. 8026127Skarels * 8126127Skarels * 18-Jul-85 - afd 8226127Skarels * 1. Need to return status when mt status (or corresponding ioctl) is done. 8326127Skarels * Save resid, flags, endcode & status in tmscprsp() routine (except on 8426127Skarels * clear serious exception no-op). Return these fields when status 8526127Skarels * ioctl is done (in tmscpcommand()). How they are returned: 8626127Skarels * mt_resid = resid 8726127Skarels * mt_dsreg = flags|endcode 8826127Skarels * mt_erreg = status 8926127Skarels * 9026127Skarels * 2. Added latent support for enabling/disabling caching. This is 9126127Skarels * handled along with all other ioctl commands. 9226127Skarels * 9326127Skarels * 3. Need to issue a no-op on unrecognized ioctl in tmscpstart(), since 9426127Skarels * we have already commited to issuing a command at that point. 9526127Skarels * 9626127Skarels * 4. In tmscprsp() routine if encode is 0200 (invalid command issued); 9726127Skarels * We need to: Unlink the buffer from the I/O wait queue, 9826127Skarels * and signal iodone, so the higher level command can exit! 9926127Skarels * Just as if it were a valid command. 10026127Skarels * 10126127Skarels * 11-jul-85 -- jaw 10226127Skarels * fix bua/bda map registers. 10326127Skarels * 10426127Skarels * 19-Jun-85 -- jaw 10526127Skarels * VAX8200 name change. 10626127Skarels * 10726127Skarels * 06-Jun-85 - jaw 10826127Skarels * fixes for 8200. 10926127Skarels * 11026127Skarels * 9-Apr-85 - afd 11126127Skarels * Added timeout code to the probe routine, so if the controller 11226127Skarels * fails to init in 10 seconds we return failed status. 11326127Skarels * 11426127Skarels * 13-Mar-85 -jaw 11526127Skarels * Changes for support of the VAX8200 were merged in. 11626127Skarels * 11726127Skarels * 27-Feb-85 -tresvik 11826127Skarels * Changes for support of the VAX8600 were merged in. 11926127Skarels * 12026127Skarels */ 12126135Skarels 12226127Skarels #include "tms.h" 12326135Skarels #if NTMSCP > 0 12426135Skarels 12526135Skarels #include "param.h" 12626135Skarels #include "systm.h" 12726135Skarels #include "buf.h" 12826135Skarels #include "conf.h" 12926135Skarels #include "dir.h" 13026135Skarels #include "user.h" 13126135Skarels #include "file.h" 13226135Skarels #include "map.h" 13326135Skarels #include "vm.h" 13426135Skarels #include "ioctl.h" 13526135Skarels #include "syslog.h" 13626135Skarels #include "mtio.h" 13726135Skarels #include "cmap.h" 13826135Skarels #include "uio.h" 13926838Skarels #include "tty.h" 14026135Skarels 14130917Skarels #include "../vax/pte.h" 14226135Skarels #include "../vax/cpu.h" 14326135Skarels #include "../vax/mtpr.h" 14426135Skarels #include "ubareg.h" 14526135Skarels #include "ubavar.h" 14626135Skarels 14726135Skarels #define TENSEC (1000) 14826135Skarels #define TMS_PRI LOG_INFO 14926135Skarels 15026135Skarels #define NRSPL2 3 /* log2 number of response packets */ 15126135Skarels #define NCMDL2 3 /* log2 number of command packets */ 15226135Skarels #define NRSP (1<<NRSPL2) 15326135Skarels #define NCMD (1<<NCMDL2) 15426135Skarels 15526135Skarels #include "tmscpreg.h" 15626135Skarels #include "../vax/tmscp.h" 15726135Skarels 15826135Skarels /* Software state per controller */ 15926135Skarels 16026135Skarels struct tmscp_softc { 16126135Skarels short sc_state; /* state of controller */ 16226135Skarels short sc_mapped; /* Unibus map allocated for tmscp struct? */ 16326135Skarels int sc_ubainfo; /* Unibus mapping info */ 16426135Skarels struct tmscp *sc_tmscp; /* Unibus address of tmscp struct */ 16526135Skarels int sc_ivec; /* interrupt vector address */ 16626135Skarels short sc_credits; /* transfer credits */ 16726135Skarels short sc_lastcmd; /* pointer into command ring */ 16826135Skarels short sc_lastrsp; /* pointer into response ring */ 16926135Skarels } tmscp_softc[NTMSCP]; 17026135Skarels 17126135Skarels struct tmscp { 17226135Skarels struct tmscpca tmscp_ca; /* communications area */ 17326135Skarels struct mscp tmscp_rsp[NRSP]; /* response packets */ 17426135Skarels struct mscp tmscp_cmd[NCMD]; /* command packets */ 17526135Skarels } tmscp[NTMSCP]; 17626135Skarels 17726135Skarels /* 17826135Skarels * Per drive-unit info 17926135Skarels */ 18026135Skarels struct tms_info { 18126135Skarels daddr_t tms_dsize; /* Max user size from online pkt */ 18226135Skarels unsigned tms_type; /* Drive type int field */ 18326135Skarels int tms_resid; /* residual from last xfer */ 18426135Skarels u_char tms_endcode; /* last command endcode */ 18526135Skarels u_char tms_flags; /* last command end flags */ 18626135Skarels unsigned tms_status; /* Command status from last command */ 18726135Skarels char tms_openf; /* lock against multiple opens */ 18826135Skarels char tms_lastiow; /* last op was a write */ 18926135Skarels char tms_serex; /* set when serious exception occurs */ 19026135Skarels char tms_clserex; /* set when serex being cleared by no-op */ 19126135Skarels short tms_fmtmenu; /* the unit's format (density) menu */ 19226135Skarels short tms_unitflgs; /* unit flag parameters */ 19326135Skarels short tms_format; /* the unit's current format (density) */ 19426135Skarels struct tty *tms_ttyp; /* record user's tty for errors */ 19526135Skarels } tms_info[NTMS]; 19626135Skarels struct uba_ctlr *tmscpminfo[NTMSCP]; 19726135Skarels struct uba_device *tmsdinfo[NTMS]; 19826135Skarels /* 19926135Skarels * ifdef other tmscp devices here if they allow more than 1 unit/controller 20026135Skarels */ 20126135Skarels struct uba_device *tmscpip[NTMSCP][1]; 20226135Skarels struct buf ctmscpbuf[NTMSCP]; /* internal cmd buffer (for ioctls) */ 20326135Skarels struct buf tmsutab[NTMS]; /* Drive queue */ 20426135Skarels struct buf tmscpwtab[NTMSCP]; /* I/O wait queue, per controller */ 20526135Skarels int tmscpmicro[NTMSCP]; /* to store microcode level */ 20626135Skarels short utoctlr[NTMS]; /* Slave unit to controller mapping */ 20726135Skarels /* filled in by the slave routine */ 20826135Skarels 20926127Skarels /* Bits in minor device */ 21026127Skarels #define TMSUNIT(dev) (minor(dev)&03) 21126127Skarels #define T_NOREWIND 04 21226127Skarels #define T_HIDENSITY 010 21326135Skarels 21426127Skarels /* Slave unit to controller mapping */ 21526127Skarels #define TMSCPCTLR(dev) (utoctlr[TMSUNIT(dev)]) 21626135Skarels 21726127Skarels /* 21826127Skarels * Internal (ioctl) command codes (these must also be declared in the 21926127Skarels * tmscpioctl routine). These correspond to ioctls in mtio.h 22026127Skarels */ 22126127Skarels #define TMS_WRITM 0 /* write tape mark */ 22226127Skarels #define TMS_FSF 1 /* forward space file */ 22326127Skarels #define TMS_BSF 2 /* backward space file */ 22426127Skarels #define TMS_FSR 3 /* forward space record */ 22526127Skarels #define TMS_BSR 4 /* backward space record */ 22626127Skarels #define TMS_REW 5 /* rewind tape */ 22726127Skarels #define TMS_OFFL 6 /* rewind tape & mark unit offline */ 22826127Skarels #define TMS_SENSE 7 /* noop - do a get unit status */ 22926127Skarels #define TMS_CACHE 8 /* enable cache */ 23026127Skarels #define TMS_NOCACHE 9 /* disable cache */ 23126127Skarels /* These go last: after all real mt cmds, just bump the numbers up */ 23226127Skarels #define TMS_CSE 10 /* clear serious exception */ 23326127Skarels #define TMS_LOWDENSITY 11 /* set unit to low density */ 23426127Skarels #define TMS_HIDENSITY 12 /* set unit to high density */ 23526135Skarels 23626127Skarels /* 23726127Skarels * Controller states 23826127Skarels */ 23926127Skarels #define S_IDLE 0 /* hasn't been initialized */ 24026127Skarels #define S_STEP1 1 /* doing step 1 init */ 24126127Skarels #define S_STEP2 2 /* doing step 2 init */ 24226127Skarels #define S_STEP3 3 /* doing step 3 init */ 24326127Skarels #define S_SCHAR 4 /* doing "set controller characteristics" */ 24426127Skarels #define S_RUN 5 /* running */ 24526135Skarels 24626127Skarels int tmscperror = 0; /* causes hex dump of packets */ 24726127Skarels int tmscp_cp_wait = 0; /* Something to wait on for command */ 24826127Skarels /* packets and or credits. */ 24926127Skarels int wakeup(); 25026127Skarels extern int hz; /* Should find the right include */ 25126135Skarels 25226127Skarels #ifdef DEBUG 25326127Skarels #define printd if (tmscpdebug) printf 25426127Skarels int tmscpdebug = 1; 25526127Skarels #define printd10 if(tmscpdebug >= 10) printf 25626127Skarels #endif 25726135Skarels 25826127Skarels int tmscpprobe(), tmscpslave(), tmscpattach(), tmscpintr(); 25926127Skarels struct mscp *tmscpgetcp(); 26026135Skarels 26126127Skarels #define DRVNAME "tms" 26226127Skarels #define CTRLNAME "tmscp" 26326135Skarels 26426127Skarels u_short tmscpstd[] = { 0174500, 0 }; 26526127Skarels struct uba_driver tmscpdriver = 26626127Skarels { tmscpprobe, tmscpslave, tmscpattach, 0, tmscpstd, DRVNAME, tmsdinfo, CTRLNAME 26726127Skarels , tmscpminfo, 0}; 26826135Skarels 26926127Skarels #define b_qsize b_resid /* queue size per drive, in tmsutab */ 27026127Skarels #define b_ubinfo b_resid /* Unibus mapping info, per buffer */ 27126135Skarels 27226135Skarels 27326127Skarels /*************************************************************************/ 27426135Skarels 27526127Skarels #define DELAYTEN 1000 27626135Skarels 27726127Skarels tmscpprobe(reg, ctlr) 27826127Skarels caddr_t reg; /* address of the IP register */ 27926135Skarels int ctlr; /* index of controller in the tmscp_softc array */ 28026127Skarels { 28126127Skarels register int br, cvec; /* MUST be 1st (r11 & r10): IPL and intr vec */ 28226127Skarels register struct tmscp_softc *sc = &tmscp_softc[ctlr]; 28326127Skarels /* ptr to software controller structure */ 28426135Skarels struct tmscpdevice *tmscpaddr; /* ptr to tmscpdevice struct (IP & SA) */ 28526127Skarels int count; /* for probe delay time out */ 28626135Skarels 28726127Skarels # ifdef lint 28826127Skarels br = 0; cvec = br; br = cvec; reg = reg; 28926127Skarels tmscpreset(0); tmscpintr(0); 29026127Skarels # endif 29126135Skarels 29226127Skarels tmscpaddr = (struct tmscpdevice *) reg; 29326127Skarels /* 29426127Skarels * Set host-settable interrupt vector. 29526135Skarels * Assign 0 to the ip register to start the tmscp-device initialization. 29626127Skarels * The device is not really initialized at this point, this is just to 29726127Skarels * find out if the device exists. 