/* pdp11_rq.c: RQDX3 disk controller simulator | |
Copyright (c) 2002, Robert M Supnik | |
Derived from work by Stephen F. Shirron | |
Permission is hereby granted, free of charge, to any person obtaining a | |
copy of this software and associated documentation files (the "Software"), | |
to deal in the Software without restriction, including without limitation | |
the rights to use, copy, modify, merge, publish, distribute, sublicense, | |
and/or sell copies of the Software, and to permit persons to whom the | |
Software is furnished to do so, subject to the following conditions: | |
The above copyright notice and this permission notice shall be included in | |
all copies or substantial portions of the Software. | |
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | |
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, | |
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL | |
ROBERT M SUPNIK BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | |
IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | |
CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | |
Except as contained in this notice, the name of Robert M Supnik shall not | |
be used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from Robert M Supnik. | |
rq RQDX3 disk controller | |
12-Oct-02 RMS Added multicontroller support | |
29-Sep-02 RMS Changed addressing to 18b in Unibus mode | |
Added variable address support to bootstrap | |
Added vector display support | |
Fixed status code in HBE error log | |
Consolidated MSCP/TMSCP header file | |
New data structures | |
16-Aug-02 RMS Removed unused variables (found by David Hittner) | |
04-May-02 RMS Fixed bug in polling loop for queued operations | |
26-Mar-02 RMS Fixed bug, reset routine cleared UF_WPH | |
09-Mar-02 RMS Adjusted delays for M+ timing bugs | |
04-Mar-02 RMS Added delays to initialization for M+, RSTS/E | |
16-Feb-02 RMS Fixed bugs in host timeout logic, boot | |
26-Jan-02 RMS Revised bootstrap to conform to M9312 | |
06-Jan-02 RMS Revised enable/disable support | |
30-Dec-01 RMS Revised show routines | |
19-Dec-01 RMS Added bigger drives | |
17-Dec-01 RMS Added queue process | |
*/ | |
#if defined (USE_INT64) | |
#include "vax_defs.h" | |
#define VM_VAX 1 | |
#define RQ_RDX 16 | |
#define RQ_AINC 4 | |
#define RQ_WID 32 | |
#else | |
#include "pdp11_defs.h" | |
#define VM_PDP11 1 | |
#define RQ_RDX 8 | |
#define RQ_AINC 2 | |
#define RQ_WID 16 | |
extern int32 cpu_18b, cpu_ubm; | |
#endif | |
#if !defined (RQ_NUMCT) | |
#define RQ_NUMCT 4 | |
#elif (RQ_NUMCT > 4) | |
Assertion failure: RQ_NUMCT exceeds 4 | |
#endif | |
#include "pdp11_uqssp.h" | |
#include "pdp11_mscp.h" | |
#define UF_MSK (UF_CMR|UF_CMW) /* settable flags */ | |
#define RQ_SH_MAX 24 /* max display wds */ | |
#define RQ_SH_PPL 8 /* wds per line */ | |
#define RQ_SH_DPL 4 /* desc per line */ | |
#define RQ_SH_RI 001 /* show rings */ | |
#define RQ_SH_FR 002 /* show free q */ | |
#define RQ_SH_RS 004 /* show resp q */ | |
#define RQ_SH_UN 010 /* show unit q's */ | |
#define RQ_CLASS 1 /* RQ class */ | |
#define RQ_UQPM 19 /* UQ port model */ | |
#define RQ_MODEL 19 /* MSCP ctrl model */ | |
#define RQ_HVER 1 /* hardware version */ | |
#define RQ_SVER 3 /* software version */ | |
#define RQ_DHTMO 60 /* def host timeout */ | |
#define RQ_DCTMO 120 /* def ctrl timeout */ | |
#define RQ_NUMDR 4 /* # drives */ | |
#define RQ_NUMBY 512 /* bytes per block */ | |
#define RQ_MAXFR (1 << 16) /* max xfer */ | |
#define UNIT_V_ONL (UNIT_V_UF + 0) /* online */ | |
#define UNIT_V_WLK (UNIT_V_UF + 1) /* hwre write lock */ | |
#define UNIT_V_ATP (UNIT_V_UF + 2) /* attn pending */ | |
#define UNIT_V_DTYPE (UNIT_V_UF + 3) /* drive type */ | |
#define UNIT_M_DTYPE 0xF | |
#define UNIT_ONL (1 << UNIT_V_ONL) | |
#define UNIT_WLK (1 << UNIT_V_WLK) | |
#define UNIT_ATP (1 << UNIT_V_ATP) | |
#define UNIT_DTYPE (UNIT_M_DTYPE << UNIT_V_DTYPE) | |
#define GET_DTYPE(x) (((x) >> UNIT_V_DTYPE) & UNIT_M_DTYPE) | |
#define cpkt u3 /* current packet */ | |
#define pktq u4 /* packet queue */ | |
#define uf buf /* settable unit flags */ | |
#define cnum wait /* controller index */ | |
#define UNIT_WPRT (UNIT_WLK | UNIT_RO) /* write prot */ | |
#define RQ_RMV(u) ((drv_tab[GET_DTYPE (u->flags)].flgs & RQDF_RMV)? \ | |
UF_RMV: 0) | |
#define RQ_WPH(u) (((drv_tab[GET_DTYPE (u->flags)].flgs & RQDF_RO) || \ | |
(u->flags & UNIT_WPRT))? UF_WPH: 0) | |
#define CST_S1 0 /* init stage 1 */ | |
#define CST_S1_WR 1 /* stage 1 wrap */ | |
#define CST_S2 2 /* init stage 2 */ | |
#define CST_S3 3 /* init stage 3 */ | |
#define CST_S3_PPA 4 /* stage 3 sa wait */ | |
#define CST_S3_PPB 5 /* stage 3 ip wait */ | |
#define CST_S4 6 /* stage 4 */ | |
#define CST_UP 7 /* online */ | |
#define CST_DEAD 8 /* fatal error */ | |
#define ERR 0 /* must be SCPE_OK! */ | |
#define OK 1 | |
#define RQ_TIMER (RQ_NUMDR) | |
#define RQ_QUEUE (RQ_TIMER + 1) | |
/* Internal packet management. The real RQDX3 manages its packets as true | |
linked lists. However, use of actual addresses in structures won't work | |
with save/restore. Accordingly, the packets are an arrayed structure, | |
and links are actually subscripts. To minimize complexity, packet[0] | |
is not used (0 = end of list), and the number of packets must be a power | |
of two. | |
*/ | |
#define RQ_NPKTS 32 /* # packets (pwr of 2) */ | |
#define RQ_M_NPKTS (RQ_NPKTS - 1) /* mask */ | |
#define RQ_PKT_SIZE_W 32 /* payload size (wds) */ | |
#define RQ_PKT_SIZE (RQ_PKT_SIZE_W * sizeof (int16)) | |
struct rqpkt { | |
int16 link; /* link to next */ | |
uint16 d[RQ_PKT_SIZE_W]; }; /* data */ | |
/* Packet payload extraction and insertion; cp defines controller */ | |
#define GETP(p,w,f) ((cp->pak[p].d[w] >> w##_V_##f) & w##_M_##f) | |
#define GETP32(p,w) (((uint32) cp->pak[p].d[w]) | \ | |
(((uint32) cp->pak[p].d[(w)+1]) << 16)) | |
#define PUTP32(p,w,x) cp->pak[p].d[w] = (x) & 0xFFFF; \ | |
cp->pak[p].d[(w)+1] = ((x) >> 16) & 0xFFFF | |
/* Disk formats. An RQDX3 consists of the following regions: | |
XBNs Extended blocks - contain information about disk format, | |
also holds track being reformatted during bad block repl. | |
Size = sectors/track + 1, replicated 3 times. | |
DBNs Diagnostic blocks - used by diagnostics. Sized to pad | |
out the XBNs to a cylinder boundary. | |
LBNs Logical blocks - contain user information. | |
RCT Replacement control table - first block contains status, | |
second contains data from block being replaced, remaining | |
contain information about replaced bad blocks. | |
Size = RBNs/128 + 3, replicated 4-8 times. | |
RBNs Replacement blocks - used to replace bad blocks. | |
The simulator does not need to perform bad block replacement; the | |
information below is for simulating RCT reads, if required. | |
Note that an RA drive has a different order: LBNs, RCT, XBN, DBN; | |
the RBNs are spare blocks at the end of every track. | |
*/ | |
#define RCT_OVHD 2 /* #ovhd blks */ | |
#define RCT_ENTB 128 /* entries/blk */ | |
#define RCT_END 0x80000000 /* marks RCT end */ | |
/* The RQDX3 supports multiple disk drive types: | |
type sec surf cyl tpg gpc RCT LBNs | |
RX50 10 1 80 5 16 - 800 | |
RX33 15 2 80 2 1 - 2400 | |
RD51 18 4 306 4 1 36*4 21600 | |
RD31 17 4 615 4 1 3*8 41560 | |
RD52 17 8 512 8 1 4*8 60480 | |
RD53 17 7 1024 7 1 5*8 138672 | |
RD54 17 15 1225 15 1 7*8 311200 | |
The simulator also supports larger drives that only existed | |
on SDI controllers. XBN, DBN, RCTS and RCTC are not known | |
for the SDI drives and are not used by the simulator: | |
RA82 57 15 1435 15 1 ?*8 1216665 | |
RA72 51 20 1921? 20 1 ?*8 1953300 | |
RA90 69 13 2656 13 1 ?*8 2376153 | |
RA92 73 13 3101 13 1 ?*8 2940951 | |
Each drive can be a different type. The drive field in the | |
unit flags specified the drive type and thus, indirectly, | |
the drive size. DISKS MUST BE DECLARED IN ASCENDING SIZE. | |
*/ | |
#define RQDF_RMV 01 /* removable */ | |
#define RQDF_RO 02 /* read only */ | |
#define RQDF_SDI 04 /* SDI drive */ | |
#define RX50_DTYPE 0 | |
#define RX50_SECT 10 | |
#define RX50_SURF 1 | |
#define RX50_CYL 80 | |
#define RX50_TPG 5 | |
#define RX50_GPC 16 | |
#define RX50_XBN 0 | |