29826127Skarels */ 29926127Skarels sc->sc_ivec = (uba_hd[numuba].uh_lastiv -= 4); 30026127Skarels tmscpaddr->tmscpip = 0; 30126135Skarels 30226127Skarels count=0; 30326127Skarels while(count < DELAYTEN) 30426127Skarels { /* wait for at most 10 secs */ 30526127Skarels if((tmscpaddr->tmscpsa & TMSCP_STEP1) != 0) 30626127Skarels break; 30726127Skarels DELAY(10000); 30826127Skarels count=count+1; 30926127Skarels } 31026127Skarels if (count == DELAYTEN) 31126127Skarels return(0); 31226135Skarels 31326135Skarels tmscpaddr->tmscpsa = TMSCP_ERR|(NCMDL2<<11)|(NRSPL2<<8)|TMSCP_IE|(sc->sc_ivec/4); 31426135Skarels 31526127Skarels count=0; 31626127Skarels while(count < DELAYTEN) 31726127Skarels { 31826135Skarels if((tmscpaddr->tmscpsa & TMSCP_STEP2) != 0) 31926127Skarels break; 32026127Skarels DELAY(10000); 32126127Skarels count = count+1; 32226127Skarels } 32326127Skarels if (count == DELAYTEN) 32426127Skarels return(0); 32526135Skarels 326*35401Stef #ifdef QBA 327*35401Stef if (cpu == VAX_630 || cpu == VAX_650) 32834523Skarels br = 0x15; /* screwy interrupt structure */ 32934523Skarels #endif 33026127Skarels return(sizeof (struct tmscpdevice)); 33126127Skarels } 33226135Skarels 33326127Skarels /* 33426127Skarels * Try to find a slave (a drive) on the controller. 33526127Skarels * If the controller is not in the run state, call init to initialize it. 33626127Skarels */ 33726127Skarels tmscpslave (ui, reg) 33826127Skarels struct uba_device *ui; /* ptr to the uba device structure */ 33926127Skarels caddr_t reg; /* addr of the device controller */ 34026127Skarels { 34126127Skarels register struct uba_ctlr *um = tmscpminfo[ui->ui_ctlr]; 34226127Skarels register struct tmscp_softc *sc = &tmscp_softc[ui->ui_ctlr]; 34326135Skarels register struct tms_info *tms = &tms_info[ui->ui_unit]; 34426127Skarels struct tmscpdevice *tmscpaddr; /* ptr to IP & SA */ 34526127Skarels struct mscp *mp; 34626127Skarels int i; /* Something to write into to start */ 34726127Skarels /* the tmscp polling */ 34826135Skarels 34926127Skarels # ifdef lint 35026293Skarels reg = reg; 35126127Skarels # endif 35226127Skarels tmscpaddr = (struct tmscpdevice *)um->um_addr; 35326127Skarels /* 35426127Skarels * If its not in the run state, start the initialization process 35526127Skarels * (tmscpintr will complete it); if the initialization doesn't start; 35626127Skarels * then return. 35726127Skarels */ 35826127Skarels if(sc->sc_state != S_RUN) 35926127Skarels { 36026127Skarels # ifdef DEBUG 36126127Skarels printd("tmscpslave: ctlr not running: calling init \n"); 36226127Skarels # endif 36326127Skarels if(!tmscpinit(ui->ui_ctlr)) 36426127Skarels return(0); 36526127Skarels } 36626127Skarels /* 36726127Skarels * Wait for the controller to come into the run state or go idle. 36826127Skarels * If it goes idle return. 36926127Skarels */ 37026127Skarels # ifdef DEBUG 37126127Skarels i=1; 37226127Skarels # endif 37326127Skarels while(sc->sc_state != S_RUN && sc->sc_state != S_IDLE) 37426127Skarels # ifdef DEBUG 37526127Skarels if (tmscpaddr->tmscpsa & TMSCP_ERR && i) 37626127Skarels { 37726135Skarels printd("tmscp-device: fatal error (%o)\n", tmscpaddr->tmscpsa&0xffff); 37826127Skarels i=0; 37926127Skarels } 38026127Skarels # endif 38126127Skarels ; /* wait */ 38226127Skarels if(sc->sc_state == S_IDLE) 38326127Skarels { /* The tmscp device failed to initialize */ 38426127Skarels printf("tmscp controller failed to init\n"); 38526127Skarels return(0); 38626127Skarels } 38726127Skarels /* The controller is up so see if the drive is there */ 38826127Skarels if(0 == (mp = tmscpgetcp(um))) 38926127Skarels { 39026127Skarels printf("tmscp can't get command packet\n"); 39126127Skarels return(0); 39226127Skarels } 39326127Skarels /* Need to determine the drive type for generic driver */ 39426135Skarels mp->mscp_opcode = M_OP_GTUNT; /* This should give us the device type */ 39526127Skarels mp->mscp_unit = ui->ui_slave; 39626127Skarels mp->mscp_cmdref = (long) ui->ui_slave; 39726135Skarels tms->tms_status = 0; /* set to zero */ 39826127Skarels tmscpip[ui->ui_ctlr][ui->ui_slave] = ui; 39926135Skarels *((long *) mp->mscp_dscptr ) |= TMSCP_OWN | TMSCP_INT;/* maybe we should poll*/ 40026127Skarels i = tmscpaddr->tmscpip; 40126293Skarels #ifdef lint 40226293Skarels i = i; 40326293Skarels #endif 40426135Skarels while(!tms->tms_status) 40526127Skarels ; /* Wait for some status */ 40626127Skarels # ifdef DEBUG 40726135Skarels printd("tmscpslave: status = %o\n",tms->tms_status & M_ST_MASK); 40826135Skarels # endif 40926127Skarels tmscpip[ui->ui_ctlr][ui->ui_slave] = 0; 41026135Skarels if(!tms->tms_type) /* packet from a GTUNT */ 41126127Skarels return(0); /* Failed No such drive */ 41226127Skarels else 41326127Skarels return(1); /* Got it and it is there */ 41426127Skarels } 41526135Skarels 41626135Skarels 41726127Skarels /* 41826127Skarels * Set ui flags to zero to show device is not online & set tmscpip. 41926127Skarels * Unit to Controller mapping is set up here. 42026127Skarels * Open routine will issue the online command, later. 42126127Skarels */ 42226127Skarels tmscpattach (ui) 42326127Skarels register struct uba_device *ui; /* ptr to unibus dev struct */ 42426127Skarels { 42526135Skarels 42626127Skarels ui->ui_flags = 0; 42726127Skarels tmscpip[ui->ui_ctlr][ui->ui_slave] = ui; 42826127Skarels # ifdef DEBUG 42926127Skarels /* 43026127Skarels * Check to see if the drive is available. 43126127Skarels * If not then just print debug. 43226127Skarels */ 43326127Skarels if(tms_info[ui->ui_unit].tms_status != M_ST_AVLBL) 43426127Skarels printd("tmscpattach: unavailable \n"); 43526127Skarels # endif 43626127Skarels utoctlr[ui->ui_unit] = ui->ui_ctlr; 43726127Skarels } 43826135Skarels 43926135Skarels 44026127Skarels /* 44126127Skarels * TMSCP interrupt routine. 44226127Skarels */ 44326127Skarels tmscpintr (d) 44426127Skarels int d; /* index to the controller */ 44526127Skarels { 44626127Skarels register struct uba_ctlr *um = tmscpminfo[d]; 44726135Skarels register struct tmscpdevice *tmscpaddr = (struct tmscpdevice *)um->um_addr; 44826127Skarels struct buf *bp; 44926127Skarels register int i; 45026127Skarels register struct tmscp_softc *sc = &tmscp_softc[d]; 45126127Skarels register struct tmscp *tm = &tmscp[d]; 45226127Skarels struct tmscp *ttm; 45326127Skarels struct mscp *mp; 45426135Skarels 45526127Skarels # ifdef DEBUG 45626135Skarels printd10("tmscpintr: state %d, tmscpsa %o\n", sc->sc_state, tmscpaddr->tmscpsa); 45726127Skarels # endif 45826135Skarels 45926127Skarels /* 46026127Skarels * How the interrupt is handled depends on the state of the controller. 46126127Skarels */ 46226127Skarels switch (sc->sc_state) { 46326135Skarels 46426127Skarels case S_IDLE: 46526127Skarels printf("tmscp%d: random interrupt ignored\n", d); 46626127Skarels return; 46726135Skarels 46826127Skarels /* Controller was in step 1 last, see if its gone to step 2 */ 46926127Skarels case S_STEP1: 47026127Skarels # define STEP1MASK 0174377 47126127Skarels # define STEP1GOOD (TMSCP_STEP2|TMSCP_IE|(NCMDL2<<3)|NRSPL2) 47226127Skarels for (i = 0; i < 150; i++) 47326127Skarels { 47426127Skarels if ((tmscpaddr->tmscpsa&STEP1MASK) != STEP1GOOD) 47526127Skarels { /* still in step 1 (wait 1/100 sec) */ 47626127Skarels DELAY(10000); 47726127Skarels # ifdef DEBUG 47826127Skarels printd("still in step 1, delaying\n"); 47926127Skarels # endif DEBUG 48026127Skarels } 48126127Skarels else 48226127Skarels break; 48326127Skarels } 48426127Skarels if (i > 149) 48526127Skarels { 48626127Skarels sc->sc_state = S_IDLE; 48726135Skarels printf("failed to initialize, in step1: sa 0x%x", tmscpaddr->tmscpsa); 48826127Skarels wakeup((caddr_t)um); 48926127Skarels return; 49026127Skarels } 49126127Skarels tmscpaddr->tmscpsa = ((int)&sc->sc_tmscp->tmscp_ca.ca_ringbase) 49226127Skarels | ((cpu == VAX_780 || cpu == VAX_8600) ? TMSCP_PI : 0); 49326127Skarels sc->sc_state = S_STEP2; 49426127Skarels return; 49526135Skarels 49626127Skarels /* Controller was in step 2 last, see if its gone to step 3 */ 49726127Skarels case S_STEP2: 49826127Skarels # define STEP2MASK 0174377 49926127Skarels # define STEP2GOOD (TMSCP_STEP3|TMSCP_IE|(sc->sc_ivec/4)) 50026127Skarels for (i = 0; i < 150; i++) 50126127Skarels { 50226127Skarels if ((tmscpaddr->tmscpsa&STEP2MASK) != STEP2GOOD) 50326127Skarels { /* still in step 2 (wait 1/100 sec) */ 50426127Skarels DELAY(10000); 50526127Skarels # ifdef DEBUG 50626127Skarels printd("still in step 2, delaying\n"); 50726127Skarels # endif DEBUG 50826127Skarels } 50926127Skarels else 51026127Skarels break; 51126127Skarels } 51226127Skarels if (i > 149) 51326127Skarels { 51426127Skarels sc->sc_state = S_IDLE; 51526135Skarels printf("failed to initialize, in step2: sa 0x%x", tmscpaddr->tmscpsa); 51626127Skarels wakeup((caddr_t)um); 51726127Skarels return; 51826127Skarels } 51926135Skarels tmscpaddr->tmscpsa = ((int)&sc->sc_tmscp->tmscp_ca.ca_ringbase)>>16; 52026127Skarels sc->sc_state = S_STEP3; 52126127Skarels return; 52226135Skarels 52326127Skarels /* Controller was in step 3 last, see if its gone to step 4 */ 52426127Skarels case S_STEP3: 52526127Skarels # define STEP3MASK 0174000 52626127Skarels # define STEP3GOOD TMSCP_STEP4 52726127Skarels for (i = 0; i < 150; i++) 52826127Skarels { 52926127Skarels if ((tmscpaddr->tmscpsa&STEP3MASK) != STEP3GOOD) 53026127Skarels { /* still in step 3 (wait 1/100 sec) */ 53126127Skarels DELAY(10000); 53226127Skarels # ifdef DEBUG 53326127Skarels printd("still in step 3, delaying\n"); 53426127Skarels # endif DEBUG 53526127Skarels } 53626127Skarels else 53726127Skarels break; 53826127Skarels } 53926127Skarels if (i > 149) 54026127Skarels { 54126127Skarels sc->sc_state = S_IDLE; 54226135Skarels printf("failed to initialize, in step3: sa 0x%x", tmscpaddr->tmscpsa); 54326127Skarels wakeup((caddr_t)um); 54426127Skarels return; 54526127Skarels } 54626127Skarels /* 54726127Skarels * Get microcode version and model number of controller; 54826127Skarels * Signal initialization complete (_GO) (to the controller); 54926127Skarels * ask for Last Fail response if tmscperror is set; 55026127Skarels * Set state to "set controller characteristics". 55126127Skarels */ 55226127Skarels tmscpmicro[d] = tmscpaddr->tmscpsa; 55326127Skarels tmscpaddr->tmscpsa = TMSCP_GO | (tmscperror? TMSCP_LF : 0); 55426127Skarels sc->sc_state = S_SCHAR; 55526127Skarels # ifdef DEBUG 55626127Skarels printd("tmscpintr: completed state %d \n", sc->sc_state); 55726127Skarels printd("tmscp%d Version %d model %d\n",d,tmscpmicro[d]&0xF, 55826127Skarels (tmscpmicro[d]>>4) & 0xF); 55926127Skarels # endif 56026135Skarels 56126127Skarels /* 56226127Skarels * Initialize the data structures (response and command queues). 56326127Skarels */ 56426127Skarels ttm = sc->sc_tmscp; 56526127Skarels for (i = 0; i < NRSP; i++) 56626127Skarels { 56726127Skarels tm->tmscp_ca.ca_rspdsc[i] = TMSCP_OWN | TMSCP_INT | 56826135Skarels (long)&ttm->tmscp_rsp[i].mscp_cmdref; 56926127Skarels tm->tmscp_rsp[i].mscp_dscptr = &tm->tmscp_ca.ca_rspdsc[i]; 57026127Skarels tm->tmscp_rsp[i].mscp_header.tmscp_msglen = mscp_msglen; 57126127Skarels } 57226127Skarels for (i = 0; i < NCMD; i++) 57326127Skarels { 57426127Skarels tm->tmscp_ca.ca_cmddsc[i] = TMSCP_INT | 57526127Skarels (long)&ttm->tmscp_cmd[i].mscp_cmdref; 57626127Skarels tm->tmscp_cmd[i].mscp_dscptr = &tm->tmscp_ca.ca_cmddsc[i]; 57726127Skarels tm->tmscp_cmd[i].mscp_header.tmscp_msglen = mscp_msglen; 57826127Skarels tm->tmscp_cmd[i].mscp_header.tmscp_vcid = 1; 57926127Skarels } 58026127Skarels bp = &tmscpwtab[d]; 58126127Skarels bp->av_forw = bp->av_back = bp; 58226127Skarels sc->sc_lastcmd = 1; 58326127Skarels sc->sc_lastrsp = 0; 58426127Skarels mp = &tmscp[um->um_ctlr].tmscp_cmd[0]; 58526127Skarels mp->mscp_unit = mp->mscp_modifier = 0; 58626127Skarels mp->mscp_flags = 0; 58726127Skarels mp->mscp_version = 0; 58826127Skarels mp->mscp_cntflgs = M_CF_ATTN|M_CF_MISC|M_CF_THIS; 58926127Skarels /* 59026127Skarels * A host time out value of 0 means that the controller will not 59126127Skarels * time out. This is ok for the TK50. 59226127Skarels */ 59326127Skarels mp->mscp_hsttmo = 0; 59426127Skarels mp->mscp_time.val[0] = 0; 59526127Skarels mp->mscp_time.val[1] = 0; 59626127Skarels mp->mscp_cntdep = 0; 59726127Skarels mp->mscp_opcode = M_OP_STCON; 59826127Skarels *((long *)mp->mscp_dscptr) |= TMSCP_OWN|TMSCP_INT; 59926127Skarels i = tmscpaddr->tmscpip; /* initiate polling */ 60026127Skarels return; 60126135Skarels 60226127Skarels case S_SCHAR: 60326127Skarels case S_RUN: 60426127Skarels break; 60526135Skarels 60626127Skarels default: 60726135Skarels printf("tmscp%d: interrupt in unknown state %d ignored\n",d,sc->sc_state); 60826127Skarels return; 60926127Skarels } /* end switch */ 61026135Skarels 61126127Skarels /* 61226127Skarels * The controller state is S_SCHAR or S_RUN 61326127Skarels */ 61426135Skarels 61526127Skarels /* 61626127Skarels * If the error bit is set in the SA register then print an error 61726127Skarels * message and reinitialize the controller. 61826127Skarels */ 61926127Skarels if (tmscpaddr->tmscpsa&TMSCP_ERR) 62026127Skarels { 62126135Skarels printf("tmscp%d: fatal error (%o)\n", d, tmscpaddr->tmscpsa&0xffff); 62226127Skarels tmscpaddr->tmscpip = 0; 62326127Skarels wakeup((caddr_t)um); 62426127Skarels } 62526127Skarels /* 62626127Skarels * Check for a buffer purge request. (Won't happen w/ TK50 on Q22 bus) 62726127Skarels */ 62826127Skarels if (tm->tmscp_ca.ca_bdp) 62926127Skarels { 63026370Skarels UBAPURGE(um->um_hd->uh_uba, tm->tmscp_ca.ca_bdp); 63126127Skarels tm->tmscp_ca.ca_bdp = 0; 63226127Skarels tmscpaddr->tmscpsa = 0; /* signal purge complete */ 63326127Skarels } 63426135Skarels 63526127Skarels /* 63626127Skarels * Check for response ring transition. 63726127Skarels */ 63826127Skarels if (tm->tmscp_ca.ca_rspint) 63926127Skarels { 64026127Skarels tm->tmscp_ca.ca_rspint = 0; 64126127Skarels for (i = sc->sc_lastrsp;; i++) 64226127Skarels { 64326127Skarels i %= NRSP; 64426127Skarels if (tm->tmscp_ca.ca_rspdsc[i]&TMSCP_OWN) 64526127Skarels break; 64626127Skarels tmscprsp(um, tm, sc, i); 64726127Skarels tm->tmscp_ca.ca_rspdsc[i] |= TMSCP_OWN; 64826127Skarels } 64926127Skarels sc->sc_lastrsp = i; 65026127Skarels } 65126135Skarels 65226127Skarels /* 65326127Skarels * Check for command ring transition. 65426127Skarels */ 65526127Skarels if (tm->tmscp_ca.ca_cmdint) 65626127Skarels { 65726127Skarels # ifdef DEBUG 65826127Skarels printd("tmscpintr: command ring transition\n"); 65926127Skarels # endif 66026127Skarels tm->tmscp_ca.ca_cmdint = 0; 66126127Skarels } 66226127Skarels if(tmscp_cp_wait) 66326370Skarels wakeup((caddr_t)&tmscp_cp_wait); 66426127Skarels (void) tmscpstart(um); 66526127Skarels } 66626135Skarels 66726135Skarels 66826127Skarels /* 66926127Skarels * Open a tmscp device and set the unit online. If the controller is not 67026127Skarels * in the run state, call init to initialize the tmscp controller first. 67126127Skarels */ 67226135Skarels 67326293Skarels /* ARGSUSED */ 67426127Skarels tmscpopen(dev, flag) 67526127Skarels dev_t dev; 67626127Skarels int flag; 67726127Skarels { 67826127Skarels register int unit; 67926127Skarels register struct uba_device *ui; 68026127Skarels register struct tmscp_softc *sc; 68126135Skarels register struct tms_info *tms; 68226127Skarels register struct mscp *mp; 68326127Skarels register struct uba_ctlr *um; 68426127Skarels struct tmscpdevice *tmscpaddr; 68526127Skarels int s,i; 68626127Skarels 68726127Skarels unit = TMSUNIT(dev); 68826127Skarels # ifdef DEBUG 68926127Skarels printd("tmscpopen unit %d\n",unit); 69026127Skarels if(tmscpdebug)DELAY(10000); 69126127Skarels # endif 69226135Skarels if (unit >= NTMS || (ui = tmsdinfo[unit]) == 0 || ui->ui_alive == 0) 69326127Skarels return (ENXIO); 69426135Skarels tms = &tms_info[ui->ui_unit]; 69526135Skarels if (tms->tms_openf) 69626135Skarels return (EBUSY); 69726127Skarels sc = &tmscp_softc[ui->ui_ctlr]; 69826135Skarels tms->tms_openf = 1; 69926135Skarels tms->tms_ttyp = u.u_ttyp; 70026127Skarels s = spl5(); 70126127Skarels if (sc->sc_state != S_RUN) 70226127Skarels { 70326127Skarels if (sc->sc_state == S_IDLE) 70426127Skarels if(!tmscpinit(ui->ui_ctlr)) 70526127Skarels { 70626127Skarels printf("tmscp controller failed to init\n"); 70726127Skarels (void) splx(s); 70830917Skarels tms->tms_openf = 0; 70926127Skarels return(ENXIO); 71026127Skarels } 71126127Skarels /* 71226127Skarels * Wait for initialization to complete 71326127Skarels */ 71426127Skarels timeout(wakeup,(caddr_t)ui->ui_mi,11*hz); /* to be sure*/ 71526127Skarels sleep((caddr_t)ui->ui_mi, 0); 71626127Skarels if (sc->sc_state != S_RUN) 71726127Skarels { 71826127Skarels (void) splx(s); 71926135Skarels tms->tms_openf = 0; 72026127Skarels return (EIO); 72126127Skarels } 72226127Skarels } 72326127Skarels /* 72426127Skarels * Check to see if the device is really there. 72526127Skarels * this code was taken from Fred Canters 11 driver 72626127Skarels */ 72726127Skarels um = ui->ui_mi; 72826127Skarels tmscpaddr = (struct tmscpdevice *) um->um_addr; 72926127Skarels (void) splx(s); 73026127Skarels if(ui->ui_flags == 0) 73126127Skarels { 73226127Skarels s = spl5(); 73326127Skarels while(0 ==(mp = tmscpgetcp(um))) 73426127Skarels { 73526127Skarels tmscp_cp_wait++; 73626370Skarels sleep((caddr_t)&tmscp_cp_wait,PSWP+1); 73726127Skarels tmscp_cp_wait--; 73826127Skarels } 73926127Skarels (void) splx(s); 74026127Skarels mp->mscp_opcode = M_OP_ONLIN; 74126127Skarels mp->mscp_unit = ui->ui_slave; 74226135Skarels mp->mscp_cmdref = (long) & tms->tms_type; 74326127Skarels /* need to sleep on something */ 74426127Skarels # ifdef DEBUG 74526127Skarels printd("tmscpopen: bring unit %d online\n",ui->ui_unit); 74626127Skarels # endif 74726127Skarels *((long *) mp->mscp_dscptr ) |= TMSCP_OWN | TMSCP_INT; 74826127Skarels i = tmscpaddr->tmscpip; 74926293Skarels #ifdef lint 75026293Skarels i = i; 75126293Skarels #endif 75226127Skarels /* 75326127Skarels * To make sure we wake up, timeout in 240 seconds. 75426127Skarels * Wakeup in tmscprsp routine. 75526127Skarels * 240 seconds (4 minutes) is necessary since a rewind 75626127Skarels * can take a few minutes. 75726127Skarels */ 75826127Skarels timeout(wakeup,(caddr_t) mp->mscp_cmdref,240 * hz); 75926127Skarels sleep((caddr_t) mp->mscp_cmdref,PSWP+1); 76026127Skarels } 76126135Skarels if(ui->ui_flags == 0) { 76226135Skarels tms->tms_openf = 0; 76326127Skarels return(ENXIO); /* Didn't go online */ 76426135Skarels } 76526135Skarels tms->tms_lastiow = 0; 76626127Skarels /* 76726127Skarels * If the high density device is not specified, set unit to low 76826127Skarels * density. This is done as an "internal" ioctl command so 76926127Skarels * that the command setup and response handling 77026127Skarels * is done thru "regular" command routines. 77126127Skarels */ 77226127Skarels if ((minor(dev) & T_HIDENSITY) == 0) 77326127Skarels tmscpcommand(dev, TMS_LOWDENSITY, 1); 77426127Skarels else 77526127Skarels tmscpcommand(dev, TMS_HIDENSITY, 1); 77626127Skarels return (0); 77726127Skarels } 77826135Skarels 77926135Skarels 78026127Skarels /* 78126127Skarels * Close tape device. 78226127Skarels * 78326127Skarels * If tape was open for writing or last operation was 78426127Skarels * a write, then write two EOF's and backspace over the last one. 78526127Skarels * Unless this is a non-rewinding special file, rewind the tape. 78626127Skarels * 78726127Skarels * NOTE: 78826127Skarels * We want to be sure that any serious exception is cleared on the 78926127Skarels * close. A Clear Serious Exception (CSE) modifier is always done on 79026127Skarels * the rewind command. For the non-rewind case we check to see if the 79126127Skarels * "serex" field is set in the softc struct; if it is then issue a noop 79226127Skarels * command with the CSE modifier. 79326127Skarels * Make the tape available to others, by clearing openf flag. 79426127Skarels */ 79526127Skarels tmscpclose(dev, flag) 79626127Skarels register dev_t dev; 79726127Skarels register flag; 79826127Skarels { 79926135Skarels register struct tms_info *tms; 80026127Skarels register struct uba_device *ui; 80126135Skarels 80226127Skarels ui = tmsdinfo[TMSUNIT(dev)]; 80326127Skarels # ifdef DEBUG 80426127Skarels printd("tmscpclose: ctlr = %d\n",TMSCPCTLR(dev)); 80526127Skarels printd("tmscpclose: unit = %d\n",TMSUNIT(dev)); 80626127Skarels if(tmscpdebug)DELAY(10000); 80726127Skarels # endif 80826135Skarels tms = &tms_info[ui->ui_unit]; 80926135Skarels if (flag == FWRITE || (flag&FWRITE) && tms->tms_lastiow) 81026127Skarels { 81126127Skarels /* device, command, count */ 81226127Skarels tmscpcommand (dev, TMS_WRITM, 1); 81326127Skarels tmscpcommand (dev, TMS_WRITM, 1); 81426127Skarels tmscpcommand (dev, TMS_BSR, 1); 81526127Skarels } 81626127Skarels if ((minor(dev)&T_NOREWIND) == 0) 81726127Skarels /* 81826127Skarels * Don't hang waiting for rewind complete. 