#define RX50_DBN 0 | |
#define RX50_LBN 800 | |
#define RX50_RCTS 0 | |
#define RX50_RCTC 0 | |
#define RX50_RBN 0 | |
#define RX50_MOD 7 | |
#define RX50_MED 0x25658032 | |
#define RX50_FLGS RQDF_RMV | |
#define RX33_DTYPE 1 | |
#define RX33_SECT 15 | |
#define RX33_SURF 2 | |
#define RX33_CYL 80 | |
#define RX33_TPG 2 | |
#define RX33_GPC 1 | |
#define RX33_XBN 0 | |
#define RX33_DBN 0 | |
#define RX33_LBN 2400 | |
#define RX33_RCTS 0 | |
#define RX33_RCTC 0 | |
#define RX33_RBN 0 | |
#define RX33_MOD 10 | |
#define RX33_MED 0x25658021 | |
#define RX33_FLGS RQDF_RMV | |
#define RD51_DTYPE 2 | |
#define RD51_SECT 18 | |
#define RD51_SURF 4 | |
#define RD51_CYL 306 | |
#define RD51_TPG 4 | |
#define RD51_GPC 1 | |
#define RD51_XBN 57 | |
#define RD51_DBN 87 | |
#define RD51_LBN 21600 | |
#define RD51_RCTS 36 | |
#define RD51_RCTC 4 | |
#define RD51_RBN 144 | |
#define RD51_MOD 6 | |
#define RD51_MED 0x25644033 | |
#define RD51_FLGS 0 | |
#define RD31_DTYPE 3 | |
#define RD31_SECT 17 | |
#define RD31_SURF 4 | |
#define RD31_CYL 615 /* last unused */ | |
#define RD31_TPG RD31_SURF | |
#define RD31_GPC 1 | |
#define RD31_XBN 54 | |
#define RD31_DBN 14 | |
#define RD31_LBN 41560 | |
#define RD31_RCTS 3 | |
#define RD31_RCTC 8 | |
#define RD31_RBN 100 | |
#define RD31_MOD 12 | |
#define RD31_MED 0x2564401F | |
#define RD31_FLGS 0 | |
#define RD52_DTYPE 4 /* Quantum params */ | |
#define RD52_SECT 17 | |
#define RD52_SURF 8 | |
#define RD52_CYL 512 | |
#define RD52_TPG RD52_SURF | |
#define RD52_GPC 1 | |
#define RD52_XBN 54 | |
#define RD52_DBN 82 | |
#define RD52_LBN 60480 | |
#define RD52_RCTS 4 | |
#define RD52_RCTC 8 | |
#define RD52_RBN 168 | |
#define RD52_MOD 8 | |
#define RD52_MED 0x25644034 | |
#define RD52_FLGS 0 | |
#define RD53_DTYPE 5 | |
#define RD53_SECT 17 | |
#define RD53_SURF 8 | |
#define RD53_CYL 1024 /* last unused */ | |
#define RD53_TPG RD53_SURF | |
#define RD53_GPC 1 | |
#define RD53_XBN 54 | |
#define RD53_DBN 82 | |
#define RD53_LBN 138672 | |
#define RD53_RCTS 5 | |
#define RD53_RCTC 8 | |
#define RD53_RBN 280 | |
#define RD53_MOD 9 | |
#define RD53_MED 0x25644035 | |
#define RD53_FLGS 0 | |
#define RD54_DTYPE 6 | |
#define RD54_SECT 17 | |
#define RD54_SURF 15 | |
#define RD54_CYL 1225 /* last unused */ | |
#define RD54_TPG RD54_SURF | |
#define RD54_GPC 1 | |
#define RD54_XBN 54 | |
#define RD54_DBN 201 | |
#define RD54_LBN 311200 | |
#define RD54_RCTS 7 | |
#define RD54_RCTC 8 | |
#define RD54_RBN 609 | |
#define RD54_MOD 13 | |
#define RD54_MED 0x25644036 | |
#define RD54_FLGS 0 | |
#define RA82_DTYPE 7 /* SDI drive */ | |
#define RA82_SECT 57 /* +1 spare/track */ | |
#define RA82_SURF 15 | |
#define RA82_CYL 1435 /* 0-1422 user */ | |
#define RA82_TPG RA82_SURF | |
#define RA82_GPC 1 | |
#define RA82_XBN 3420 /* cyl 1427-1430 */ | |
#define RA82_DBN 3420 /* cyl 1431-1434 */ | |
#define RA82_LBN 1216665 /* 57*15*1423 */ | |
#define RA82_RCTS 400 /* cyl 1423-1426 */ | |
#define RA82_RCTC 8 | |
#define RA82_RBN 21345 /* 1 *15*1423 */ | |
#define RA82_MOD 11 | |
#define RA82_MED 0x25641052 | |
#define RA82_FLGS RQDF_SDI | |
#define RRD40_DTYPE 8 | |
#define RRD40_SECT 128 | |
#define RRD40_SURF 1 | |
#define RRD40_CYL 10400 | |
#define RRD40_TPG RRD40_SURF | |
#define RRD40_GPC 1 | |
#define RRD40_XBN 0 | |
#define RRD40_DBN 0 | |
#define RRD40_LBN 1331200 | |
#define RRD40_RCTS 0 | |
#define RRD40_RCTC 0 | |
#define RRD40_RBN 0 | |
#define RRD40_MOD 26 | |
#define RRD40_MED 0x25652228 | |
#define RRD40_FLGS (RQDF_RMV | RQDF_RO) | |
#define RA72_DTYPE 9 /* SDI drive */ | |
#define RA72_SECT 51 /* +1 spare/trk */ | |
#define RA72_SURF 20 | |
#define RA72_CYL 1921 /* 0-1914 user */ | |
#define RA72_TPG RA72_SURF | |
#define RA72_GPC 1 | |
#define RA72_XBN 2040 /* cyl 1917-1918? */ | |
#define RA72_DBN 2040 /* cyl 1920-1921? */ | |
#define RA72_LBN 1953300 /* 51*20*1915 */ | |
#define RA72_RCTS 400 /* cyl 1915-1916? */ | |
#define RA72_RCTC 5 /* ? */ | |
#define RA72_RBN 38300 /* 1 *20*1915 */ | |
#define RA72_MOD 37 | |
#define RA72_MED 0x25641048 | |
#define RA72_FLGS RQDF_SDI | |
#define RA90_DTYPE 10 /* SDI drive */ | |
#define RA90_SECT 69 /* +1 spare/trk */ | |
#define RA90_SURF 13 | |
#define RA90_CYL 2656 /* 0-2648 user */ | |
#define RA90_TPG RA90_SURF | |
#define RA90_GPC 1 | |
#define RA90_XBN 1794 /* cyl 2651-2652? */ | |
#define RA90_DBN 1794 /* cyl 2653-2654? */ | |
#define RA90_LBN 2376153 /* 69*13*2649 */ | |
#define RA90_RCTS 400 /* cyl 2649-2650? */ | |
#define RA90_RCTC 6 /* ? */ | |
#define RA90_RBN 34437 /* 1 *13*2649 */ | |
#define RA90_MOD 19 | |
#define RA90_MED 0x2564105A | |
#define RA90_FLGS RQDF_SDI | |
#define RA92_DTYPE 11 /* SDI drive */ | |
#define RA92_SECT 73 /* +1 spare/trk */ | |
#define RA92_SURF 13 | |
#define RA92_CYL 3101 /* 0-3098 user */ | |
#define RA92_TPG RA92_SURF | |
#define RA92_GPC 1 | |
#define RA92_XBN 174 /* cyl 3100? */ | |
#define RA92_DBN 775 | |
#define RA92_LBN 2940951 /* 73*13*3099 */ | |
#define RA92_RCTS 316 /* cyl 3099? */ | |
#define RA92_RCTC 3 /* ? */ | |
#define RA92_RBN 40287 /* 1 *13*3099 */ | |
#define RA92_MOD 29 | |
#define RA92_MED 0x2564105C | |
#define RA92_FLGS RQDF_SDI | |
struct drvtyp { | |
int32 sect; /* sectors */ | |
int32 surf; /* surfaces */ | |
int32 cyl; /* cylinders */ | |
int32 tpg; /* trk/grp */ | |
int32 gpc; /* grp/cyl */ | |
int32 xbn; /* XBN size */ | |
int32 dbn; /* DBN size */ | |
int32 lbn; /* LBN size */ | |
int32 rcts; /* RCT size */ | |
int32 rctc; /* RCT copies */ | |
int32 rbn; /* RBNs */ | |
int32 mod; /* MSCP model */ | |
int32 med; /* MSCP media */ | |
int32 flgs; /* flags */ | |
}; | |
#define RQ_DRV(d) \ | |
d##_SECT, d##_SURF, d##_CYL, d##_TPG, \ | |
d##_GPC, d##_XBN, d##_DBN, d##_LBN, \ | |
d##_RCTS, d##_RCTC, d##_RBN, d##_MOD, \ | |
d##_MED, d##_FLGS | |
#define RQ_SIZE(d) (d##_LBN * RQ_NUMBY) | |
static struct drvtyp drv_tab[] = { | |
{ RQ_DRV (RX50) }, { RQ_DRV (RX33) }, | |
{ RQ_DRV (RD51) }, { RQ_DRV (RD31) }, | |
{ RQ_DRV (RD52) }, { RQ_DRV (RD53) }, | |
{ RQ_DRV (RD54) }, { RQ_DRV (RA82) }, | |
{ RQ_DRV (RRD40) }, { RQ_DRV (RA72) }, | |
{ RQ_DRV (RA90) }, { RQ_DRV (RA92) }, | |
{ 0 } }; | |
extern int32 int_req[IPL_HLVL]; | |
extern int32 tmr_poll, clk_tps; | |
extern int32 cpu_log; | |
extern UNIT cpu_unit; | |
extern FILE *sim_log; | |
uint16 *rqxb = NULL; /* xfer buffer */ | |
int32 rq_itime = 200; /* init time, except */ | |
int32 rq_itime4 = 10; /* stage 4 */ | |
int32 rq_qtime = 200; /* queue time */ | |
int32 rq_xtime = 500; /* transfer time */ | |
struct mscp_con { | |
uint32 cnum; /* ctrl number */ | |
uint32 ubase; /* unit base */ | |
uint32 sa; /* status, addr */ | |
uint32 saw; /* written data */ | |
uint32 s1dat; /* S1 data */ | |
uint32 comm; /* comm region */ | |
uint32 csta; /* ctrl state */ | |
uint32 perr; /* last error */ | |
uint32 cflgs; /* ctrl flags */ | |
uint32 irq; /* intr request */ | |
uint32 prgi; /* purge int */ | |
uint32 pip; /* poll in progress */ | |
int32 freq; /* free list */ | |
int32 rspq; /* resp list */ | |
uint32 pbsy; /* #busy pkts */ | |
uint32 credits; /* credits */ | |
uint32 hat; /* host timer */ | |
uint32 htmo; /* host timeout */ | |
struct uq_ring cq; /* cmd ring */ | |
struct uq_ring rq; /* rsp ring */ | |
struct rqpkt pak[RQ_NPKTS]; /* packet queue */ | |
}; | |
#define MSC struct mscp_con /* MSCP ctrl context */ | |
DEVICE rq_dev, rqb_dev, rqc_dev,rqd_dev; | |
t_stat rq_rd (int32 *data, int32 PA, int32 access); | |
t_stat rq_wr (int32 data, int32 PA, int32 access); | |
t_stat rq_svc (UNIT *uptr); | |
t_stat rq_tmrsvc (UNIT *uptr); | |
t_stat rq_quesvc (UNIT *uptr); | |
t_stat rq_reset (DEVICE *dptr); | |
t_stat rq_attach (UNIT *uptr, char *cptr); | |
t_stat rq_detach (UNIT *uptr); | |
t_stat rq_boot (int32 unitno, DEVICE *dptr); | |
t_stat rq_set_wlk (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat rq_set_size (UNIT *uptr, int32 val, char *cptr, void *desc); | |
t_stat rq_show_wlk (FILE *st, UNIT *uptr, int32 val, void *desc); | |
t_stat rq_show_ctrl (FILE *st, UNIT *uptr, int32 val, void *desc); | |
t_stat rq_show_unitq (FILE *st, UNIT *uptr, int32 val, void *desc); | |
t_bool rq_step4 (MSC *cp); | |