81926127Skarels */ 82026127Skarels tmscpcommand(dev, TMS_REW, 0); 82126127Skarels else 82226135Skarels if (tms->tms_serex) 82326127Skarels { 82426127Skarels # ifdef DEBUG 82526127Skarels printd("tmscpclose: clearing serex\n"); 82626127Skarels if(tmscpdebug)DELAY(10000); 82726127Skarels # endif 82826127Skarels tmscpcommand(dev, TMS_CSE, 1); 82926127Skarels } 83026135Skarels tms->tms_openf = 0; 83126127Skarels } 83226135Skarels 83326135Skarels 83426127Skarels /* 83526127Skarels * Execute a command on the tape drive a specified number of times. 83626127Skarels * This routine sets up a buffer and calls the strategy routine which 83726127Skarels * links the buffer onto the drive's buffer queue. 83826127Skarels * The start routine will take care of creating a tmscp command packet 83926127Skarels * with the command. The start routine is called by the strategy or the 84026127Skarels * interrupt routine. 84126127Skarels */ 84226135Skarels 84326127Skarels tmscpcommand (dev, com, count) 84426127Skarels register dev_t dev; 84526127Skarels int com, count; 84626127Skarels { 84726127Skarels register struct uba_device *ui; 84826127Skarels register struct buf *bp; 84926127Skarels register int s; 85026127Skarels int unit = TMSUNIT(dev); 85126135Skarels 85226127Skarels ui = tmsdinfo[unit]; 85326127Skarels bp = &ctmscpbuf[ui->ui_ctlr]; 85426135Skarels 85526127Skarels s = spl5(); 85626127Skarels while (bp->b_flags&B_BUSY) 85726127Skarels { 85826127Skarels /* 85926127Skarels * This special check is because B_BUSY never 86026127Skarels * gets cleared in the non-waiting rewind case. 86126127Skarels */ 86226127Skarels if (bp->b_bcount == 0 && (bp->b_flags&B_DONE)) 86326127Skarels break; 86426127Skarels bp->b_flags |= B_WANTED; 86526127Skarels sleep((caddr_t)bp, PRIBIO); 86626127Skarels } 86726127Skarels bp->b_flags = B_BUSY|B_READ; 86826127Skarels splx(s); 86926127Skarels /* 87026127Skarels * Load the buffer. The b_count field gets used to hold the command 87126127Skarels * count. the b_resid field gets used to hold the command mneumonic. 87226127Skarels * These 2 fields are "known" to be "safe" to use for this purpose. 87326127Skarels * (Most other drivers also use these fields in this way.) 87426127Skarels */ 87526127Skarels bp->b_dev = dev; 87626127Skarels bp->b_bcount = count; 87726127Skarels bp->b_resid = com; 87826127Skarels bp->b_blkno = 0; 87926127Skarels tmscpstrategy(bp); 88026127Skarels /* 88126127Skarels * In case of rewind from close, don't wait. 88226127Skarels * This is the only case where count can be 0. 88326127Skarels */ 88426127Skarels if (count == 0) 88526127Skarels return; 88626127Skarels iowait(bp); 88726127Skarels if (bp->b_flags&B_WANTED) 88826127Skarels wakeup((caddr_t)bp); 88926127Skarels bp->b_flags &= B_ERROR; 89026127Skarels } 89126135Skarels 89226127Skarels /* 89326127Skarels * Find an unused command packet 89426127Skarels */ 89526127Skarels struct mscp * 89626127Skarels tmscpgetcp(um) 89726127Skarels struct uba_ctlr *um; 89826127Skarels { 89926127Skarels register struct mscp *mp; 90026127Skarels register struct tmscpca *cp; 90126127Skarels register struct tmscp_softc *sc; 90226127Skarels register int i; 90326127Skarels int s; 90426135Skarels 90526127Skarels s = spl5(); 90626127Skarels cp = &tmscp[um->um_ctlr].tmscp_ca; 90726127Skarels sc = &tmscp_softc[um->um_ctlr]; 90826127Skarels /* 90926127Skarels * If no credits, can't issue any commands 91026127Skarels * until some outstanding commands complete. 91126127Skarels */ 91226127Skarels i = sc->sc_lastcmd; 91326127Skarels # ifdef DEBUG 91426127Skarels printd10("tmscpgetcp: %d credits remain\n", sc->sc_credits); 91526127Skarels # endif 91626127Skarels if(((cp->ca_cmddsc[i]&(TMSCP_OWN|TMSCP_INT))==TMSCP_INT) && 91726127Skarels (sc->sc_credits >= 2)) 91826127Skarels { 91926127Skarels sc->sc_credits--; /* This commits to issuing a command */ 92026127Skarels cp->ca_cmddsc[i] &= ~TMSCP_INT; 92126127Skarels mp = &tmscp[um->um_ctlr].tmscp_cmd[i]; 92226127Skarels mp->mscp_unit = mp->mscp_modifier = 0; 92326127Skarels mp->mscp_opcode = mp->mscp_flags = 0; 92426127Skarels mp->mscp_bytecnt = mp->mscp_buffer = 0; 92526127Skarels sc->sc_lastcmd = (i + 1) % NCMD; 92626127Skarels (void) splx(s); 92726127Skarels return(mp); 92826127Skarels } 92926127Skarels (void) splx(s); 93026127Skarels return(NULL); 93126127Skarels } 93226135Skarels 93326135Skarels 93426127Skarels /* 93526127Skarels * Initialize a TMSCP device. Set up UBA mapping registers, 93626127Skarels * initialize data structures, and start hardware 93726127Skarels * initialization sequence. 93826127Skarels */ 93926127Skarels tmscpinit (d) 94026127Skarels int d; /* index to the controller */ 94126127Skarels { 94226127Skarels register struct tmscp_softc *sc; 94326135Skarels register struct tmscp *t; /* communications area; cmd & resp packets */ 94426127Skarels struct tmscpdevice *tmscpaddr; 94526127Skarels struct uba_ctlr *um; 94626135Skarels 94726127Skarels sc = &tmscp_softc[d]; 94826127Skarels um = tmscpminfo[d]; 94926127Skarels um->um_tab.b_active++; 95026127Skarels t = &tmscp[d]; 95126127Skarels tmscpaddr = (struct tmscpdevice *)um->um_addr; 95226127Skarels if (sc->sc_mapped == 0) 95326127Skarels { 95426127Skarels /* 95526127Skarels * Map the communications area and command 95626127Skarels * and response packets into Unibus address 95726127Skarels * space. 95826127Skarels */ 95926135Skarels sc->sc_ubainfo = uballoc(um->um_ubanum, (caddr_t)t, sizeof (struct tmscp), 0); 96026127Skarels # ifdef MVAX 96126127Skarels if (cpu == MVAX_I) 96226135Skarels sc->sc_tmscp = (struct tmscp *)(sc->sc_ubainfo & 0x3fffff); 96326127Skarels else 96426127Skarels # endif MVAX 96526135Skarels sc->sc_tmscp = (struct tmscp *)(sc->sc_ubainfo & 0x3ffff); 96626127Skarels sc->sc_mapped = 1; 96726127Skarels } 96826135Skarels 96926127Skarels /* 97026127Skarels * Start the hardware initialization sequence. 97126127Skarels */ 97226127Skarels tmscpaddr->tmscpip = 0; /* start initialization */ 97326135Skarels 97426127Skarels while((tmscpaddr->tmscpsa & TMSCP_STEP1) == 0) 97526127Skarels { 97626127Skarels # ifdef DEBUG 97726127Skarels printd("tmscpinit: tmscpsa = 0%o\n",tmscpaddr->tmscpsa); 97826127Skarels DELAY(100000); 97926127Skarels # endif 98026127Skarels if(tmscpaddr->tmscpsa & TMSCP_ERR) 98126127Skarels return(0); /* CHECK */ 98226127Skarels } 98326135Skarels tmscpaddr->tmscpsa=TMSCP_ERR|(NCMDL2<<11)|(NRSPL2<<8)|TMSCP_IE|(sc->sc_ivec/4); 98426127Skarels /* 98526127Skarels * Initialization continues in the interrupt routine. 98626127Skarels */ 98726127Skarels sc->sc_state = S_STEP1; 98826127Skarels sc->sc_credits = 0; 98926127Skarels return(1); 99026127Skarels } 99126135Skarels 99226135Skarels 99326127Skarels /* 99426127Skarels * Start I/O operation 99526127Skarels * This code is convoluted. The majority of it was copied from the uda driver. 99626127Skarels */ 99726135Skarels 99826127Skarels tmscpstart(um) 99926127Skarels register struct uba_ctlr *um; 100026127Skarels { 100126127Skarels register struct buf *bp, *dp; 100226127Skarels register struct mscp *mp; 100326127Skarels register struct tmscp_softc *sc; 100426135Skarels register struct tms_info *tms; 100526127Skarels register struct uba_device *ui; 100626127Skarels struct tmscpdevice *tmscpaddr; 100726127Skarels struct tmscp *tm = &tmscp[um->um_ctlr]; 100826127Skarels int i,tempi; 100926127Skarels char ioctl; /* flag: set true if its an IOCTL command */ 101026135Skarels 101126127Skarels sc = &tmscp_softc[um->um_ctlr]; 101226127Skarels 101326127Skarels for(;;) 101426127Skarels { 101526127Skarels if ((dp = um->um_tab.b_actf) == NULL) 101626127Skarels { 101726127Skarels /* 101826127Skarels * Release unneeded UBA resources and return 101926127Skarels * (drive was inactive) 102026127Skarels */ 102126127Skarels um->um_tab.b_active = 0; 102226127Skarels break; 102326127Skarels } 102426127Skarels if ((bp = dp->b_actf) == NULL) 102526127Skarels { 102626127Skarels /* 102726127Skarels * No more requests for this drive, remove 102826127Skarels * from controller queue and look at next drive. 102926127Skarels * We know we're at the head of the controller queue. 103026127Skarels */ 103126127Skarels dp->b_active = 0; 103226127Skarels um->um_tab.b_actf = dp->b_forw; 103326127Skarels continue; /* Need to check for loop */ 103426127Skarels } 103526127Skarels um->um_tab.b_active++; 103626127Skarels tmscpaddr = (struct tmscpdevice *)um->um_addr; 103726135Skarels ui = tmsdinfo[(TMSUNIT(bp->b_dev))]; 103826135Skarels tms = &tms_info[ui->ui_unit]; 103926127Skarels if ((tmscpaddr->tmscpsa&TMSCP_ERR) || sc->sc_state != S_RUN) 104026127Skarels { 104126135Skarels tprintf(tms->tms_ttyp, 104226135Skarels "tms%d: hard error bn%d\n", 104326135Skarels minor(bp->b_dev)&03, bp->b_blkno); 104426135Skarels log(TMS_PRI, "tmscp%d: sa 0%o, state %d\n",um->um_ctlr, 104526127Skarels tmscpaddr->tmscpsa&0xffff, sc->sc_state); 104626370Skarels (void)tmscpinit(um->um_ctlr); 104726127Skarels /* SHOULD REQUEUE OUTSTANDING REQUESTS, LIKE TMSCPRESET */ 104826127Skarels break; 104926127Skarels } 105026127Skarels /* 105126127Skarels * Default is that last command was NOT a write command; 105226127Skarels * if a write command is done it will be detected in tmscprsp. 105326127Skarels */ 105426135Skarels tms->tms_lastiow = 0; 105526127Skarels if (ui->ui_flags == 0) 105626127Skarels { /* not online */ 105726127Skarels if ((mp = tmscpgetcp(um)) == NULL) 105826127Skarels break; 105926127Skarels mp->mscp_opcode = M_OP_ONLIN; 106026127Skarels mp->mscp_unit = ui->ui_slave; 106126127Skarels dp->b_active = 2; 106226127Skarels um->um_tab.b_actf = dp->b_forw; /* remove from controller q */ 106326127Skarels *((long *)mp->mscp_dscptr) |= TMSCP_OWN|TMSCP_INT; 106426127Skarels if (tmscpaddr->tmscpsa&TMSCP_ERR) 106526127Skarels printf("tmscp%d fatal error (0%o)\n",um->um_ctlr, 106626127Skarels tmscpaddr->tmscpsa&0xffff); 106726127Skarels i = tmscpaddr->tmscpip; 106826127Skarels continue; 106926127Skarels } 107026127Skarels switch (cpu) { 107126135Skarels 107226127Skarels case VAX_8600: 107326127Skarels case VAX_780: 107426127Skarels i = UBA_NEEDBDP|UBA_CANTWAIT; 107526127Skarels break; 107626127Skarels case VAX_750: 107726127Skarels i = um->um_ubinfo|UBA_HAVEBDP|UBA_CANTWAIT; 107826127Skarels break; 107926127Skarels case VAX_730: 108026127Skarels i = UBA_CANTWAIT; 108126127Skarels break; 108226127Skarels } /* end switch (cpu) */ 108326127Skarels /* 108426135Skarels * If command is an ioctl command then set the ioctl flag for later use. 108526127Skarels * If not (i.e. it is a read or write) then attempt 108626127Skarels * to set up a buffer pointer. 