t_bool rq_mscp (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_abo (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_avl (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_fmt (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_gcs (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_gus (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_onl (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_rw (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_scc (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_suc (MSC *cp, int32 pkt, t_bool q); | |
t_bool rq_plf (MSC *cp, uint32 err); | |
t_bool rq_dte (MSC *cp, UNIT *uptr, uint32 err); | |
t_bool rq_hbe (MSC *cp, UNIT *uptr); | |
t_bool rq_una (MSC *cp, int32 un); | |
t_bool rq_deqf (MSC *cp, int32 *pkt); | |
int32 rq_deqh (MSC *cp, int32 *lh); | |
void rq_enqh (MSC *cp, int32 *lh, int32 pkt); | |
void rq_enqt (MSC *cp, int32 *lh, int32 pkt); | |
t_bool rq_getpkt (MSC *cp, int32 *pkt); | |
t_bool rq_putpkt (MSC *cp, int32 pkt, t_bool qt); | |
t_bool rq_getdesc (MSC *cp, struct uq_ring *ring, uint32 *desc); | |
t_bool rq_putdesc (MSC *cp, struct uq_ring *ring, uint32 desc); | |
int32 rq_rw_valid (MSC *cp, int32 pkt, UNIT *uptr, uint32 cmd); | |
t_bool rq_rw_end (MSC *cp, UNIT *uptr, uint32 flg, uint32 sts); | |
void rq_putr (MSC *cp, int32 pkt, uint32 cmd, uint32 flg, | |
uint32 sts, uint32 lnt, uint32 typ); | |
void rq_putr_unit (MSC *cp, int32 pkt, UNIT *uptr, uint32 lu, t_bool all); | |
void rq_setf_unit (MSC *cp, int32 pkt, UNIT *uptr); | |
void rq_init_int (MSC *cp); | |
void rq_ring_int (MSC *cp, struct uq_ring *ring); | |
t_bool rq_fatal (MSC *cp, uint32 err); | |
UNIT *rq_getucb (MSC *cp, uint32 lu); | |
int32 rq_map_pa (uint32 pa); | |
void rq_setint (MSC *cp); | |
void rq_clrint (MSC *cp); | |
int32 rq_inta (void); | |
/* RQ data structures | |
rq_dev RQ device descriptor | |
rq_unit RQ unit list | |
rq_reg RQ register list | |
rq_mod RQ modifier list | |
*/ | |
MSC rq_ctx = { 0 }; | |
DIB rq_dib = { IOBA_RQ, IOLN_RQ, &rq_rd, &rq_wr, | |
1, IVCL (RQ), 0, { &rq_inta } }; | |
UNIT rq_unit[] = { | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RX50_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RX50)) }, | |
{ UDATA (&rq_tmrsvc, UNIT_DIS, 0) }, | |
{ UDATA (&rq_quesvc, UNIT_DIS, 0) } }; | |
REG rq_reg[] = { | |
{ GRDATA (SA, rq_ctx.sa, RQ_RDX, 16, 0) }, | |
{ GRDATA (SAW, rq_ctx.saw, RQ_RDX, 16, 0) }, | |
{ GRDATA (S1DAT, rq_ctx.s1dat, RQ_RDX, 16, 0) }, | |
{ GRDATA (COMM, rq_ctx.comm, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQBA, rq_ctx.cq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQLNT, rq_ctx.cq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (CQIDX, rq_ctx.cq.idx, RQ_RDX, 8, 2) }, | |
{ GRDATA (RQBA, rq_ctx.rq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (RQLNT, rq_ctx.rq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (RQIDX, rq_ctx.rq.idx, RQ_RDX, 8, 2) }, | |
{ DRDATA (FREE, rq_ctx.freq, 5) }, | |
{ DRDATA (RESP, rq_ctx.rspq, 5) }, | |
{ DRDATA (PBSY, rq_ctx.pbsy, 5) }, | |
{ GRDATA (CFLGS, rq_ctx.cflgs, RQ_RDX, 16, 0) }, | |
{ GRDATA (CSTA, rq_ctx.csta, RQ_RDX, 4, 0) }, | |
{ GRDATA (PERR, rq_ctx.perr, RQ_RDX, 9, 0) }, | |
{ DRDATA (CRED, rq_ctx.credits, 5) }, | |
{ DRDATA (HAT, rq_ctx.hat, 17) }, | |
{ DRDATA (HTMO, rq_ctx.htmo, 17) }, | |
{ FLDATA (PRGI, rq_ctx.prgi, 0), REG_HIDDEN }, | |
{ FLDATA (PIP, rq_ctx.pip, 0), REG_HIDDEN }, | |
{ FLDATA (INT, rq_ctx.irq, 0) }, | |
{ DRDATA (ITIME, rq_itime, 24), PV_LEFT + REG_NZ }, | |
{ DRDATA (I4TIME, rq_itime4, 24), PV_LEFT + REG_NZ }, | |
{ DRDATA (QTIME, rq_qtime, 24), PV_LEFT + REG_NZ }, | |
{ DRDATA (XTIME, rq_xtime, 24), PV_LEFT + REG_NZ }, | |
{ BRDATA (PKTS, rq_ctx.pak, RQ_RDX, 16, RQ_NPKTS * (RQ_PKT_SIZE_W + 1)) }, | |
{ URDATA (CPKT, rq_unit[0].cpkt, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (PKTQ, rq_unit[0].pktq, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (UFLG, rq_unit[0].uf, RQ_RDX, 16, 0, RQ_NUMDR, 0) }, | |
{ GRDATA (DEVADDR, rq_dib.ba, RQ_RDX, 32, 0), REG_HRO }, | |
{ GRDATA (DEVVEC, rq_dib.vec, RQ_RDX, 16, 0), REG_HRO }, | |
{ NULL } }; | |
MTAB rq_mod[] = { | |
{ UNIT_WLK, 0, NULL, "WRITEENABLED", &rq_set_wlk }, | |
{ UNIT_WLK, UNIT_WLK, NULL, "LOCKED", &rq_set_wlk }, | |
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, RQ_SH_RI, "RINGS", NULL, | |
NULL, &rq_show_ctrl, 0 }, | |
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, RQ_SH_FR, "FREEQ", NULL, | |
NULL, &rq_show_ctrl, 0 }, | |
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, RQ_SH_RS, "RESPQ", NULL, | |
NULL, &rq_show_ctrl, 0 }, | |
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, RQ_SH_UN, "UNITQ", NULL, | |
NULL, &rq_show_ctrl, 0 }, | |
{ MTAB_XTD | MTAB_VDV | MTAB_NMO, -1, "ALL", NULL, | |
NULL, &rq_show_ctrl, 0 }, | |
{ MTAB_XTD | MTAB_VUN | MTAB_NMO, 0, "UNITQ", NULL, | |
NULL, &rq_show_unitq, 0 }, | |
{ MTAB_XTD | MTAB_VUN, 0, "WRITE", NULL, | |
NULL, &rq_show_wlk, NULL }, | |
{ UNIT_DTYPE, (RX50_DTYPE << UNIT_V_DTYPE), "RX50", "RX50", &rq_set_size }, | |
{ UNIT_DTYPE, (RX33_DTYPE << UNIT_V_DTYPE), "RX33", "RX33", &rq_set_size }, | |
{ UNIT_DTYPE, (RD31_DTYPE << UNIT_V_DTYPE), "RD31", "RD31", &rq_set_size }, | |
{ UNIT_DTYPE, (RD51_DTYPE << UNIT_V_DTYPE), "RD51", "RD51", &rq_set_size }, | |
{ UNIT_DTYPE, (RD52_DTYPE << UNIT_V_DTYPE), "RD52", "RD52", &rq_set_size }, | |
{ UNIT_DTYPE, (RD53_DTYPE << UNIT_V_DTYPE), "RD53", "RD53", &rq_set_size }, | |
{ UNIT_DTYPE, (RD54_DTYPE << UNIT_V_DTYPE), "RD54", "RD54", &rq_set_size }, | |
{ UNIT_DTYPE, (RA82_DTYPE << UNIT_V_DTYPE), "RA82", "RA82", &rq_set_size }, | |
{ UNIT_DTYPE, (RA72_DTYPE << UNIT_V_DTYPE), "RA72", "RA72", &rq_set_size }, | |
{ UNIT_DTYPE, (RA90_DTYPE << UNIT_V_DTYPE), "RA90", "RA90", &rq_set_size }, | |
{ UNIT_DTYPE, (RA92_DTYPE << UNIT_V_DTYPE), "RA92", "RA92", &rq_set_size }, | |
{ UNIT_DTYPE, (RRD40_DTYPE << UNIT_V_DTYPE), "RRD40", "RRD40", &rq_set_size }, | |
{ UNIT_DTYPE, (RRD40_DTYPE << UNIT_V_DTYPE), NULL, "CDROM", &rq_set_size }, | |
#if defined (VM_PDP11) | |
{ MTAB_XTD|MTAB_VDV, 004, "ADDRESS", "ADDRESS", | |
&set_addr, &show_addr, NULL }, | |
#else | |
{ MTAB_XTD|MTAB_VDV, 004, "ADDRESS", NULL, | |
NULL, &show_addr, NULL }, | |
#endif | |
{ MTAB_XTD|MTAB_VDV, 0, "VECTOR", NULL, | |
NULL, &show_vec, NULL }, | |
{ MTAB_XTD | MTAB_VDV, 0, NULL, "AUTOCONFIGURE", | |
&set_addr_flt, NULL, NULL }, | |
{ 0 } }; | |
DEVICE rq_dev = { | |
"RQ", rq_unit, rq_reg, rq_mod, | |
RQ_NUMDR + 2, RQ_RDX, 31, RQ_AINC, RQ_RDX, RQ_WID, | |
NULL, NULL, &rq_reset, | |
&rq_boot, &rq_attach, &rq_detach, | |
&rq_dib, DEV_FLTA | DEV_DISABLE | DEV_UBUS | DEV_QBUS }; | |
/* RQB data structures | |
rqb_dev RQB device descriptor | |
rqb_unit RQB unit list | |
rqb_reg RQB register list | |
rqb_mod RQB modifier list | |
*/ | |
MSC rqb_ctx = { 1 }; | |
DIB rqb_dib = { IOBA_RQB, IOLN_RQB, &rq_rd, &rq_wr, | |
1, IVCL (RQ), 0, { &rq_inta } }; | |
UNIT rqb_unit[] = { | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_tmrsvc, UNIT_DIS, 0) }, | |
{ UDATA (&rq_quesvc, UNIT_DIS, 0) } }; | |
REG rqb_reg[] = { | |
{ GRDATA (SA, rqb_ctx.sa, RQ_RDX, 16, 0) }, | |
{ GRDATA (SAW, rqb_ctx.saw, RQ_RDX, 16, 0) }, | |
{ GRDATA (S1DAT, rqb_ctx.s1dat, RQ_RDX, 16, 0) }, | |
{ GRDATA (COMM, rqb_ctx.comm, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQBA, rqb_ctx.cq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQLNT, rqb_ctx.cq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (CQIDX, rqb_ctx.cq.idx, RQ_RDX, 8, 2) }, | |
{ GRDATA (RQBA, rqb_ctx.rq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (RQLNT, rqb_ctx.rq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (RQIDX, rqb_ctx.rq.idx, RQ_RDX, 8, 2) }, | |
{ DRDATA (FREE, rqb_ctx.freq, 5) }, | |
{ DRDATA (RESP, rqb_ctx.rspq, 5) }, | |
{ DRDATA (PBSY, rqb_ctx.pbsy, 5) }, | |
{ GRDATA (CFLGS, rqb_ctx.cflgs, RQ_RDX, 16, 0) }, | |
{ GRDATA (CSTA, rqb_ctx.csta, RQ_RDX, 4, 0) }, | |
{ GRDATA (PERR, rqb_ctx.perr, RQ_RDX, 9, 0) }, | |
{ DRDATA (CRED, rqb_ctx.credits, 5) }, | |
{ DRDATA (HAT, rqb_ctx.hat, 17) }, | |
{ DRDATA (HTMO, rqb_ctx.htmo, 17) }, | |
{ FLDATA (PRGI, rqb_ctx.prgi, 0), REG_HIDDEN }, | |
{ FLDATA (PIP, rqb_ctx.pip, 0), REG_HIDDEN }, | |
{ FLDATA (INT, rqb_ctx.irq, 0) }, | |
{ BRDATA (PKTS, rqb_ctx.pak, RQ_RDX, 16, RQ_NPKTS * (RQ_PKT_SIZE_W + 1)) }, | |
{ URDATA (CPKT, rqb_unit[0].cpkt, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (PKTQ, rqb_unit[0].pktq, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (UFLG, rqb_unit[0].uf, RQ_RDX, 16, 0, RQ_NUMDR, 0) }, | |
{ GRDATA (DEVADDR, rqb_dib.ba, RQ_RDX, 32, 0), REG_HRO }, | |
{ GRDATA (DEVVEC, rqb_dib.vec, RQ_RDX, 16, 0), REG_HRO }, | |
{ NULL } }; | |
DEVICE rqb_dev = { | |
"RQB", rqb_unit, rqb_reg, rq_mod, | |
RQ_NUMDR + 2, RQ_RDX, 31, RQ_AINC, RQ_RDX, RQ_WID, | |
NULL, NULL, &rq_reset, | |
&rq_boot, &rq_attach, &rq_detach, | |
&rqb_dib, DEV_FLTA | DEV_DISABLE | DEV_DIS | DEV_UBUS | DEV_QBUS }; | |
/* RQC data structures | |
rqc_dev RQC device descriptor | |
rqc_unit RQC unit list | |
rqc_reg RQC register list | |
rqc_mod RQC modifier list | |
*/ | |
MSC rqc_ctx = { 2 }; | |
DIB rqc_dib = { IOBA_RQC, IOLN_RQC, &rq_rd, &rq_wr, | |
1, IVCL (RQ), 0, { &rq_inta } }; | |
UNIT rqc_unit[] = { | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_tmrsvc, UNIT_DIS, 0) }, | |
{ UDATA (&rq_quesvc, UNIT_DIS, 0) } }; | |
REG rqc_reg[] = { | |
{ GRDATA (SA, rqc_ctx.sa, RQ_RDX, 16, 0) }, | |
{ GRDATA (SAW, rqc_ctx.saw, RQ_RDX, 16, 0) }, | |
{ GRDATA (S1DAT, rqc_ctx.s1dat, RQ_RDX, 16, 0) }, | |
{ GRDATA (COMM, rqc_ctx.comm, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQBA, rqc_ctx.cq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQLNT, rqc_ctx.cq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (CQIDX, rqc_ctx.cq.idx, RQ_RDX, 8, 2) }, | |
{ GRDATA (RQBA, rqc_ctx.rq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (RQLNT, rqc_ctx.rq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (RQIDX, rqc_ctx.rq.idx, RQ_RDX, 8, 2) }, | |
{ DRDATA (FREE, rqc_ctx.freq, 5) }, | |
{ DRDATA (RESP, rqc_ctx.rspq, 5) }, | |
{ DRDATA (PBSY, rqc_ctx.pbsy, 5) }, | |
{ GRDATA (CFLGS, rqc_ctx.cflgs, RQ_RDX, 16, 0) }, | |
{ GRDATA (CSTA, rqc_ctx.csta, RQ_RDX, 4, 0) }, | |
{ GRDATA (PERR, rqc_ctx.perr, RQ_RDX, 9, 0) }, | |
{ DRDATA (CRED, rqc_ctx.credits, 5) }, | |
{ DRDATA (HAT, rqc_ctx.hat, 17) }, | |
{ DRDATA (HTMO, rqc_ctx.htmo, 17) }, | |
{ FLDATA (PRGI, rqc_ctx.prgi, 0), REG_HIDDEN }, | |
{ FLDATA (PIP, rqc_ctx.pip, 0), REG_HIDDEN }, | |
{ FLDATA (INT, rqc_ctx.irq, 0) }, | |
{ BRDATA (PKTS, rqc_ctx.pak, RQ_RDX, 16, RQ_NPKTS * (RQ_PKT_SIZE_W + 1)) }, | |
{ URDATA (CPKT, rqc_unit[0].cpkt, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (PKTQ, rqc_unit[0].pktq, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (UFLG, rqc_unit[0].uf, RQ_RDX, 16, 0, RQ_NUMDR, 0) }, | |
{ GRDATA (DEVADDR, rqc_dib.ba, RQ_RDX, 32, 0), REG_HRO }, | |
{ GRDATA (DEVVEC, rqc_dib.vec, RQ_RDX, 16, 0), REG_HRO }, | |
{ NULL } }; | |
DEVICE rqc_dev = { | |
"RQC", rqc_unit, rqc_reg, rq_mod, | |
RQ_NUMDR + 2, RQ_RDX, 31, RQ_AINC, RQ_RDX, RQ_WID, | |
NULL, NULL, &rq_reset, | |
&rq_boot, &rq_attach, &rq_detach, | |
&rqc_dib, DEV_FLTA | DEV_DISABLE | DEV_DIS | DEV_UBUS | DEV_QBUS }; | |
/* RQD data structures | |
rqd_dev RQ device descriptor | |
rqd_unit RQ unit list | |
rqd_reg RQ register list | |
rqd_mod RQ modifier list | |
*/ | |
MSC rqd_ctx = { 3 }; | |
DIB rqd_dib = { IOBA_RQD, IOLN_RQD, &rq_rd, &rq_wr, | |
1, IVCL (RQ), 0, { &rq_inta } }; | |
UNIT rqd_unit[] = { | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_svc, UNIT_FIX+UNIT_ATTABLE+UNIT_DISABLE+UNIT_ROABLE+ | |
(RD54_DTYPE << UNIT_V_DTYPE), RQ_SIZE (RD54)) }, | |
{ UDATA (&rq_tmrsvc, UNIT_DIS, 0) }, | |
{ UDATA (&rq_quesvc, UNIT_DIS, 0) } }; | |
REG rqd_reg[] = { | |
{ GRDATA (SA, rqd_ctx.sa, RQ_RDX, 16, 0) }, | |
{ GRDATA (SAW, rqd_ctx.saw, RQ_RDX, 16, 0) }, | |
{ GRDATA (S1DAT, rqd_ctx.s1dat, RQ_RDX, 16, 0) }, | |
{ GRDATA (COMM, rqd_ctx.comm, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQBA, rqd_ctx.cq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (CQLNT, rqd_ctx.cq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (CQIDX, rqd_ctx.cq.idx, RQ_RDX, 8, 2) }, | |
{ GRDATA (RQBA, rqd_ctx.rq.ba, RQ_RDX, 22, 0) }, | |
{ GRDATA (RQLNT, rqd_ctx.rq.lnt, RQ_RDX, 8, 2), REG_NZ }, | |
{ GRDATA (RQIDX, rqd_ctx.rq.idx, RQ_RDX, 8, 2) }, | |
{ DRDATA (FREE, rqd_ctx.freq, 5) }, | |
{ DRDATA (RESP, rqd_ctx.rspq, 5) }, | |
{ DRDATA (PBSY, rqd_ctx.pbsy, 5) }, | |
{ GRDATA (CFLGS, rqd_ctx.cflgs, RQ_RDX, 16, 0) }, | |
{ GRDATA (CSTA, rqd_ctx.csta, RQ_RDX, 4, 0) }, | |
{ GRDATA (PERR, rqd_ctx.perr, RQ_RDX, 9, 0) }, | |
{ DRDATA (CRED, rqd_ctx.credits, 5) }, | |
{ DRDATA (HAT, rqd_ctx.hat, 17) }, | |
{ DRDATA (HTMO, rqd_ctx.htmo, 17) }, | |
{ FLDATA (PRGI, rqd_ctx.prgi, 0), REG_HIDDEN }, | |
{ FLDATA (PIP, rqd_ctx.pip, 0), REG_HIDDEN }, | |
{ FLDATA (INT, rqd_ctx.irq, 0) }, | |
{ BRDATA (PKTS, rqd_ctx.pak, RQ_RDX, 16, RQ_NPKTS * (RQ_PKT_SIZE_W + 1)) }, | |
{ URDATA (CPKT, rqd_unit[0].cpkt, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (PKTQ, rqd_unit[0].pktq, 10, 5, 0, RQ_NUMDR, 0) }, | |
{ URDATA (UFLG, rqd_unit[0].uf, RQ_RDX, 16, 0, RQ_NUMDR, 0) }, | |
{ GRDATA (DEVADDR, rqd_dib.ba, RQ_RDX, 32, 0), REG_HRO }, | |
{ GRDATA (DEVVEC, rqd_dib.vec, RQ_RDX, 16, 0), REG_HRO }, | |
{ NULL } }; | |
DEVICE rqd_dev = { | |
"RQD", rqd_unit, rqd_reg, rq_mod, | |
RQ_NUMDR + 2, RQ_RDX, 31, RQ_AINC, RQ_RDX, RQ_WID, | |
NULL, NULL, &rq_reset, | |
&rq_boot, &rq_attach, &rq_detach, | |
&rqd_dib, DEV_FLTA | DEV_DISABLE | DEV_DIS | DEV_UBUS | DEV_QBUS }; | |
static DEVICE *rq_devmap[RQ_NUMCT] = { | |
&rq_dev, &rqb_dev, &rqc_dev, &rqd_dev }; | |
static MSC *rq_ctxmap[RQ_NUMCT] = { | |
&rq_ctx, &rqb_ctx, &rqc_ctx, &rqd_ctx }; | |
/* I/O dispatch routine, I/O addresses 17772150 - 17772152 | |
base + 0 IP read/write | |
base + 2 SA read/write | |
*/ | |
t_stat rq_rd (int32 *data, int32 PA, int32 access) | |
{ | |
int32 cidx = rq_map_pa ((uint32) PA); | |
MSC *cp = rq_ctxmap[cidx]; | |
DEVICE *dptr = rq_devmap[cidx]; | |
if (cidx < 0) return SCPE_IERR; | |
switch ((PA >> 1) & 01) { /* decode PA<1> */ | |
case 0: /* IP */ | |
*data = 0; /* reads zero */ | |
if (cp->csta == CST_S3_PPB) rq_step4 (cp); /* waiting for poll? */ | |
else if (cp->csta == CST_UP) { /* if up */ | |
cp->pip = 1; /* poll host */ | |
sim_activate (dptr->units + RQ_QUEUE, rq_qtime); } | |
break; | |
case 1: /* SA */ | |
*data = cp->sa; | |
break; } | |
return SCPE_OK; | |
} | |
t_stat rq_wr (int32 data, int32 PA, int32 access) | |
{ | |
int32 cidx = rq_map_pa ((uint32) PA); | |
MSC *cp = rq_ctxmap[cidx]; | |
DEVICE *dptr = rq_devmap[cidx]; | |
if (cidx < 0) return SCPE_IERR; | |
switch ((PA >> 1) & 01) { /* decode PA<1> */ | |
case 0: /* IP */ | |
rq_reset (rq_devmap[cidx]); /* init device */ | |
if (DBG_LOG (LOG_RQ)) fprintf (sim_log, | |
">>RQ%c: initialization started\n", 'A' + cp->cnum); | |
break; | |
case 1: /* SA */ | |
cp->saw = data; | |
if (cp->csta < CST_S4) /* stages 1-3 */ | |
sim_activate (dptr->units + RQ_QUEUE, rq_itime); | |
else if (cp->csta == CST_S4) /* stage 4 (fast) */ | |
sim_activate (dptr->units + RQ_QUEUE, rq_itime4); | |
break; } | |
return SCPE_OK; | |
} | |
/* Map physical address to device context */ | |
int32 rq_map_pa (uint32 pa) | |
{ | |
int32 i; | |
DEVICE *dptr; | |
DIB *dibp; | |
for (i = 0; i < RQ_NUMCT; i++) { /* loop thru ctrls */ | |
dptr = rq_devmap[i]; /* get device */ | |
dibp = (DIB *) dptr->ctxt; /* get DIB */ | |
if ((pa >= dibp->ba) && /* in range? */ | |
(pa < (dibp->ba + dibp->lnt))) | |
return i; } /* return ctrl idx */ | |
return -1; | |
} | |
/* Transition to step 4 - init communications region */ | |
t_bool rq_step4 (MSC *cp) | |
{ | |
int32 i, lnt; | |
t_addr base; | |
uint16 zero[SA_COMM_MAX >> 1]; | |
cp->rq.ioff = SA_COMM_RI; /* set intr offset */ | |
cp->rq.ba = cp->comm; /* set rsp q base */ | |
cp->rq.lnt = SA_S1H_RQ (cp->s1dat) << 2; /* get resp q len */ | |
cp->cq.ioff = SA_COMM_CI; /* set intr offset */ | |
cp->cq.ba = cp->comm + cp->rq.lnt; /* set cmd q base */ | |
cp->cq.lnt = SA_S1H_CQ (cp->s1dat) << 2; /* get cmd q len */ | |
cp->cq.idx = cp->rq.idx = 0; /* clear q idx's */ | |
if (cp->prgi) base = cp->comm + SA_COMM_QQ; | |
else base = cp->comm + SA_COMM_CI; | |
lnt = cp->comm + cp->cq.lnt + cp->rq.lnt - base; /* comm lnt */ | |