108726127Skarels */ 108826127Skarels ioctl = 0; 108926127Skarels if (bp == &ctmscpbuf[um->um_ctlr]) 109026127Skarels ioctl = 1; 109126127Skarels else 109226127Skarels if ((i = ubasetup(um->um_ubanum, bp, i)) == 0) 109326127Skarels { 109426127Skarels if(dp->b_qsize != 0) 109526127Skarels break; /* When a command completes and */ 109626135Skarels /* frees a bdp tmscpstart will be called */ 109726127Skarels if ((mp = tmscpgetcp(um)) == NULL) 109826127Skarels break; 109926127Skarels # ifdef DEBUG 110026135Skarels printd("tmscpstart: GTUNT %d ubasetup = %d\n",ui->ui_unit, i); 110126127Skarels if(tmscpdebug)DELAY(10000); 110226127Skarels # endif 110326127Skarels mp->mscp_opcode = M_OP_GTUNT; 110426127Skarels mp->mscp_unit = ui->ui_slave; 110526127Skarels *((long *)mp->mscp_dscptr) |= TMSCP_OWN|TMSCP_INT; 110626127Skarels if (tmscpaddr->tmscpsa&TMSCP_ERR) 110726135Skarels printf("tmscp%d: fatal error (0%o)\n",um->um_ctlr, 110826127Skarels tmscpaddr->tmscpsa&0xffff); 110926127Skarels i = tmscpaddr->tmscpip; /* initiate polling */ 111026127Skarels break; 111126127Skarels } 111226135Skarels # if defined(VAX750) 111326135Skarels if (cpu == VAX_750) 111426127Skarels tempi = i & 0xfffffff; /* mask off bdp */ 111526127Skarels else 111626127Skarels # endif 111726127Skarels tempi = i; 111826127Skarels if ((mp = tmscpgetcp(um)) == NULL) 111926127Skarels { 112026127Skarels if (!ioctl) /* only need to release if NOT ioctl */ 112126127Skarels ubarelse(um->um_ubanum,&tempi); 112226127Skarels break; 112326127Skarels } 112426127Skarels mp->mscp_cmdref = (long)bp; /* pointer to get back */ 112526127Skarels mp->mscp_unit = ui->ui_slave; 112626127Skarels /* 112726127Skarels * If its an ioctl-type command then set up the appropriate 112826127Skarels * tmscp command; by doing a switch on the "b_resid" field where 112926127Skarels * the command mneumonic is stored. 113026127Skarels */ 113126127Skarels if (ioctl) 113226127Skarels { 113326127Skarels # ifdef DEBUG 113426127Skarels printd("tmscpstart: doing ioctl cmd %d\n", bp->b_resid); 113526127Skarels # endif 113626127Skarels /* 113726127Skarels * The reccnt and tmkcnt fields are set to zero by the getcp 113826127Skarels * routine (as bytecnt and buffer fields). Thus reccnt and 113926127Skarels * tmkcnt are only modified here if they need to be set to 114026127Skarels * a non-zero value. 114126127Skarels */ 114226293Skarels switch ((int)bp->b_resid) { 114326135Skarels 114426127Skarels case TMS_WRITM: 114526127Skarels mp->mscp_opcode = M_OP_WRITM; 114626127Skarels break; 114726127Skarels case TMS_FSF: 114826127Skarels mp->mscp_opcode = M_OP_REPOS; 114926127Skarels mp->mscp_tmkcnt = bp->b_bcount; 115026127Skarels break; 115126127Skarels case TMS_BSF: 115226127Skarels mp->mscp_opcode = M_OP_REPOS; 115326127Skarels mp->mscp_modifier = M_MD_REVRS; 115426127Skarels mp->mscp_tmkcnt = bp->b_bcount; 115526127Skarels break; 115626127Skarels case TMS_FSR: 115726127Skarels mp->mscp_opcode = M_OP_REPOS; 115826127Skarels mp->mscp_modifier = M_MD_OBJCT; 115926127Skarels mp->mscp_reccnt = bp->b_bcount; 116026127Skarels break; 116126127Skarels case TMS_BSR: 116226127Skarels mp->mscp_opcode = M_OP_REPOS; 116326127Skarels mp->mscp_modifier = M_MD_REVRS | M_MD_OBJCT; 116426127Skarels mp->mscp_reccnt = bp->b_bcount; 116526127Skarels break; 116626127Skarels /* 116726127Skarels * Clear serious exception is done for Rewind & Available cmds 116826127Skarels */ 116926127Skarels case TMS_REW: 117026127Skarels mp->mscp_opcode = M_OP_REPOS; 117126127Skarels mp->mscp_modifier = M_MD_REWND | M_MD_CLSEX; 117226127Skarels if (bp->b_bcount == 0) 117326127Skarels mp->mscp_modifier |= M_MD_IMMED; 117426135Skarels tms->tms_serex = 0; 117526127Skarels break; 117626127Skarels case TMS_OFFL: 117726127Skarels mp->mscp_opcode = M_OP_AVAIL; 117826127Skarels mp->mscp_modifier = M_MD_UNLOD | M_MD_CLSEX; 117926135Skarels tms->tms_serex = 0; 118026127Skarels break; 118126127Skarels case TMS_SENSE: 118226127Skarels mp->mscp_opcode = M_OP_GTUNT; 118326127Skarels break; 118426127Skarels case TMS_CACHE: 118526127Skarels mp->mscp_opcode = M_OP_STUNT; 118626135Skarels tms->tms_unitflgs |= M_UF_WBKNV; 118726135Skarels mp->mscp_unitflgs = tms->tms_unitflgs; 118826135Skarels mp->mscp_format = tms->tms_format; 118926127Skarels /* default device dependant parameters */ 119026127Skarels mp->mscp_mediaid = 0; 119126127Skarels break; 119226127Skarels case TMS_NOCACHE: 119326127Skarels mp->mscp_opcode = M_OP_STUNT; 119426135Skarels tms->tms_unitflgs &= ~(M_UF_WBKNV); 119526135Skarels mp->mscp_unitflgs = tms->tms_unitflgs; 119626135Skarels mp->mscp_format = tms->tms_format; 119726127Skarels /* default device dependant parameters */ 119826127Skarels mp->mscp_mediaid = 0; 119926127Skarels break; 120026127Skarels case TMS_CSE: 120126127Skarels /* 120226127Skarels * This is a no-op command. It performs a 120326127Skarels * clear serious exception only. (Done on a 120426127Skarels * non-rewinding close after a serious exception.) 120526127Skarels */ 120626127Skarels mp->mscp_opcode = M_OP_REPOS; 120726127Skarels mp->mscp_modifier = M_MD_CLSEX; 120826135Skarels tms->tms_serex = 0; 120926135Skarels tms->tms_clserex = 1; 121026127Skarels break; 121126127Skarels case TMS_LOWDENSITY: 121226127Skarels /* 121326127Skarels * Set the unit to low density 121426127Skarels */ 121526127Skarels mp->mscp_opcode = M_OP_STUNT; 121626135Skarels mp->mscp_unitflgs = tms->tms_unitflgs; 121726135Skarels mp->mscp_mediaid = 0; /* default device dependant parameters */ 121826135Skarels if ((tms->tms_fmtmenu & M_TF_800) != 0) 121926127Skarels mp->mscp_format = M_TF_800; 122026127Skarels else 122126135Skarels mp->mscp_format = M_TF_PE & tms->tms_fmtmenu; 122226135Skarels tms->tms_format = mp->mscp_format; 122326127Skarels break; 122426127Skarels case TMS_HIDENSITY: 122526127Skarels /* 122626127Skarels * Set the unit to high density (format == 0) 122726127Skarels */ 122826127Skarels mp->mscp_opcode = M_OP_STUNT; 122926135Skarels mp->mscp_unitflgs = tms->tms_unitflgs; 123026135Skarels mp->mscp_mediaid = 0; /* default device dependant parameters */ 123126127Skarels mp->mscp_format = 0; 123226135Skarels tms->tms_format = 0; 123326127Skarels break; 123426127Skarels default: 123526127Skarels printf("Bad ioctl on tms unit %d\n", ui->ui_unit); 123626127Skarels /* Need a no-op. Reposition no amount */ 123726127Skarels mp->mscp_opcode = M_OP_REPOS; 123826127Skarels break; 123926127Skarels } /* end switch (bp->b_resid) */ 124026127Skarels } 124126127Skarels else /* Its a read/write command (not an ioctl) */ 124226127Skarels { 124326127Skarels mp->mscp_opcode = bp->b_flags&B_READ ? M_OP_READ : M_OP_WRITE; 124426127Skarels mp->mscp_bytecnt = bp->b_bcount; 124526127Skarels # if MVAX 124626127Skarels if (cpu == MVAX_I) 124726127Skarels { 124826127Skarels mp->mscp_buffer = (i & 0x3ffff) | TMSCP_MAP; 124926135Skarels mp->mscp_mapbase = (long)&(uba_hd[um->um_ubanum].uh_physuba->uba_map[0]); 125026127Skarels } 125126127Skarels else 125226127Skarels # endif MVAX 125326127Skarels mp->mscp_buffer = (i & 0x3ffff) | (((i>>28)&0xf)<<24); 125426135Skarels 125526127Skarels bp->b_ubinfo = tempi; /* save mapping info */ 125626127Skarels } 125726135Skarels if (tms->tms_serex == 2) /* if tape mark read */ 125826127Skarels { 125926135Skarels mp->mscp_modifier |= M_MD_CLSEX; /* clear serious exc */ 126026135Skarels tms->tms_serex = 0; 126126127Skarels } 126226127Skarels *((long *)mp->mscp_dscptr) |= TMSCP_OWN|TMSCP_INT; 126326127Skarels # ifdef DEBUG 126426135Skarels printd("tmscpstart: opcode 0%o mod %o unit %d cnt %d\n",mp->mscp_opcode,mp->mscp_modifier,mp->mscp_unit,mp->mscp_bytecnt); 126526127Skarels if(tmscpdebug)DELAY(100000); 126626127Skarels # endif 126726127Skarels i = tmscpaddr->tmscpip; /* initiate polling */ 126826127Skarels dp->b_qsize++; 126926127Skarels /* 127026127Skarels * Move drive to the end of the controller queue 127126127Skarels */ 127226127Skarels if (dp->b_forw != NULL) 127326127Skarels { 127426127Skarels um->um_tab.b_actf = dp->b_forw; 127526127Skarels um->um_tab.b_actl->b_forw = dp; 127626127Skarels um->um_tab.b_actl = dp; 127726127Skarels dp->b_forw = NULL; 127826127Skarels } 127926127Skarels /* 128026127Skarels * Move buffer to I/O wait queue 128126127Skarels */ 128226127Skarels dp->b_actf = bp->av_forw; 128326127Skarels dp = &tmscpwtab[um->um_ctlr]; 128426127Skarels bp->av_forw = dp; 128526127Skarels bp->av_back = dp->av_back; 128626127Skarels dp->av_back->av_forw = bp; 128726127Skarels dp->av_back = bp; 128826127Skarels if (tmscpaddr->tmscpsa&TMSCP_ERR) 128926127Skarels { 129026135Skarels printf("tmscp%d: fatal error (0%o)\n", um->um_ctlr, tmscpaddr->tmscpsa&0xffff); 129126370Skarels (void)tmscpinit(um->um_ctlr); 129226127Skarels break; 129326127Skarels } 129426127Skarels } /* end for */ 129526127Skarels /* 129626127Skarels * Check for response ring transitions lost in the 129726127Skarels * Race condition 129826127Skarels */ 129926127Skarels for (i = sc->sc_lastrsp;; i++) 130026127Skarels { 130126127Skarels i %= NRSP; 130226127Skarels if (tm->tmscp_ca.ca_rspdsc[i]&TMSCP_OWN) 130326127Skarels break; 130426127Skarels tmscprsp(um, tm, sc, i); 130526127Skarels tm->tmscp_ca.ca_rspdsc[i] |= TMSCP_OWN; 130626127Skarels } 130726127Skarels sc->sc_lastrsp = i; 130826127Skarels } 130926135Skarels 131026135Skarels 131126127Skarels /* 131226127Skarels * Process a response packet 131326127Skarels */ 131426127Skarels tmscprsp(um, tm, sc, i) 131526127Skarels register struct uba_ctlr *um; 131626127Skarels register struct tmscp *tm; 131726127Skarels register struct tmscp_softc *sc; 131826127Skarels int i; 131926127Skarels { 132026127Skarels register struct mscp *mp; 132126135Skarels register struct tms_info *tms; 132226127Skarels struct uba_device *ui; 132326293Skarels struct buf *dp, *bp; 132426127Skarels int st; 132526135Skarels 132626127Skarels mp = &tm->tmscp_rsp[i]; 132726127Skarels mp->mscp_header.tmscp_msglen = mscp_msglen; 132826135Skarels sc->sc_credits += mp->mscp_header.tmscp_credits & 0xf; /* low 4 bits */ 132926127Skarels if ((mp->mscp_header.tmscp_credits & 0xf0) > 0x10) /* Check */ 133026127Skarels return; 133126127Skarels # ifdef DEBUG 133226135Skarels printd("tmscprsp, opcode 0%o status 0%o\n",mp->mscp_opcode,mp->mscp_status&M_ST_MASK); 133326127Skarels # endif 133426127Skarels /* 133526127Skarels * If it's an error log message (datagram), 133626127Skarels * pass it on for more extensive processing. 