if (lnt > SA_COMM_MAX) lnt = SA_COMM_MAX; /* paranoia */ | |
for (i = 0; i < (lnt >> 1); i++) zero[i] = 0; /* clr buffer */ | |
if (Map_WriteW (base, lnt, zero, MAP)) /* zero comm area */ | |
return rq_fatal (cp, PE_QWE); /* error? */ | |
cp->sa = SA_S4 | (RQ_UQPM << SA_S4C_V_MOD) | /* send step 4 */ | |
(RQ_SVER << SA_S4C_V_VER); | |
cp->csta = CST_S4; /* set step 4 */ | |
rq_init_int (cp); /* poke host */ | |
return OK; | |
} | |
/* Queue service - invoked when any of the queues (host queue, unit | |
queues, response queue) require servicing. Also invoked during | |
initialization to provide some delay to the next step. | |
Process at most one item off the host queue | |
If the host queue is empty, process at most one item off | |
each unit queue | |
Process at most one item off the response queue | |
If all queues are idle, terminate thread | |
*/ | |
t_stat rq_quesvc (UNIT *uptr) | |
{ | |
int32 i, cnid; | |
int32 pkt = 0; | |
UNIT *nuptr; | |
MSC *cp = rq_ctxmap[uptr->cnum]; | |
DEVICE *dptr = rq_devmap[uptr->cnum]; | |
DIB *dibp = (DIB *) dptr->ctxt; | |
if (cp->csta < CST_UP) { /* still init? */ | |
switch (cp->csta) { /* controller state? */ | |
case CST_S1: /* need S1 reply */ | |
if (cp->saw & SA_S1H_VL) { /* valid? */ | |
if (cp->saw & SA_S1H_WR) { /* wrap? */ | |
cp->sa = cp->saw; /* echo data */ | |
cp->csta = CST_S1_WR; } /* endless loop */ | |
else { | |
cp->s1dat = cp->saw; /* save data */ | |
dibp->vec = VEC_Q + ((cp->s1dat & SA_S1H_VEC) << 2); | |
cp->sa = SA_S2 | SA_S2C_PT | SA_S2C_EC (cp->s1dat); | |
cp->csta = CST_S2; /* now in step 2 */ | |
rq_init_int (cp); } /* intr if req */ | |
} /* end if valid */ | |
break; | |
case CST_S1_WR: /* wrap mode */ | |
cp->sa = cp->saw; /* echo data */ | |
break; | |
case CST_S2: /* need S2 reply */ | |
cp->comm = cp->saw & SA_S2H_CLO; /* get low addr */ | |
cp->prgi = cp->saw & SA_S2H_PI; /* get purge int */ | |
cp->sa = SA_S3 | SA_S3C_EC (cp->s1dat); | |
cp->csta = CST_S3; /* now in step 3 */ | |
rq_init_int (cp); /* intr if req */ | |
break; | |
case CST_S3: /* need S3 reply */ | |
cp->comm = ((cp->saw & SA_S3H_CHI) << 16) | cp->comm; | |
if (cp->saw & SA_S3H_PP) { /* purge/poll test? */ | |
cp->sa = 0; /* put 0 */ | |
cp->csta = CST_S3_PPA; } /* wait for 0 write */ | |
else rq_step4 (cp); /* send step 4 */ | |
break; | |
case CST_S3_PPA: /* need purge test */ | |
if (cp->saw) rq_fatal (cp, PE_PPF); /* data not zero? */ | |
else cp->csta = CST_S3_PPB; /* wait for poll */ | |
break; | |
case CST_S4: /* need S4 reply */ | |
if (cp->saw & SA_S4H_GO) { /* go set? */ | |
if (DBG_LOG (LOG_RQ)) fprintf (sim_log, | |
">>RQ%c: initialization complete\n", 'A' + cp->cnum); | |
cp->csta = CST_UP; /* we're up */ | |
cp->sa = 0; /* clear SA */ | |
sim_activate (dptr->units + RQ_TIMER, tmr_poll * clk_tps); | |
if ((cp->saw & SA_S4H_LF) && cp->perr) rq_plf (cp, cp->perr); | |
cp->perr = 0; } | |
break; } /* end switch */ | |
return SCPE_OK; } /* end if */ | |
if (cp->pip) { /* polling? */ | |
if (!rq_getpkt (cp, &pkt)) return SCPE_OK; /* get host pkt */ | |
if (pkt) { /* got one? */ | |
if (DBG_LOG (LOG_RQ)) { | |
fprintf (sim_log, ">>RQ%c: cmd=%04X, mod=%04X, unit=%d, ", | |
'A' + cp->cnum, cp->pak[pkt].d[CMD_OPC], | |
cp->pak[pkt].d[CMD_MOD], cp->pak[pkt].d[CMD_UN]); | |
fprintf (sim_log, "bc=%04X%04X, ma=%04X%04X, lbn=%04X%04X\n", | |
cp->pak[pkt].d[RW_BCH], cp->pak[pkt].d[RW_BCL], | |
cp->pak[pkt].d[RW_BAH], cp->pak[pkt].d[RW_BAL], | |
cp->pak[pkt].d[RW_LBNH], cp->pak[pkt].d[RW_LBNL]); } | |
if (GETP (pkt, UQ_HCTC, TYP) != UQ_TYP_SEQ) /* seq packet? */ | |
return rq_fatal (cp, PE_PIE); /* no, term thread */ | |
cnid = GETP (pkt, UQ_HCTC, CID); /* get conn ID */ | |
if (cnid == UQ_CID_MSCP) { /* MSCP packet? */ | |
if (!rq_mscp (cp, pkt, TRUE)) return SCPE_OK; } /* proc, q non-seq */ | |
else if (cnid == UQ_CID_DUP) { /* DUP packet? */ | |
rq_putr (cp, pkt, OP_END, 0, ST_CMD | I_OPCD, RSP_LNT, UQ_TYP_SEQ); | |
if (!rq_putpkt (cp, pkt, TRUE)) return SCPE_OK; } /* ill cmd */ | |
else return rq_fatal (cp, PE_ICI); /* no, term thread */ | |
} /* end if pkt */ | |
else cp->pip = 0; /* discontinue poll */ | |
} /* end if pip */ | |
if (!cp->pip) { /* not polling? */ | |
for (i = 0; i < RQ_NUMDR; i++) { /* chk unit q's */ | |
nuptr = dptr->units + i; /* ptr to unit */ | |
if (nuptr->cpkt || (nuptr->pktq == 0)) continue; | |
pkt = rq_deqh (cp, &nuptr->pktq); /* get top of q */ | |
if (!rq_mscp (cp, pkt, FALSE)) return SCPE_OK; } /* process */ | |
} /* end if !pip */ | |
if (cp->rspq) { /* resp q? */ | |
pkt = rq_deqh (cp, &cp->rspq); /* get top of q */ | |
if (!rq_putpkt (cp, pkt, FALSE)) return SCPE_OK; /* send to hst */ | |
} /* end if resp q */ | |
if (pkt) sim_activate (uptr, rq_qtime); /* more to do? */ | |
return SCPE_OK; /* done */ | |
} | |
/* Clock service (roughly once per second) */ | |
t_stat rq_tmrsvc (UNIT *uptr) | |
{ | |
int32 i; | |
UNIT *nuptr; | |
MSC *cp = rq_ctxmap[uptr->cnum]; | |
DEVICE *dptr = rq_devmap[uptr->cnum]; | |
sim_activate (uptr, tmr_poll * clk_tps); /* reactivate */ | |
for (i = 0; i < RQ_NUMDR; i++) { /* poll */ | |
nuptr = dptr->units + i; | |
if ((nuptr->flags & UNIT_ATP) && /* ATN pending? */ | |
(nuptr->flags & UNIT_ATT) && /* still online? */ | |
(cp->cflgs & CF_ATN)) { /* wanted? */ | |
if (!rq_una (cp, i)) return SCPE_OK; } | |
nuptr->flags = nuptr->flags & ~UNIT_ATP; } | |
if ((cp->hat > 0) && (--cp->hat == 0)) /* host timeout? */ | |
rq_fatal (cp, PE_HAT); /* fatal err */ | |
return SCPE_OK; | |
} | |
/* MSCP packet handling */ | |
t_bool rq_mscp (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 sts, cmd = GETP (pkt, CMD_OPC, OPC); | |
switch (cmd) { | |
case OP_ABO: /* abort */ | |
return rq_abo (cp, pkt, q); | |
case OP_AVL: /* avail */ | |
return rq_avl (cp, pkt, q); | |
case OP_FMT: /* format */ | |
return rq_fmt (cp, pkt, q); | |
case OP_GCS: /* get cmd status */ | |
return rq_gcs (cp, pkt, q); | |
case OP_GUS: /* get unit status */ | |
return rq_gus (cp, pkt, q); | |
case OP_ONL: /* online */ | |
return rq_onl (cp, pkt, q); | |
case OP_SCC: /* set ctrl char */ | |
return rq_scc (cp, pkt, q); | |
case OP_SUC: /* set unit char */ | |
return rq_suc (cp, pkt, q); | |
case OP_ACC: /* access */ | |
case OP_CMP: /* compare */ | |
case OP_ERS: /* erase */ | |
case OP_RD: /* read */ | |
case OP_WR: /* write */ | |
return rq_rw (cp, pkt, q); | |
case OP_CCD: /* nops */ | |
case OP_DAP: | |
case OP_FLU: | |
cmd = cmd | OP_END; /* set end flag */ | |
sts = ST_SUC; /* success */ | |
break; | |
default: | |
cmd = OP_END; /* set end op */ | |
sts = ST_CMD | I_OPCD; /* ill op */ | |
break; } | |
rq_putr (cp, pkt, cmd, 0, sts, RSP_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Abort a command - 1st parameter is ref # of cmd to abort */ | |
t_bool rq_abo (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 ref = GETP32 (pkt, ABO_REFL); /* cmd ref # */ | |
int32 tpkt, prv; | |
UNIT *uptr; | |
DEVICE *dptr = rq_devmap[cp->cnum]; | |
tpkt = 0; /* set no mtch */ | |
if (uptr = rq_getucb (cp, lu)) { /* get unit */ | |
if (uptr->cpkt && /* curr pkt? */ | |
(GETP32 (uptr->cpkt, CMD_REFL) == ref)) { /* match ref? */ | |
tpkt = uptr->cpkt; /* save match */ | |
uptr->cpkt = 0; /* gonzo */ | |
sim_cancel (uptr); /* cancel unit */ | |
sim_activate (dptr->units + RQ_QUEUE, rq_qtime); } | |
else if (uptr->pktq && /* head of q? */ | |
(GETP32 (uptr->pktq, CMD_REFL) == ref)) { /* match ref? */ | |
tpkt = uptr->pktq; /* save match */ | |
uptr->pktq = cp->pak[tpkt].link; } /* unlink */ | |
else if (prv = uptr->pktq) { /* srch pkt q */ | |
while (tpkt = cp->pak[prv].link) { /* walk list */ | |
if (GETP32 (tpkt, RSP_REFL) == ref) { /* match? unlink */ | |
cp->pak[prv].link = cp->pak[tpkt].link; | |
break; } } } | |
if (tpkt) { /* found target? */ | |
uint32 tcmd = GETP (tpkt, CMD_OPC, OPC); /* get opcode */ | |
rq_putr (cp, tpkt, tcmd | OP_END, 0, ST_ABO, RSP_LNT, UQ_TYP_SEQ); | |
if (!rq_putpkt (cp, tpkt, TRUE)) return ERR; } | |
} /* end if unit */ | |
rq_putr (cp, pkt, cmd | OP_END, 0, ST_SUC, ABO_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Unit available - set unit status to available - defer if q'd cmds */ | |
t_bool rq_avl (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 sts; | |
UNIT *uptr; | |
if (uptr = rq_getucb (cp, lu)) { /* unit exist? */ | |
if (q && uptr->cpkt) { /* need to queue? */ | |
rq_enqt (cp, &uptr->pktq, pkt); /* do later */ | |
return OK; } | |
uptr->flags = uptr->flags & ~UNIT_ONL; /* not online */ | |
uptr->uf = 0; /* clr flags */ | |
sts = ST_SUC; } /* success */ | |
else sts = ST_OFL; /* offline */ | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, AVL_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Get command status - only interested in active xfr cmd */ | |
t_bool rq_gcs (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 ref = GETP32 (pkt, GCS_REFL); /* ref # */ | |
int32 tpkt; | |
UNIT *uptr; | |
if ((uptr = rq_getucb (cp, lu)) && /* valid lu? */ | |
(tpkt = uptr->cpkt) && /* queued pkt? */ | |
(GETP32 (tpkt, CMD_REFL) == ref) && /* match ref? */ | |
(GETP (tpkt, CMD_OPC, OPC) >= OP_ACC)) { /* rd/wr cmd? */ | |
cp->pak[pkt].d[GCS_STSL] = cp->pak[tpkt].d[RW_WBCL]; | |
cp->pak[pkt].d[GCS_STSH] = cp->pak[tpkt].d[RW_WBCH]; } | |
else { | |
cp->pak[pkt].d[GCS_STSL] = 0; /* return 0 */ | |
cp->pak[pkt].d[GCS_STSH] = 0; } | |
rq_putr (cp, pkt, cmd | OP_END, 0, ST_SUC, GCS_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Get unit status */ | |
t_bool rq_gus (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 dtyp, sts, rbpar; | |
UNIT *uptr; | |
if (cp->pak[pkt].d[CMD_MOD] & MD_NXU) { /* next unit? */ | |
if (lu >= (cp->ubase + RQ_NUMDR)) { /* end of range? */ | |
lu = 0; /* reset to 0 */ | |
cp->pak[pkt].d[RSP_UN] = lu; } } | |
if (uptr = rq_getucb (cp, lu)) { /* unit exist? */ | |
if ((uptr->flags & UNIT_ATT) == 0) /* not attached? */ | |
sts = ST_OFL | SB_OFL_NV; /* offl no vol */ | |
else if (uptr->flags & UNIT_ONL) sts = ST_SUC; /* online */ | |
else sts = ST_AVL; /* avail */ | |
rq_putr_unit (cp, pkt, uptr, lu, FALSE); /* fill unit fields */ | |
dtyp = GET_DTYPE (uptr->flags); /* get drive type */ | |
if (drv_tab[dtyp].rcts) rbpar = 1; /* ctrl bad blk? */ | |
else rbpar = 0; /* fill geom, bblk */ | |
cp->pak[pkt].d[GUS_TRK] = drv_tab[dtyp].sect; | |
cp->pak[pkt].d[GUS_GRP] = drv_tab[dtyp].tpg; | |
cp->pak[pkt].d[GUS_CYL] = drv_tab[dtyp].gpc; | |
cp->pak[pkt].d[GUS_UVER] = 0; | |
cp->pak[pkt].d[GUS_RCTS] = drv_tab[dtyp].rcts; | |
cp->pak[pkt].d[GUS_RBSC] = | |
(rbpar << GUS_RB_V_RBNS) | (rbpar << GUS_RB_V_RCTC); } | |
else sts = ST_OFL; /* offline */ | |
cp->pak[pkt].d[GUS_SHUN] = lu; /* shadowing */ | |
cp->pak[pkt].d[GUS_SHST] = 0; | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, GUS_LNT_D, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Unit online - defer if q'd commands */ | |
t_bool rq_onl (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 sts; | |
UNIT *uptr; | |
if (uptr = rq_getucb (cp, lu)) { /* unit exist? */ | |
if (q && uptr->cpkt) { /* need to queue? */ | |
rq_enqt (cp, &uptr->pktq, pkt); /* do later */ | |
return OK; } | |
if ((uptr->flags & UNIT_ATT) == 0) /* not attached? */ | |
sts = ST_OFL | SB_OFL_NV; /* offl no vol */ | |
else if (uptr->flags & UNIT_ONL) /* already online? */ | |
sts = ST_SUC | SB_SUC_ON; | |
else { /* mark online */ | |
sts = ST_SUC; | |
uptr->flags = uptr->flags | UNIT_ONL; | |
rq_setf_unit (cp, pkt, uptr); } /* hack flags */ | |
rq_putr_unit (cp, pkt, uptr, lu, TRUE); } /* set fields */ | |
else sts = ST_OFL; /* offline */ | |
cp->pak[pkt].d[ONL_SHUN] = lu; /* shadowing */ | |
cp->pak[pkt].d[ONL_SHST] = 0; | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, ONL_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Set controller characteristics */ | |
t_bool rq_scc (MSC *cp, int32 pkt, t_bool q) | |
{ | |
int32 sts, cmd; | |
if (cp->pak[pkt].d[SCC_MSV]) { /* MSCP ver = 0? */ | |
sts = ST_CMD | I_VRSN; /* no, lose */ | |
cmd = 0; } | |
else { sts = ST_SUC; /* success */ | |
cmd = GETP (pkt, CMD_OPC, OPC); /* get opcode */ | |
cp->cflgs = (cp->cflgs & CF_RPL) | /* hack ctrl flgs */ | |
cp->pak[pkt].d[SCC_CFL]; | |
if (cp->htmo = cp->pak[pkt].d[SCC_TMO]) /* set timeout */ | |
cp->htmo = cp->htmo + 2; /* if nz, round up */ | |
cp->pak[pkt].d[SCC_CFL] = cp->cflgs; /* return flags */ | |
cp->pak[pkt].d[SCC_TMO] = RQ_DCTMO; /* ctrl timeout */ | |
cp->pak[pkt].d[SCC_VER] = (RQ_HVER << SCC_VER_V_HVER) | | |
(RQ_SVER << SCC_VER_V_SVER); | |
cp->pak[pkt].d[SCC_CIDA] = 0; /* ctrl ID */ | |
cp->pak[pkt].d[SCC_CIDB] = 0; | |
cp->pak[pkt].d[SCC_CIDC] = 0; | |
cp->pak[pkt].d[SCC_CIDD] = (RQ_CLASS << SCC_CIDD_V_CLS) | | |
(RQ_MODEL << SCC_CIDD_V_MOD); | |
cp->pak[pkt].d[SCC_MBCL] = 0; /* max bc */ | |
cp->pak[pkt].d[SCC_MBCH] = 0; } | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, SCC_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Set unit characteristics - defer if q'd commands */ | |
t_bool rq_suc (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 sts; | |
UNIT *uptr; | |
if (uptr = rq_getucb (cp, lu)) { /* unit exist? */ | |
if (q && uptr->cpkt) { /* need to queue? */ | |
rq_enqt (cp, &uptr->pktq, pkt); /* do later */ | |
return OK; } | |
if ((uptr->flags & UNIT_ATT) == 0) /* not attached? */ | |
sts = ST_OFL | SB_OFL_NV; /* offl no vol */ | |
else { /* avail or onl */ | |
sts = ST_SUC; | |
rq_setf_unit (cp, pkt, uptr); } /* hack flags */ | |
rq_putr_unit (cp, pkt, uptr, lu, TRUE); } /* set fields */ | |
else sts = ST_OFL; /* offline */ | |
cp->pak[pkt].d[ONL_SHUN] = lu; /* shadowing */ | |
cp->pak[pkt].d[ONL_SHST] = 0; | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, SUC_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Format command - floppies only */ | |
t_bool rq_fmt (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 sts; | |
UNIT *uptr; | |
if (uptr = rq_getucb (cp, lu)) { /* unit exist? */ | |
if (q && uptr->cpkt) { /* need to queue? */ | |
rq_enqt (cp, &uptr->pktq, pkt); /* do later */ | |
return OK; } | |
if (GET_DTYPE (uptr->flags) != RX33_DTYPE) /* RX33? */ | |
sts = ST_CMD | I_OPCD; /* no, err */ | |
else if ((cp->pak[pkt].d[FMT_IH] & 0100000) == 0) /* magic bit set? */ | |
sts = ST_CMD | I_FMTI; /* no, err */ | |
else if ((uptr->flags & UNIT_ATT) == 0) /* offline? */ | |
sts = ST_OFL | SB_OFL_NV; /* no vol */ | |
else if (uptr->flags & UNIT_ONL) { /* online? */ | |
uptr->flags = uptr->flags & ~UNIT_ONL; | |
uptr->uf = 0; /* clear flags */ | |
sts = ST_AVL | SB_AVL_INU; } /* avail, in use */ | |
else if (RQ_WPH (uptr)) /* write prot? */ | |
sts = ST_WPR | SB_WPR_HW; /* can't fmt */ | |
else sts = ST_SUC; /*** for now ***/ | |
} | |
else sts = ST_OFL; /* offline */ | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, FMT_LNT, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Data transfer commands */ | |
t_bool rq_rw (MSC *cp, int32 pkt, t_bool q) | |
{ | |
uint32 lu = cp->pak[pkt].d[CMD_UN]; /* unit # */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* opcode */ | |
uint32 sts; | |
UNIT *uptr; | |
if (uptr = rq_getucb (cp, lu)) { /* unit exist? */ | |
if (q && uptr->cpkt) { /* need to queue? */ | |
rq_enqt (cp, &uptr->pktq, pkt); /* do later */ | |
return OK; } | |
sts = rq_rw_valid (cp, pkt, uptr, cmd); /* validity checks */ | |
if (sts == 0) { /* ok? */ | |
uptr->cpkt = pkt; /* op in progress */ | |
cp->pak[pkt].d[RW_WBAL] = cp->pak[pkt].d[RW_BAL]; | |
cp->pak[pkt].d[RW_WBAH] = cp->pak[pkt].d[RW_BAH]; | |
cp->pak[pkt].d[RW_WBCL] = cp->pak[pkt].d[RW_BCL]; | |
cp->pak[pkt].d[RW_WBCH] = cp->pak[pkt].d[RW_BCH]; | |
cp->pak[pkt].d[RW_WBLL] = cp->pak[pkt].d[RW_LBNL]; | |
cp->pak[pkt].d[RW_WBLH] = cp->pak[pkt].d[RW_LBNH]; | |
sim_activate (uptr, rq_xtime); /* activate */ | |
return OK; } } /* done */ | |
else sts = ST_OFL; /* offline */ | |
cp->pak[pkt].d[RW_BCL] = cp->pak[pkt].d[RW_BCH] = 0; /* bad packet */ | |
rq_putr (cp, pkt, cmd | OP_END, 0, sts, RW_LNT_D, UQ_TYP_SEQ); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Validity checks */ | |
int32 rq_rw_valid (MSC *cp, int32 pkt, UNIT *uptr, uint32 cmd) | |
{ | |
uint32 dtyp = GET_DTYPE (uptr->flags); /* get drive type */ | |
uint32 lbn = GETP32 (pkt, RW_LBNL); /* get lbn */ | |
uint32 bc = GETP32 (pkt, RW_BCL); /* get byte cnt */ | |
uint32 maxlbn = drv_tab[dtyp].lbn; /* get max lbn */ | |