133726127Skarels */ 133826127Skarels if ((mp->mscp_header.tmscp_credits & 0xf0) == 0x10) 133926127Skarels { /* check */ 134026127Skarels tmserror(um, (struct mslg *)mp); 134126127Skarels return; 134226127Skarels } 134326127Skarels st = mp->mscp_status&M_ST_MASK; 134426127Skarels /* 134526127Skarels * The controller interrupts as drive 0. 134626127Skarels * This means that you must check for controller interrupts 134726127Skarels * before you check to see if there is a drive 0. 134826127Skarels */ 134926127Skarels if((M_OP_STCON|M_OP_END) == mp->mscp_opcode) 135026127Skarels { 135126127Skarels if (st == M_ST_SUCC) 135226127Skarels { 135326127Skarels # ifdef DEBUG 135426135Skarels printd("ctlr has %d credits\n", mp->mscp_header.tmscp_credits & 0xf); 135526127Skarels printd("ctlr timeout = %d\n", mp->mscp_cnttmo); 135626127Skarels # endif 135726127Skarels sc->sc_state = S_RUN; 135826127Skarels } 135926127Skarels else 136026127Skarels sc->sc_state = S_IDLE; 136126127Skarels um->um_tab.b_active = 0; 136226127Skarels wakeup((caddr_t)um); 136326127Skarels return; 136426127Skarels } 136526135Skarels if (mp->mscp_unit >= NTMS) 136626127Skarels return; 136726127Skarels if ((ui = tmscpip[um->um_ctlr][mp->mscp_unit]) == 0) 136826127Skarels return; 136926135Skarels tms = &tms_info[ui->ui_unit]; 137026127Skarels /* 137126127Skarels * Save endcode, endflags, and status for mtioctl get unit status. 137226127Skarels * NOTE: Don't do this on Clear serious exception (reposition no-op); 137326127Skarels * which is done on close since this would 137426127Skarels * overwrite the real status we want. 137526127Skarels */ 137626135Skarels if (tms->tms_clserex != 1) 137726127Skarels { 137826135Skarels tms->tms_endcode = mp->mscp_opcode; 137926135Skarels tms->tms_flags = mp->mscp_flags; 138026135Skarels tms->tms_status = st; 138126127Skarels } 138226135Skarels else tms->tms_clserex = 0; 138326135Skarels 138426127Skarels switch (mp->mscp_opcode) { 138526127Skarels case M_OP_ONLIN|M_OP_END: 138626135Skarels tms->tms_type = mp->mscp_mediaid; 138726127Skarels dp = &tmsutab[ui->ui_unit]; 138826127Skarels if (st == M_ST_SUCC) 138926127Skarels { 139026127Skarels /* 139126127Skarels * Link the drive onto the controller queue 139226127Skarels */ 139326127Skarels dp->b_forw = NULL; 139426127Skarels if (um->um_tab.b_actf == NULL) 139526127Skarels um->um_tab.b_actf = dp; 139626127Skarels else 139726127Skarels um->um_tab.b_actl->b_forw = dp; 139826127Skarels um->um_tab.b_actl = dp; 139926127Skarels ui->ui_flags = 1; /* mark it online */ 140026135Skarels tms->tms_dsize=(daddr_t)mp->mscp_maxwrt; 140126127Skarels # ifdef DEBUG 140226127Skarels printd("tmscprsp: unit %d online\n", mp->mscp_unit); 140326127Skarels # endif 140426127Skarels /* 140526127Skarels * This define decodes the Media type identifier 140626127Skarels */ 140726135Skarels # define F_to_C(x,i) ( ((x)->mscp_mediaid) >> (i*5+7) & 0x1f ? ( ( (((x)->mscp_mediaid) >>( i*5 + 7)) & 0x1f) + 'A' - 1): ' ') 140826127Skarels # ifdef DEBUG 140926127Skarels printd("tmscprsp: unit %d online %x %c%c %c%c%c%d\n" 141026127Skarels ,mp->mscp_unit, mp->mscp_mediaid ,F_to_C(mp,4) 141126127Skarels ,F_to_C(mp,3), F_to_C(mp,2) 141226135Skarels ,F_to_C(mp,1), F_to_C(mp,0), mp->mscp_mediaid & 0x7f); 141326127Skarels # endif 141426127Skarels dp->b_active = 1; 141526127Skarels } /* end if st == M_ST_SUCC */ 141626127Skarels else 141726127Skarels { 141826293Skarels if (bp = dp->b_actf) 141926135Skarels tprintf(tms->tms_ttyp, 142026135Skarels "tms%d: hard error bn%d: OFFLINE\n", 142126135Skarels minor(bp->b_dev)&03, bp->b_blkno); 142226127Skarels else 142326135Skarels tprintf(tms->tms_ttyp, 142426135Skarels "tms%d: hard error: OFFLINE\n", 142526293Skarels ui->ui_unit); 142626127Skarels while (bp = dp->b_actf) 142726127Skarels { 142826127Skarels dp->b_actf = bp->av_forw; 142926127Skarels bp->b_flags |= B_ERROR; 143026127Skarels iodone(bp); 143126127Skarels } 143226127Skarels } 143326127Skarels if(mp->mscp_cmdref!=NULL) 143426127Skarels /* Seems to get lost sometimes in uda */ 143526370Skarels wakeup((caddr_t)mp->mscp_cmdref); 143626127Skarels break; 143726127Skarels /* 143826127Skarels * The AVAILABLE ATTENTION message occurs when the 143926127Skarels * unit becomes available after loading, 144026127Skarels * marking the unit offline (ui_flags = 0) will force an 144126127Skarels * online command prior to using the unit. 144226127Skarels */ 144326127Skarels case M_OP_AVATN: 144426127Skarels ui->ui_flags = 0; 144526135Skarels tms->tms_type = mp->mscp_mediaid; 144626127Skarels break; 144726127Skarels case M_OP_END: 144826127Skarels /* 144926127Skarels * An endcode without an opcode (0200) is an invalid command. 145026127Skarels * The mscp specification states that this would be a protocol 145126127Skarels * type error, such as illegal opcodes. The mscp spec. also 145226127Skarels * states that parameter error type of invalid commands should 145326135Skarels * return the normal end message for the command. This does not appear 145426135Skarels * to be the case. An invalid logical block number returned an endcode 145526127Skarels * of 0200 instead of the 0241 (read) that was expected. 145626127Skarels */ 145726127Skarels 145826127Skarels printf("tmscp%d: invalid cmd, endcode = %o, status=%o\n", 145926127Skarels um->um_ctlr, mp->mscp_opcode, st); 146026127Skarels bp = (struct buf *)mp->mscp_cmdref; 146126127Skarels /* 146226127Skarels * Unlink buffer from I/O wait queue. 146326127Skarels * And signal iodone, so the higher level command can exit! 146426127Skarels * 146526127Skarels */ 146626127Skarels bp->av_back->av_forw = bp->av_forw; 146726127Skarels bp->av_forw->av_back = bp->av_back; 146826127Skarels dp = &tmsutab[ui->ui_unit]; 146926127Skarels dp->b_qsize--; 147026127Skarels iodone(bp); 147126127Skarels break; 147226127Skarels case M_OP_WRITE|M_OP_END: 147326127Skarels /* mark the last io op as a write */ 147426135Skarels tms->tms_lastiow = 1; 147526127Skarels case M_OP_READ|M_OP_END: 147626127Skarels case M_OP_WRITM|M_OP_END: 147726127Skarels case M_OP_REPOS|M_OP_END: 147826127Skarels case M_OP_STUNT|M_OP_END: 147926127Skarels /* 148026127Skarels * The AVAILABLE message occurs when the mt ioctl "rewoffl" is 148126127Skarels * issued. For the ioctl, "rewoffl", a tmscp AVAILABLE command is 148226127Skarels * done with the UNLOAD modifier. This performs a rewind, followed 148326127Skarels * by marking the unit offline. So mark the unit offline 148426127Skarels * software wise as well (ui_flags = 0 and 148526135Skarels * tms->tms_openf = 0). 148626127Skarels */ 148726127Skarels case M_OP_AVAIL|M_OP_END: 148826127Skarels # ifdef DEBUG 148926127Skarels printd("tmscprsp: position = %d\n", mp->mscp_lbn); 149026127Skarels # endif 149126127Skarels bp = (struct buf *)mp->mscp_cmdref; 149226127Skarels /* 149326135Skarels * Only need to release buffer if the command was read or write. 149426127Skarels * No ubasetup was done in "tmscpstart" if it was an ioctl cmd. 149526127Skarels */ 149626127Skarels if (mp->mscp_opcode == (M_OP_READ|M_OP_END) || 149726127Skarels mp->mscp_opcode == (M_OP_WRITE|M_OP_END)) 149826127Skarels ubarelse(um->um_ubanum, (int *)&bp->b_ubinfo); 149926127Skarels /* 150026127Skarels * Unlink buffer from I/O wait queue. 150126127Skarels */ 150226127Skarels bp->av_back->av_forw = bp->av_forw; 150326127Skarels bp->av_forw->av_back = bp->av_back; 150426135Skarels # if defined(VAX750) 150526135Skarels if (cpu == VAX_750) { 150626135Skarels if ((tmscpwtab[um->um_ctlr].av_forw == &tmscpwtab[um->um_ctlr]) && 150726127Skarels (um->um_ubinfo != 0)) { 150826127Skarels ubarelse(um->um_ubanum, &um->um_ubinfo); 150926127Skarels } 151026127Skarels else { 151126127Skarels if (mp->mscp_opcode == (M_OP_READ|M_OP_END) || 151226127Skarels mp->mscp_opcode == (M_OP_WRITE|M_OP_END)) 151326135Skarels UBAPURGE(uba_hd[um->um_ubanum].uh_uba,(um->um_ubinfo >>28) & 0x0f); 151426127Skarels } 151526127Skarels } 151626127Skarels # endif 151726127Skarels dp = &tmsutab[ui->ui_unit]; 151826127Skarels dp->b_qsize--; 151926127Skarels if (st == M_ST_OFFLN || st == M_ST_AVLBL) 152026127Skarels { 152126127Skarels ui->ui_flags = 0; /* mark unit offline */ 152226135Skarels tms->tms_openf = 0; 152326135Skarels tms->tms_type = mp->mscp_mediaid; 152426127Skarels /* 152526127Skarels * Link the buffer onto the front of the drive queue 152626127Skarels */ 152726127Skarels if ((bp->av_forw = dp->b_actf) == 0) 152826127Skarels dp->b_actl = bp; 152926127Skarels dp->b_actf = bp; 153026127Skarels /* 153126127Skarels * Link the drive onto the controller queue 153226127Skarels */ 153326127Skarels if (dp->b_active == 0) 153426127Skarels { 153526127Skarels dp->b_forw = NULL; 153626127Skarels if (um->um_tab.b_actf == NULL) 153726127Skarels um->um_tab.b_actf = dp; 153826127Skarels else 153926127Skarels um->um_tab.b_actl->b_forw = dp; 154026127Skarels um->um_tab.b_actl = dp; 154126127Skarels dp->b_active = 1; 154226127Skarels } 154326135Skarels # if defined(VAX750) 154426135Skarels if (cpu == VAX_750 && um->um_ubinfo == 0) 154526135Skarels um->um_ubinfo = uballoc(um->um_ubanum, (caddr_t)0, 0, UBA_NEEDBDP); 154626127Skarels # endif 154726127Skarels return; 154826127Skarels } 154926127Skarels if (st != M_ST_SUCC) 155026127Skarels { 155126127Skarels if (mp->mscp_flags & M_EF_SEREX) 155226135Skarels tms->tms_serex = 1; 155326127Skarels if (st != M_ST_TAPEM) 155426127Skarels { 155526135Skarels tprintf(tms->tms_ttyp, 155626135Skarels "tms%d: hard error bn%d\n", 155726135Skarels minor(bp->b_dev)&03, bp->b_blkno); 155826135Skarels errinfo(st); /* produces more info */ 155926127Skarels # ifdef DEBUG 156026135Skarels printd("tmscprsp: error; status sub-code = 0%o, flags = 0%o\n", 156126135Skarels (mp->mscp_status & 177740)>>5, mp->mscp_flags); 156226127Skarels # endif 156326127Skarels bp->b_flags |= B_ERROR; 156426127Skarels } 156526127Skarels else 156626127Skarels /* Hit a tape mark - Set serex flag to 156726127Skarels * a special value so we can clear the 156826127Skarels * serious exception on the next command. 