if ((uptr->flags & UNIT_ATT) == 0) /* not attached? */ | |
return (ST_OFL | SB_OFL_NV); /* offl no vol */ | |
if ((uptr->flags & UNIT_ONL) == 0) /* not online? */ | |
return ST_AVL; /* only avail */ | |
if ((cmd != OP_ACC) && (cmd != OP_ERS) && /* 'real' xfer */ | |
(cp->pak[pkt].d[RW_BAL] & 1)) /* odd address? */ | |
return (ST_HST | SB_HST_OA); /* host buf odd */ | |
if (bc & 1) return (ST_HST | SB_HST_OC); /* odd byte cnt? */ | |
if (bc & 0xF0000000) return (ST_CMD | I_BCNT); /* 'reasonable' bc? */ | |
if (lbn & 0xF0000000) return (ST_CMD | I_LBN); /* 'reasonable' lbn? */ | |
if (lbn >= maxlbn) { /* accessing RCT? */ | |
if (lbn >= (maxlbn + drv_tab[dtyp].rcts)) /* beyond copy 1? */ | |
return (ST_CMD | I_LBN); /* lbn err */ | |
if (bc != RQ_NUMBY) return (ST_CMD | I_BCNT); }/* bc must be 512 */ | |
else if ((lbn + ((bc + (RQ_NUMBY - 1)) / RQ_NUMBY)) > maxlbn) | |
return (ST_CMD | I_BCNT); /* spiral to RCT */ | |
if ((cmd == OP_WR) || (cmd == OP_ERS)) { /* write op? */ | |
if (lbn >= maxlbn) /* accessing RCT? */ | |
return (ST_CMD | I_LBN); /* lbn err */ | |
if (uptr->uf & UF_WPS) /* swre wlk? */ | |
return (ST_WPR | SB_WPR_SW); | |
if (RQ_WPH (uptr)) /* hwre wlk? */ | |
return (ST_WPR | SB_WPR_HW); } | |
return 0; /* success! */ | |
} | |
/* Unit service for data transfer commands */ | |
t_stat rq_svc (UNIT *uptr) | |
{ | |
MSC *cp = rq_ctxmap[uptr->cnum]; | |
uint32 i, t, err, tbc, abc, wwc; | |
int32 pkt = uptr->cpkt; /* get packet */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* get cmd */ | |
uint32 ba = GETP32 (pkt, RW_WBAL); /* buf addr */ | |
uint32 bc = GETP32 (pkt, RW_WBCL); /* byte count */ | |
uint32 bl = GETP32 (pkt, RW_WBLL); /* block addr */ | |
uint32 da = bl * RQ_NUMBY; /* disk addr */ | |
if ((cp == NULL) || (pkt == 0)) return STOP_RQ; /* what??? */ | |
tbc = (bc > RQ_MAXFR)? RQ_MAXFR: bc; /* trim cnt to max */ | |
if ((uptr->flags & UNIT_ATT) == 0) { /* not attached? */ | |
rq_rw_end (cp, uptr, 0, ST_OFL | SB_OFL_NV); /* offl no vol */ | |
return SCPE_OK; } | |
if (bc == 0) { /* no xfer? */ | |
rq_rw_end (cp, uptr, 0, ST_SUC); /* ok by me... */ | |
return SCPE_OK; } | |
if ((cmd == OP_ERS) || (cmd == OP_WR)) { /* write op? */ | |
if (RQ_WPH (uptr)) { | |
rq_rw_end (cp, uptr, 0, ST_WPR | SB_WPR_HW); | |
return SCPE_OK; } | |
if (uptr->uf & UF_WPS) { | |
rq_rw_end (cp, uptr, 0, ST_WPR | SB_WPR_SW); | |
return SCPE_OK; } } | |
if (cmd == OP_ERS) { /* erase? */ | |
wwc = ((tbc + (RQ_NUMBY - 1)) & ~(RQ_NUMBY - 1)) >> 1; | |
for (i = 0; i < wwc; i++) rqxb[i] = 0; /* clr buf */ | |
err = fseek (uptr->fileref, da, SEEK_SET); /* set pos */ | |
if (!err) fxwrite (rqxb, sizeof (int16), wwc, uptr->fileref); | |
err = ferror (uptr->fileref); } /* end if erase */ | |
else if (cmd == OP_WR) { /* write? */ | |
t = Map_ReadW (ba, tbc, rqxb, MAP); /* fetch buffer */ | |
if (abc = tbc - t) { /* any xfer? */ | |
wwc = ((abc + (RQ_NUMBY - 1)) & ~(RQ_NUMBY - 1)) >> 1; | |
for (i = (abc >> 1); i < wwc; i++) rqxb[i] = 0; | |
err = fseek (uptr->fileref, da, SEEK_SET); | |
if (!err) fxwrite (rqxb, sizeof (int16), wwc, uptr->fileref); | |
err = ferror (uptr->fileref); } | |
if (t) { /* nxm? */ | |
PUTP32 (pkt, RW_WBCL, bc - abc); /* adj bc */ | |
PUTP32 (pkt, RW_WBAL, ba + abc); /* adj ba */ | |
if (rq_hbe (cp, uptr)) /* post err log */ | |
rq_rw_end (cp, uptr, EF_LOG, ST_HST | SB_HST_NXM); | |
return SCPE_OK; } } /* end else wr */ | |
else { err = fseek (uptr->fileref, da, SEEK_SET); /* set pos */ | |
if (!err) { | |
i = fxread (rqxb, sizeof (int16), tbc >> 1, uptr->fileref); | |
for ( ; i < (tbc >> 1); i++) rqxb[i] = 0; /* fill */ | |
err = ferror (uptr->fileref); } | |
if ((cmd == OP_RD) && !err) { /* read? */ | |
if (t = Map_WriteW (ba, tbc, rqxb, MAP)) { /* store, nxm? */ | |
PUTP32 (pkt, RW_WBCL, bc - (tbc - t)); /* adj bc */ | |
PUTP32 (pkt, RW_WBAL, ba + (tbc - t)); /* adj ba */ | |
if (rq_hbe (cp, uptr)) /* post err log */ | |
rq_rw_end (cp, uptr, EF_LOG, ST_HST | SB_HST_NXM); | |
return SCPE_OK; } | |
} | |
else if ((cmd == OP_CMP) && !err) { /* compare? */ | |
uint8 dby, mby; | |
for (i = 0; i < tbc; i++) { /* loop */ | |
if (Map_ReadB (ba + i, 1, &mby, MAP)) { /* fetch, nxm? */ | |
PUTP32 (pkt, RW_WBCL, bc - i); /* adj bc */ | |
PUTP32 (pkt, RW_WBAL, bc - i); /* adj ba */ | |
if (rq_hbe (cp, uptr)) /* post err log */ | |
rq_rw_end (cp, uptr, EF_LOG, ST_HST | SB_HST_NXM); | |
return SCPE_OK; } | |
dby = (rqxb[i >> 1] >> ((i & 1)? 8: 0)) & 0xFF; | |
if (mby != dby) { /* cmp err? */ | |
PUTP32 (pkt, RW_WBCL, bc - i); /* adj bc */ | |
rq_rw_end (cp, uptr, 0, ST_CMP); /* done */ | |
return SCPE_OK; } /* exit */ | |
} /* end for */ | |
} /* end else if */ | |
} /* end else read */ | |
if (err != 0) { /* error? */ | |
if (rq_dte (cp, uptr, ST_DRV)) /* post err log */ | |
rq_rw_end (cp, uptr, EF_LOG, ST_DRV); /* if ok, report err */ | |
perror ("RQ I/O error"); | |
clearerr (uptr->fileref); | |
return SCPE_IOERR; } | |
ba = ba + tbc; /* incr bus addr */ | |
bc = bc - tbc; /* decr byte cnt */ | |
bl = bl + ((tbc + (RQ_NUMBY - 1)) / RQ_NUMBY); /* incr blk # */ | |
PUTP32 (pkt, RW_WBAL, ba); /* update pkt */ | |
PUTP32 (pkt, RW_WBCL, bc); | |
PUTP32 (pkt, RW_WBLL, bl); | |
if (bc) sim_activate (uptr, rq_xtime); /* more? resched */ | |
else rq_rw_end (cp, uptr, 0, ST_SUC); /* done! */ | |
return SCPE_OK; | |
} | |
/* Transfer command complete */ | |
t_bool rq_rw_end (MSC *cp, UNIT *uptr, uint32 flg, uint32 sts) | |
{ | |
int32 pkt = uptr->cpkt; /* packet */ | |
uint32 cmd = GETP (pkt, CMD_OPC, OPC); /* get cmd */ | |
uint32 bc = GETP32 (pkt, RW_BCL); /* init bc */ | |
uint32 wbc = GETP32 (pkt, RW_WBCL); /* work bc */ | |
DEVICE *dptr = rq_devmap[uptr->cnum]; | |
uptr->cpkt = 0; /* done */ | |
PUTP32 (pkt, RW_BCL, bc - wbc); /* bytes processed */ | |
cp->pak[pkt].d[RW_WBAL] = 0; /* clear temps */ | |
cp->pak[pkt].d[RW_WBAH] = 0; | |
cp->pak[pkt].d[RW_WBCL] = 0; | |
cp->pak[pkt].d[RW_WBCH] = 0; | |
cp->pak[pkt].d[RW_WBLL] = 0; | |
cp->pak[pkt].d[RW_WBLH] = 0; | |
rq_putr (cp, pkt, cmd | OP_END, flg, sts, RW_LNT_D, UQ_TYP_SEQ); /* fill pkt */ | |
if (!rq_putpkt (cp, pkt, TRUE)) return ERR; /* send pkt */ | |
if (uptr->pktq) /* more to do? */ | |
sim_activate (dptr->units + RQ_QUEUE, rq_qtime); /* activate thread */ | |
return OK; | |
} | |
/* Data transfer error log packet */ | |
t_bool rq_dte (MSC *cp, UNIT *uptr, uint32 err) | |
{ | |
int32 pkt, tpkt; | |
uint32 lu, dtyp, lbn, ccyl, csurf, csect, t; | |
if ((cp->cflgs & CF_THS) == 0) return OK; /* logging? */ | |
if (!rq_deqf (cp, &pkt)) return ERR; /* get log pkt */ | |
tpkt = uptr->cpkt; /* rw pkt */ | |
lu = cp->pak[tpkt].d[CMD_UN]; /* unit # */ | |
lbn = GETP32 (tpkt, RW_WBLL); /* recent LBN */ | |
dtyp = GET_DTYPE (uptr->flags); /* drv type */ | |
if (drv_tab[dtyp].flgs & RQDF_SDI) t = 0; /* SDI? ovhd @ end */ | |
else t = (drv_tab[dtyp].xbn + drv_tab[dtyp].dbn) / /* ovhd cylinders */ | |
(drv_tab[dtyp].sect * drv_tab[dtyp].surf); | |
ccyl = t + (lbn / drv_tab[dtyp].cyl); /* curr real cyl */ | |
t = lbn % drv_tab[dtyp].cyl; /* trk relative blk */ | |
csurf = t / drv_tab[dtyp].surf; /* curr surf */ | |
csect = t % drv_tab[dtyp].surf; /* curr sect */ | |
cp->pak[pkt].d[ELP_REFL] = cp->pak[tpkt].d[CMD_REFL]; /* copy cmd ref */ | |
cp->pak[pkt].d[ELP_REFH] = cp->pak[tpkt].d[CMD_REFH]; | |
cp->pak[pkt].d[ELP_UN] = lu; /* copy unit */ | |
cp->pak[pkt].d[ELP_SEQ] = 0; /* clr seq # */ | |
cp->pak[pkt].d[DTE_CIDA] = 0; /* ctrl ID */ | |
cp->pak[pkt].d[DTE_CIDB] = 0; | |
cp->pak[pkt].d[DTE_CIDC] = 0; | |
cp->pak[pkt].d[DTE_CIDD] = (RQ_CLASS << DTE_CIDD_V_CLS) | | |
(RQ_MODEL << DTE_CIDD_V_MOD); | |
cp->pak[pkt].d[DTE_VER] = (RQ_HVER << DTE_VER_V_HVER) | | |
(RQ_SVER << DTE_VER_V_SVER); | |
cp->pak[pkt].d[DTE_MLUN] = lu; /* MLUN */ | |
cp->pak[pkt].d[DTE_UIDA] = lu; /* unit ID */ | |
cp->pak[pkt].d[DTE_UIDB] = 0; | |
cp->pak[pkt].d[DTE_UIDC] = 0; | |
cp->pak[pkt].d[DTE_UIDD] = (UID_DISK << DTE_UIDD_V_CLS) | | |
(drv_tab[dtyp].mod << DTE_UIDD_V_MOD); | |
cp->pak[pkt].d[DTE_UVER] = 0; /* unit versn */ | |
cp->pak[pkt].d[DTE_SCYL] = ccyl; /* cylinder */ | |
cp->pak[pkt].d[DTE_VSNL] = 01234 + lu; /* vol ser # */ | |
cp->pak[pkt].d[DTE_VSNH] = 0; | |
cp->pak[pkt].d[DTE_D1] = 0; | |