156926127Skarels */ 157026135Skarels tms->tms_serex = 2; 157126127Skarels } 157226127Skarels /* 157326127Skarels * The tmscp spec states that controllers do not have to 157426127Skarels * report the number of records or files skipped. So on 157526127Skarels * reposition commands we go strictly by cmd status. 157626127Skarels */ 157726127Skarels if (mp->mscp_opcode != (M_OP_REPOS|M_OP_END)) 157826127Skarels bp->b_resid = bp->b_bcount - mp->mscp_bytecnt; 157926127Skarels else 158026127Skarels bp->b_resid = 0; 158126135Skarels tms->tms_resid = bp->b_resid; 158226127Skarels iodone(bp); 158326127Skarels break; 158426135Skarels 158526127Skarels case M_OP_GTUNT|M_OP_END: 158626127Skarels # ifdef DEBUG 158726127Skarels printd("tmscprsp: GTUNT end packet status = 0%o\n",st); 158826135Skarels printd("tmscprsp: unit %d mediaid %x %c%c %c%c%c%d %x %x t=%d\n" 158926127Skarels ,mp->mscp_unit, mp->mscp_mediaid 159026127Skarels ,F_to_C(mp,4),F_to_C(mp,3),F_to_C(mp,2) 159126127Skarels ,F_to_C(mp,1),F_to_C(mp,0) 159226127Skarels ,mp->mscp_mediaid & 0x7f 159326127Skarels ,mp->mscp_unitid.val[0] 159426127Skarels ,mp->mscp_unitid.val[1] 159526127Skarels ,mp->mscp_format); 159626127Skarels # endif 159726135Skarels tms->tms_type = mp->mscp_mediaid; 159826135Skarels tms->tms_fmtmenu = mp->mscp_fmtmenu; 159926135Skarels tms->tms_unitflgs = mp->mscp_unitflgs; 160026127Skarels break; 160126135Skarels 160226127Skarels default: 160326127Skarels printf("tmscp unknown packet\n"); 160426127Skarels tmserror(um, (struct mslg *)mp); 160526127Skarels } /* end switch mp->mscp_opcode */ 160626127Skarels } 160726135Skarels 160826135Skarels 160926127Skarels /* 161026127Skarels * Give a meaningful error when the mscp_status field returns an error code. 161126127Skarels */ 161226135Skarels 161326127Skarels errinfo(st) 161426127Skarels int st; /* the status code */ 161526127Skarels { 161626127Skarels switch(st) { 161726127Skarels case M_ST_ICMD: 161826127Skarels printf("invalid command\n"); 161926127Skarels break; 162026127Skarels case M_ST_ABRTD: 162126127Skarels printf("command aborted\n"); 162226127Skarels break; 162326127Skarels case M_ST_OFFLN: 162426127Skarels printf("unit offline\n"); 162526127Skarels break; 162626127Skarels case M_ST_WRTPR: 162726127Skarels printf("unit write protected\n"); 162826127Skarels break; 162926127Skarels case M_ST_COMP: 163026127Skarels printf("compare error\n"); 163126127Skarels break; 163226127Skarels case M_ST_DATA: 163326127Skarels printf("data error\n"); 163426127Skarels break; 163526127Skarels case M_ST_HSTBF: 163626127Skarels printf("host buffer access error\n"); 163726127Skarels break; 163826127Skarels case M_ST_CNTLR: 163926127Skarels printf("controller error\n"); 164026127Skarels break; 164126127Skarels case M_ST_DRIVE: 164226127Skarels printf("drive error\n"); 164326127Skarels break; 164426127Skarels case M_ST_FMTER: 164526127Skarels printf("formatter error\n"); 164626127Skarels break; 164726127Skarels case M_ST_BOT: 164826127Skarels printf("BOT encountered\n"); 164926127Skarels break; 165026127Skarels case M_ST_TAPEM: 165126127Skarels printf("tape mark encountered\n"); 165226127Skarels break; 165326127Skarels case M_ST_RDTRN: 165426127Skarels printf("record data truncated\n"); 165526127Skarels break; 165626127Skarels case M_ST_PLOST: 165726127Skarels printf("position lost\n"); 165826127Skarels break; 165926127Skarels case M_ST_SEX: 166026127Skarels printf("serious exception\n"); 166126127Skarels break; 166226127Skarels case M_ST_LED: 166326127Skarels printf("LEOT detected\n"); 166426127Skarels break; 166526127Skarels } 166626127Skarels } 166726135Skarels 166826135Skarels 166926127Skarels /* 167026127Skarels * Manage buffers and perform block mode read and write operations. 167126127Skarels */ 167226135Skarels 167326127Skarels tmscpstrategy (bp) 167426127Skarels register struct buf *bp; 167526127Skarels { 167626127Skarels register struct uba_device *ui; 167726127Skarels register struct uba_ctlr *um; 167826127Skarels register struct buf *dp; 167926127Skarels register int unit = TMSUNIT(bp->b_dev); 168026127Skarels int s; 168126135Skarels 168226135Skarels if (unit >= NTMS) 168326127Skarels { 168426127Skarels # ifdef DEBUG 168526127Skarels printd ("tmscpstrategy: bad unit # %d\n",unit); 168626127Skarels # endif 168726127Skarels bp->b_flags |= B_ERROR; 168826127Skarels iodone(bp); 168926127Skarels return; 169026127Skarels } 169126127Skarels ui = tmsdinfo[unit]; 169226127Skarels um = ui->ui_mi; 169326127Skarels if (ui == 0 || ui->ui_alive == 0) 169426127Skarels { 169526127Skarels bp->b_flags |= B_ERROR; 169626127Skarels iodone(bp); 169726127Skarels return; 169826127Skarels } 169926127Skarels s = spl5(); 170026127Skarels /* 170126127Skarels * Link the buffer onto the drive queue 170226127Skarels */ 170326127Skarels dp = &tmsutab[ui->ui_unit]; 170426127Skarels if (dp->b_actf == 0) 170526127Skarels dp->b_actf = bp; 170626127Skarels else 170726127Skarels dp->b_actl->av_forw = bp; 170826127Skarels dp->b_actl = bp; 170926127Skarels bp->av_forw = 0; 171026127Skarels /* 171126127Skarels * Link the drive onto the controller queue 171226127Skarels */ 171326127Skarels if (dp->b_active == 0) 171426127Skarels { 171526127Skarels dp->b_forw = NULL; 171626127Skarels if (um->um_tab.b_actf == NULL) 171726127Skarels um->um_tab.b_actf = dp; 171826127Skarels else 171926127Skarels um->um_tab.b_actl->b_forw = dp; 172026127Skarels um->um_tab.b_actl = dp; 172126127Skarels dp->b_active = 1; 172226127Skarels } 172326127Skarels /* 172426127Skarels * If the controller is not active, start it. 172526127Skarels */ 172626127Skarels if (um->um_tab.b_active == 0) 172726127Skarels { 172826135Skarels # if defined(VAX750) 172926135Skarels if (cpu == VAX_750 173026135Skarels && tmscpwtab[um->um_ctlr].av_forw == &tmscpwtab[um->um_ctlr]) 173126127Skarels { 173226127Skarels if (um->um_ubinfo != 0) 173326135Skarels log(TMS_PRI, "tmscpstrategy: ubinfo 0x%x\n", 173426135Skarels um->um_ubinfo); 173526127Skarels else 173626135Skarels um->um_ubinfo = uballoc(um->um_ubanum, (caddr_t)0, 0, UBA_NEEDBDP); 173726127Skarels } 173826127Skarels # endif 173926127Skarels # ifdef DEBUG 174026135Skarels printd10("tmscpstrategy: Controller not active, starting it\n"); 174126127Skarels # endif 174226127Skarels (void) tmscpstart(um); 174326127Skarels } 174426127Skarels splx(s); 174526127Skarels return; 174626127Skarels } 174726135Skarels 174826127Skarels #define DBSIZE 32 174926135Skarels 175026127Skarels #define ca_Rspdsc ca_rspdsc[0] 175126127Skarels #define ca_Cmddsc ca_rspdsc[1] 175226127Skarels #define tmscp_Rsp tmscp_rsp[0] 175326127Skarels #define tmscp_Cmd tmscp_cmd[0] 175426135Skarels 175526127Skarels struct tmscp tmscpd[NTMSCP]; 175626135Skarels 175726127Skarels tmscpdump(dev) 175826127Skarels dev_t dev; 175926127Skarels { 176026127Skarels struct tmscpdevice *tmscpaddr; 176126127Skarels struct tmscp *tmscp_ubaddr; 176226127Skarels char *start; 176326127Skarels int num, blk, unit; 176426127Skarels register struct uba_regs *uba; 176526127Skarels register struct uba_device *ui; 176626127Skarels register struct tmscp *tmscpp; 176726127Skarels register struct pte *io; 176826127Skarels register int i; 176926135Skarels 177026127Skarels unit = minor(dev) & 03; 177126135Skarels if (unit >= NTMS) 177226127Skarels return (ENXIO); 177326127Skarels # define phys(cast, addr) ((cast)((int)addr & 0x7fffffff)) 177426127Skarels ui = phys(struct uba_device *, tmsdinfo[unit]); 177526127Skarels if (ui->ui_alive == 0) 177626127Skarels return (ENXIO); 177726127Skarels uba = phys(struct uba_hd *, ui->ui_hd)->uh_physuba; 177826135Skarels ubainit(uba); 177926127Skarels tmscpaddr = (struct tmscpdevice *)ui->ui_physaddr; 178026127Skarels DELAY(2000000); 178126127Skarels tmscpp = phys(struct tmscp *, &tmscpd[ui->ui_ctlr]); 178226135Skarels 178326127Skarels num = btoc(sizeof(struct tmscp)) + 1; 178426127Skarels io = &uba->uba_map[NUBMREG-num]; 178526127Skarels for(i = 0; i<num; i++) 178626127Skarels *(int *)io++ = UBAMR_MRV|(btop(tmscpp)+i); 178726135Skarels tmscp_ubaddr = (struct tmscp *)(((int)tmscpp & PGOFSET)|((NUBMREG-num)<<9)); 178826135Skarels 178926127Skarels tmscpaddr->tmscpip = 0; 179026127Skarels while ((tmscpaddr->tmscpsa & TMSCP_STEP1) == 0) 179126127Skarels if(tmscpaddr->tmscpsa & TMSCP_ERR) return(EFAULT); 179226127Skarels tmscpaddr->tmscpsa = TMSCP_ERR; 179326127Skarels while ((tmscpaddr->tmscpsa & TMSCP_STEP2) == 0) 179426127Skarels if(tmscpaddr->tmscpsa & TMSCP_ERR) return(EFAULT); 179526127Skarels tmscpaddr->tmscpsa = (short)&tmscp_ubaddr->tmscp_ca.ca_ringbase; 179626127Skarels while ((tmscpaddr->tmscpsa & TMSCP_STEP3) == 0) 179726127Skarels if(tmscpaddr->tmscpsa & TMSCP_ERR) return(EFAULT); 179826135Skarels tmscpaddr->tmscpsa = (short)(((int)&tmscp_ubaddr->tmscp_ca.ca_ringbase) >> 16); 179926127Skarels while ((tmscpaddr->tmscpsa & TMSCP_STEP4) == 0) 180026127Skarels if(tmscpaddr->tmscpsa & TMSCP_ERR) return(EFAULT); 180126127Skarels tmscpaddr->tmscpsa = TMSCP_GO; 180226135Skarels tmscpp->tmscp_ca.ca_Rspdsc = (long)&tmscp_ubaddr->tmscp_Rsp.mscp_cmdref; 180326135Skarels tmscpp->tmscp_ca.ca_Cmddsc = (long)&tmscp_ubaddr->tmscp_Cmd.mscp_cmdref; 180426127Skarels tmscpp->tmscp_Cmd.mscp_header.tmscp_vcid = 1; /* for tape */ 180526127Skarels tmscpp->tmscp_Cmd.mscp_cntflgs = 0; 180626127Skarels tmscpp->tmscp_Cmd.mscp_version = 0; 180726127Skarels if (tmscpcmd(M_OP_STCON, tmscpp, tmscpaddr) == 0) { 180826127Skarels return(EFAULT); 180926127Skarels } 181026127Skarels tmscpp->tmscp_Cmd.mscp_unit = ui->ui_slave; 181126127Skarels if (tmscpcmd(M_OP_ONLIN, tmscpp, tmscpaddr) == 0) { 181226127Skarels return(EFAULT); 181326127Skarels } 181426135Skarels 181526127Skarels num = maxfree; 181626127Skarels start = 0; 181726127Skarels while (num > 0) 181826127Skarels { 181926127Skarels blk = num > DBSIZE ? DBSIZE : num; 182026127Skarels io = uba->uba_map; 182126127Skarels for (i = 0; i < blk; i++) 182226127Skarels *(int *)io++ = (btop(start)+i) | UBAMR_MRV; 182326127Skarels *(int *)io = 0; 182426127Skarels tmscpp->tmscp_Cmd.mscp_lbn = btop(start); 182526127Skarels tmscpp->tmscp_Cmd.mscp_unit = ui->ui_slave; 182626127Skarels tmscpp->tmscp_Cmd.mscp_bytecnt = blk*NBPG; 182726127Skarels # ifdef MVAX 182826127Skarels if( cpu == MVAX_I ) 182926127Skarels tmscpp->tmscp_Cmd.mscp_buffer = (long) start; 183026127Skarels else 183126127Skarels # endif MVAX 183226127Skarels tmscpp->tmscp_Cmd.mscp_buffer = 0; 183326127Skarels if (tmscpcmd(M_OP_WRITE, tmscpp, tmscpaddr) == 0) 183426127Skarels return(EIO); 183526127Skarels start += blk*NBPG; 183626127Skarels num -= blk; 183726127Skarels } 183826127Skarels return (0); 183926127Skarels } 184026135Skarels 184126135Skarels 184226127Skarels /* 184326127Skarels * Perform a standalone tmscp command. This routine is only used by tmscpdump. 184426127Skarels */ 184526135Skarels 184626127Skarels tmscpcmd(op, tmscpp, tmscpaddr) 184726127Skarels int op; 184826127Skarels register struct tmscp *tmscpp; 184926127Skarels struct tmscpdevice *tmscpaddr; 185026127Skarels { 185126127Skarels int i; 185226135Skarels 185326135Skarels 185426127Skarels tmscpp->tmscp_Cmd.mscp_opcode = op; 185526127Skarels tmscpp->tmscp_Rsp.mscp_header.tmscp_msglen = mscp_msglen; 185626127Skarels tmscpp->tmscp_Cmd.mscp_header.tmscp_msglen = mscp_msglen; 185726127Skarels tmscpp->tmscp_ca.ca_Rspdsc |= TMSCP_OWN|TMSCP_INT; 185826127Skarels tmscpp->tmscp_ca.ca_Cmddsc |= TMSCP_OWN|TMSCP_INT; 185926127Skarels if (tmscpaddr->tmscpsa&TMSCP_ERR) 186026127Skarels printf("tmscp fatal error (0%o)\n", tmscpaddr->tmscpsa&0xffff); 186126127Skarels i = tmscpaddr->tmscpip; 186226293Skarels #ifdef lint 186326293Skarels i = i; 186426293Skarels #endif 186526127Skarels for (;;) 186626127Skarels { 186726127Skarels if (tmscpp->tmscp_ca.ca_cmdint) 186826127Skarels tmscpp->tmscp_ca.ca_cmdint = 0; 186926127Skarels if (tmscpp->tmscp_ca.ca_rspint) 187026127Skarels break; 187126127Skarels } 187226127Skarels tmscpp->tmscp_ca.ca_rspint = 0; 187326127Skarels if (tmscpp->tmscp_Rsp.mscp_opcode != (op|M_OP_END) || 187426127Skarels (tmscpp->tmscp_Rsp.mscp_status&M_ST_MASK) != M_ST_SUCC) 187526127Skarels { 187626127Skarels printf("error: com %d opc 0x%x stat 0x%x\ndump ", op, 187726135Skarels tmscpp->tmscp_Rsp.mscp_opcode, tmscpp->tmscp_Rsp.mscp_status); 187826127Skarels return(0); 187926127Skarels } 188026127Skarels return(1); 188126127Skarels } 188226135Skarels 188326127Skarels /* 188426127Skarels * Catch ioctl commands, and call the "command" routine to do them. 188526127Skarels */ 188626135Skarels 188726293Skarels /* ARGSUSED */ 188826127Skarels tmscpioctl(dev, cmd, data, flag) 188926127Skarels dev_t dev; 189026127Skarels int cmd; 189126127Skarels caddr_t data; 189226127Skarels int flag; 189326127Skarels { 189426127Skarels register struct buf *bp = &ctmscpbuf[TMSCPCTLR(dev)]; 189526127Skarels register callcount; /* number of times to call cmd routine */ 189626127Skarels register struct uba_device *ui; 189726135Skarels register struct tms_info *tms; 189826127Skarels int fcount; /* number of files (or records) to space */ 189926293Skarels register struct mtop *mtop; /* mag tape cmd op to perform */ 190026293Skarels register struct mtget *mtget; /* mag tape struct to get info in */ 190126135Skarels 190226127Skarels /* we depend of the values and order of the TMS ioctl codes here */ 190326127Skarels static tmsops[] = 190426127Skarels {TMS_WRITM,TMS_FSF,TMS_BSF,TMS_FSR,TMS_BSR,TMS_REW,TMS_OFFL,TMS_SENSE, 190526127Skarels TMS_CACHE,TMS_NOCACHE}; 190626135Skarels 190726127Skarels switch (cmd) { 190826127Skarels case MTIOCTOP: /* tape operation */ 190926127Skarels mtop = (struct mtop *)data; 191026127Skarels switch (mtop->mt_op) { 191126135Skarels 191226127Skarels case MTWEOF: 191326127Skarels callcount = mtop->mt_count; 191426127Skarels fcount = 1; 191526127Skarels break; 191626127Skarels case MTFSF: case MTBSF: 191726127Skarels case MTFSR: case MTBSR: 191826127Skarels callcount = 1; 191926127Skarels fcount = mtop->mt_count; 192026127Skarels break; 192126127Skarels case MTREW: case MTOFFL: case MTNOP: 192226127Skarels case MTCACHE: case MTNOCACHE: 192326127Skarels callcount = 1; 192426127Skarels fcount = 1; /* wait for this rewind */ 192526127Skarels break; 192626127Skarels default: 192726127Skarels return (ENXIO); 192826127Skarels } /* end switch mtop->mt_op */ 192926135Skarels 193026127Skarels if (callcount <= 0 || fcount <= 0) 193126127Skarels return (EINVAL); 193226127Skarels while (--callcount >= 0) 193326127Skarels { 193426127Skarels tmscpcommand(dev, tmsops[mtop->mt_op], fcount); 193526127Skarels if ((mtop->mt_op == MTFSR || mtop->mt_op == MTBSR) && 193626127Skarels bp->b_resid) 193726127Skarels return (EIO); 193826127Skarels if (bp->b_flags & B_ERROR) /* like hitting BOT */ 193926127Skarels break; 194026127Skarels } 194126127Skarels return (geterror(bp)); 194226135Skarels 194326127Skarels case MTIOCGET: 194426127Skarels /* 194526127Skarels * Return status info associated with the particular UNIT. 194626127Skarels */ 194726127Skarels ui = tmsdinfo[TMSUNIT(dev)]; 194826135Skarels tms = &tms_info[ui->ui_unit]; 194926127Skarels mtget = (struct mtget *)data; 195026127Skarels mtget->mt_type = MT_ISTMSCP; 195126135Skarels mtget->mt_dsreg = tms->tms_flags << 8; 195226135Skarels mtget->mt_dsreg |= tms->tms_endcode; 195326135Skarels mtget->mt_erreg = tms->tms_status; 195426135Skarels mtget->mt_resid = tms->tms_resid; 195526127Skarels break; 195626135Skarels 195726127Skarels default: 195826127Skarels return (ENXIO); 195926127Skarels } 196026127Skarels return (0); 196126127Skarels } 196226135Skarels 196326135Skarels 196426127Skarels /* 196526127Skarels * Reset (for raw mode use only). 196626127Skarels */ 196726135Skarels 196826127Skarels tmscpreset (uban) 196926127Skarels int uban; 197026127Skarels { 197126127Skarels register struct uba_ctlr *um; 197226127Skarels register struct uba_device *ui; 197326127Skarels register struct buf *bp, *dp; 197426127Skarels register int unit; 197526127Skarels struct buf *nbp; 197626127Skarels int d; 197726135Skarels 197826127Skarels for (d = 0; d < NTMSCP; d++) 197926127Skarels { 198026127Skarels if ((um = tmscpminfo[d]) == 0 || um->um_ubanum != uban || 198126127Skarels um->um_alive == 0) 198226127Skarels continue; 198326127Skarels printf(" tmscp%d", d); 198426127Skarels um->um_tab.b_active = 0; 198526127Skarels um->um_tab.b_actf = um->um_tab.b_actl = 0; 198626127Skarels tmscp_softc[d].sc_state = S_IDLE; 198726127Skarels tmscp_softc[d].sc_mapped = 0; 198826135Skarels for (unit = 0; unit < NTMS; unit++) 198926127Skarels { 199026127Skarels if ((ui = tmsdinfo[unit]) == 0) 199126127Skarels continue; 199226127Skarels if (ui->ui_alive == 0 || ui->ui_mi != um) 199326127Skarels continue; 199426127Skarels tmsutab[unit].b_active = 0; 199526127Skarels tmsutab[unit].b_qsize = 0; 199626127Skarels } 199726127Skarels for (bp = tmscpwtab[d].av_forw; bp != &tmscpwtab[d]; bp = nbp) 199826127Skarels { 199926127Skarels nbp = bp->av_forw; 200026127Skarels bp->b_ubinfo = 0; 200126127Skarels /* 200226127Skarels * Link the buffer onto the drive queue 200326127Skarels */ 200426127Skarels dp = &tmsutab[TMSUNIT(bp->b_dev)]; 200526127Skarels if (dp->b_actf == 0) 200626127Skarels dp->b_actf = bp; 200726127Skarels else 200826127Skarels dp->b_actl->av_forw = bp; 200926127Skarels dp->b_actl = bp; 201026127Skarels bp->av_forw = 0; 201126127Skarels /* 201226127Skarels * Link the drive onto the controller queue 201326127Skarels */ 201426127Skarels if (dp->b_active == 0) 201526127Skarels { 201626127Skarels dp->b_forw = NULL; 201726127Skarels if (um->um_tab.b_actf == NULL) 201826127Skarels um->um_tab.b_actf = dp; 201926127Skarels else 202026127Skarels um->um_tab.b_actl->b_forw = dp; 202126127Skarels um->um_tab.b_actl = dp; 202226127Skarels dp->b_active = 1; 202326127Skarels } 202426127Skarels } 202526370Skarels (void)tmscpinit(d); 202626127Skarels } 202726127Skarels } 202826135Skarels 202926135Skarels 203026127Skarels /* 203126127Skarels * Process an error log message 203226127Skarels * 203326127Skarels * Only minimal decoding is done, only "useful" 203426127Skarels * information is printed. Eventually should 203526127Skarels * send message to an error logger. 203626127Skarels */ 203726135Skarels 203826127Skarels tmserror(um, mp) 203926127Skarels register struct uba_ctlr *um; 204026127Skarels register struct mslg *mp; 204126127Skarels { 204226127Skarels register i; 204326135Skarels 204426127Skarels # ifdef DEBUG 204526127Skarels printd("tmserror:\n"); 204626127Skarels # endif 204726127Skarels if(!(mp->mslg_flags & (M_LF_SUCC | M_LF_CONT))) 204826135Skarels log(TMS_PRI, "tmscp%d: %s error, ", um->um_ctlr, 204926127Skarels mp->mslg_flags & ( M_LF_SUCC | M_LF_CONT ) ? "soft" : "hard"); 205026135Skarels 205126127Skarels switch (mp->mslg_format) { 205226135Skarels 205326127Skarels case M_FM_CNTERR: 205426135Skarels log(TMS_PRI, "controller error, event 0%o\n", mp->mslg_event); 205526127Skarels break; 205626127Skarels case M_FM_BUSADDR: 205726135Skarels log(TMS_PRI, "host memory access error, event 0%o, addr 0%o\n", 205826127Skarels mp->mslg_event, mp->mslg_busaddr); 205926127Skarels break; 206026127Skarels case M_FM_TAPETRN: 206126135Skarels log(TMS_PRI, "tape transfer error, unit %d, grp 0x%x, event 0%o\n", 206226127Skarels mp->mslg_unit, mp->mslg_group, mp->mslg_event); 206326127Skarels break; 206426127Skarels case M_FM_STIERR: 206526135Skarels log(TMS_PRI, "STI error, unit %d, event 0%o\n", 206626127Skarels mp->mslg_unit, mp->mslg_event); 206726135Skarels #ifdef notdef 206826135Skarels /* too painful to do with log() */ 206926127Skarels for(i = 0; i < 62;i++) 207026127Skarels mprintf("\t0x%x",mp->mslg_stiunsucc[i] & 0xff); 207126127Skarels mprintf("\n"); 207226135Skarels #endif 207326127Skarels break; 207426127Skarels case M_FM_STIDEL: 207526135Skarels log(TMS_PRI, "STI Drive Error Log, unit %d, event 0%o\n", 207626127Skarels mp->mslg_unit, mp->mslg_event); 207726127Skarels break; 207826127Skarels case M_FM_STIFEL: 207926135Skarels log(TMS_PRI, "STI Formatter Error Log, unit %d, event 0%o\n", 208026127Skarels mp->mslg_unit, mp->mslg_event); 208126127Skarels break; 208226127Skarels default: 208326135Skarels log(TMS_PRI, "unknown error, unit %d, format 0%o, event 0%o\n", 208426127Skarels mp->mslg_unit, mp->mslg_format, mp->mslg_event); 208526127Skarels } 208626135Skarels 208726127Skarels if (tmscperror) 208826127Skarels { 208926127Skarels register long *p = (long *)mp; 209026135Skarels 209126127Skarels for (i = 0; i < mp->mslg_header.tmscp_msglen; i += sizeof(*p)) 209226127Skarels printf("%x ", *p++); 209326127Skarels printf("\n"); 209426127Skarels } 209526127Skarels } 209626127Skarels #endif 2097