cp->pak[pkt].d[DTE_D2] = csect << DTE_D2_V_SECT; /* geometry */ | |
cp->pak[pkt].d[DTE_D3] = (ccyl << DTE_D3_V_CYL) | | |
(csurf << DTE_D3_V_SURF); | |
rq_putr (cp, pkt, FM_SDE, LF_SNR, err, DTE_LNT, UQ_TYP_DAT); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Host bus error log packet */ | |
t_bool rq_hbe (MSC *cp, UNIT *uptr) | |
{ | |
int32 pkt, tpkt; | |
if ((cp->cflgs & CF_THS) == 0) return OK; /* logging? */ | |
if (!rq_deqf (cp, &pkt)) return ERR; /* get log pkt */ | |
tpkt = uptr->cpkt; /* rw pkt */ | |
cp->pak[pkt].d[ELP_REFL] = cp->pak[tpkt].d[CMD_REFL]; /* copy cmd ref */ | |
cp->pak[pkt].d[ELP_REFH] = cp->pak[tpkt].d[CMD_REFH]; | |
cp->pak[pkt].d[ELP_UN] = cp->pak[tpkt].d[CMD_UN]; /* copy unit */ | |
cp->pak[pkt].d[ELP_SEQ] = 0; /* clr seq # */ | |
cp->pak[pkt].d[HBE_CIDA] = 0; /* ctrl ID */ | |
cp->pak[pkt].d[HBE_CIDB] = 0; | |
cp->pak[pkt].d[HBE_CIDC] = 0; | |
cp->pak[pkt].d[HBE_CIDD] = (RQ_CLASS << DTE_CIDD_V_CLS) | | |
(RQ_MODEL << DTE_CIDD_V_MOD); | |
cp->pak[pkt].d[HBE_VER] = (RQ_HVER << HBE_VER_V_HVER) | /* versions */ | |
(RQ_SVER << HBE_VER_V_SVER); | |
cp->pak[pkt].d[HBE_RSV] = 0; | |
cp->pak[pkt].d[HBE_BADL] = cp->pak[tpkt].d[RW_WBAL]; /* bad addr */ | |
cp->pak[pkt].d[HBE_BADH] = cp->pak[tpkt].d[RW_WBAH]; | |
rq_putr (cp, pkt, FM_BAD, LF_SNR, ST_HST | SB_HST_NXM, HBE_LNT, UQ_TYP_DAT); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Port last failure error log packet */ | |
t_bool rq_plf (MSC *cp, uint32 err) | |
{ | |
int32 pkt; | |
if (!rq_deqf (cp, &pkt)) return ERR; /* get log pkt */ | |
cp->pak[pkt].d[ELP_REFL] = 0; /* ref = 0 */ | |
cp->pak[pkt].d[ELP_REFH] = 0; | |
cp->pak[pkt].d[ELP_UN] = 0; /* no unit */ | |
cp->pak[pkt].d[ELP_SEQ] = 0; /* no seq */ | |
cp->pak[pkt].d[PLF_CIDA] = 0; /* cntl ID */ | |
cp->pak[pkt].d[PLF_CIDB] = 0; | |
cp->pak[pkt].d[PLF_CIDC] = 0; | |
cp->pak[pkt].d[PLF_CIDD] = (RQ_CLASS << PLF_CIDD_V_CLS) | | |
(RQ_MODEL << PLF_CIDD_V_MOD); | |
cp->pak[pkt].d[PLF_VER] = (RQ_SVER << PLF_VER_V_SVER) | | |
(RQ_HVER << PLF_VER_V_HVER); | |
cp->pak[pkt].d[PLF_ERR] = err; | |
rq_putr (cp, pkt, FM_CNT, LF_SNR, ST_CNT, PLF_LNT, UQ_TYP_DAT); | |
cp->pak[pkt].d[UQ_HCTC] |= (UQ_CID_DIAG << UQ_HCTC_V_CID); | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* Unit now available attention packet */ | |
int32 rq_una (MSC *cp, int32 un) | |
{ | |
int32 pkt; | |
uint32 lu = cp->ubase + un; | |
UNIT *uptr = rq_getucb (cp, lu); | |
if (uptr == NULL) return OK; /* huh? */ | |
if (!rq_deqf (cp, &pkt)) return ERR; /* get log pkt */ | |
cp->pak[pkt].d[RSP_REFL] = 0; /* ref = 0 */ | |
cp->pak[pkt].d[RSP_REFH] = 0; | |
cp->pak[pkt].d[RSP_UN] = lu; | |
cp->pak[pkt].d[RSP_RSV] = 0; | |
rq_putr_unit (cp, pkt, uptr, lu, FALSE); /* fill unit fields */ | |
rq_putr (cp, pkt, OP_AVA, 0, 0, UNA_LNT, UQ_TYP_SEQ); /* fill std fields */ | |
return rq_putpkt (cp, pkt, TRUE); | |
} | |
/* List handling | |
rq_deqf - dequeue head of free list (fatal err if none) | |
rq_deqh - dequeue head of list | |
rq_enqh - enqueue at head of list | |
rq_enqt - enqueue at tail of list | |
*/ | |
t_bool rq_deqf (MSC *cp, int32 *pkt) | |
{ | |
if (cp->freq == 0) return rq_fatal (cp, PE_NSR); /* no free pkts?? */ | |
cp->pbsy = cp->pbsy + 1; /* cnt busy pkts */ | |
*pkt = cp->freq; /* head of list */ | |
cp->freq = cp->pak[cp->freq].link; /* next */ | |
return OK; | |
} | |
int32 rq_deqh (MSC *cp, int32 *lh) | |
{ | |
int32 ptr = *lh; /* head of list */ | |
if (ptr) *lh = cp->pak[ptr].link; /* next */ | |
return ptr; | |
} | |
void rq_enqh (MSC *cp, int32 *lh, int32 pkt) | |
{ | |
if (pkt == 0) return; /* any pkt? */ | |
cp->pak[pkt].link = *lh; /* link is old lh */ | |
*lh = pkt; /* pkt is new lh */ | |
return; | |
} | |
void rq_enqt (MSC *cp, int32 *lh, int32 pkt) | |
{ | |
if (pkt == 0) return; /* any pkt? */ | |
cp->pak[pkt].link = 0; /* it will be tail */ | |
if (*lh == 0) *lh = pkt; /* if empty, enqh */ | |
else { uint32 ptr = *lh; /* chase to end */ | |
while (cp->pak[ptr].link) ptr = cp->pak[ptr].link; | |
cp->pak[ptr].link = pkt; } /* enq at tail */ | |
return; | |
} | |
/* Packet and descriptor handling */ | |
/* Get packet from command ring */ | |
t_bool rq_getpkt (MSC *cp, int32 *pkt) | |
{ | |
uint32 desc; | |
t_addr addr; | |
if (!rq_getdesc (cp, &cp->cq, &desc)) return ERR; /* get cmd desc */ | |
if ((desc & UQ_DESC_OWN) == 0) { /* none */ | |
*pkt = 0; /* pkt = 0 */ | |
return OK; } /* no error */ | |
if (!rq_deqf (cp, pkt)) return ERR; /* get cmd pkt */ | |
cp->hat = 0; /* dsbl hst timer */ | |
addr = desc & UQ_ADDR; /* get Q22 addr */ | |
if (Map_ReadW (addr + UQ_HDR_OFF, RQ_PKT_SIZE, cp->pak[*pkt].d, MAP)) | |
return rq_fatal (cp, PE_PRE); /* read pkt */ | |
return rq_putdesc (cp, &cp->cq, desc); /* release desc */ | |
} | |
/* Put packet to response ring - note the clever hack about credits. | |
The controller sends all its credits to the host. Thereafter, it | |
supplies one credit for every response packet sent over. Simple! | |
*/ | |
t_bool rq_putpkt (MSC *cp, int32 pkt, t_bool qt) | |
{ | |
uint32 desc, lnt, cr; | |
t_addr addr; | |
DEVICE *dptr = rq_devmap[cp->cnum]; | |
if (pkt == 0) return OK; /* any packet? */ | |
if (DBG_LOG (LOG_RQ)) fprintf (sim_log, | |
">>RQ%c: rsp=%04X, sts=%04X\n", 'A' + cp->cnum, | |
cp->pak[pkt].d[RSP_OPF], cp->pak[pkt].d[RSP_STS]); | |
if (!rq_getdesc (cp, &cp->rq, &desc)) return ERR; /* get rsp desc */ | |
if ((desc & UQ_DESC_OWN) == 0) { /* not valid? */ | |
if (qt) rq_enqt (cp, &cp->rspq, pkt); /* normal? q tail */ | |
else rq_enqh (cp, &cp->rspq, pkt); /* resp q call */ | |
sim_activate (dptr->units + RQ_QUEUE, rq_qtime); /* activate q thrd */ | |
return OK; } | |
addr = desc & UQ_ADDR; /* get Q22 addr */ | |
lnt = cp->pak[pkt].d[UQ_HLNT] - UQ_HDR_OFF; /* size, with hdr */ | |
if ((GETP (pkt, UQ_HCTC, TYP) == UQ_TYP_SEQ) && /* seq packet? */ | |
(GETP (pkt, CMD_OPC, OPC) & OP_END)) { /* end packet? */ | |
cr = (cp->credits >= 14)? 14: cp->credits; /* max 14 credits */ | |
cp->credits = cp->credits - cr; /* decr credits */ | |
cp->pak[pkt].d[UQ_HCTC] |= ((cr + 1) << UQ_HCTC_V_CR); } | |
if (Map_WriteW (addr + UQ_HDR_OFF, lnt, cp->pak[pkt].d, MAP)) | |
return rq_fatal (cp, PE_PWE); /* write pkt */ | |
rq_enqh (cp, &cp->freq, pkt); /* pkt is free */ | |
cp->pbsy = cp->pbsy - 1; /* decr busy cnt */ | |
if (cp->pbsy == 0) cp->hat = cp->htmo; /* idle? strt hst tmr */ | |
return rq_putdesc (cp, &cp->rq, desc); /* release desc */ | |
} | |
/* Get a descriptor from the host */ | |
t_bool rq_getdesc (MSC *cp, struct uq_ring *ring, uint32 *desc) | |
{ | |
t_addr addr = ring->ba + ring->idx; | |
uint16 d[2]; | |
if (Map_ReadW (addr, 4, d, MAP)) /* fetch desc */ | |
return rq_fatal (cp, PE_QRE); /* err? dead */ | |
*desc = ((uint32) d[0]) | (((uint32) d[1]) << 16); | |
return OK; | |
} | |
/* Return a descriptor to the host, clearing owner bit | |
If rings transitions from "empty" to "not empty" or "full" to | |
"not full", and interrupt bit was set, interrupt the host. | |
Actually, test whether previous ring entry was owned by host. | |
*/ | |
t_bool rq_putdesc (MSC *cp, struct uq_ring *ring, uint32 desc) | |
{ | |
uint32 prvd, newd = (desc & ~UQ_DESC_OWN) | UQ_DESC_F; | |
t_addr prva, addr = ring->ba + ring->idx; | |
uint16 d[2]; | |
d[0] = newd & 0xFFFF; /* 32b to 16b */ | |
d[1] = (newd >> 16) & 0xFFFF; | |
if (Map_WriteW (addr, 4, d, MAP)) /* store desc */ | |
return rq_fatal (cp, PE_QWE); /* err? dead */ | |
if (desc & UQ_DESC_F) { /* was F set? */ | |
if (ring->lnt <= 4) rq_ring_int (cp, ring); /* lnt = 1? intr */ | |
else { /* prv desc */ | |
prva = ring->ba + ((ring->idx - 4) & (ring->lnt - 1)); | |
if (Map_ReadW (prva, 4, d, MAP)) /* read prv */ | |
return rq_fatal (cp, PE_QRE); | |
prvd = ((uint32) d[0]) | (((uint32) d[1]) << 16); | |
if (prvd & UQ_DESC_OWN) rq_ring_int (cp, ring); } } | |
ring->idx = (ring->idx + 4) & (ring->lnt - 1); | |
return OK; | |
} | |
/* Get unit descriptor for logical unit */ | |
UNIT *rq_getucb (MSC *cp, uint32 lu) | |
{ | |
DEVICE *dptr = rq_devmap[cp->cnum]; | |
UNIT *uptr; | |
if ((lu < cp->ubase) || (lu >= (cp->ubase + RQ_NUMDR))) | |
return NULL; | |
uptr = dptr->units + (lu % RQ_NUMDR); | |
if (uptr->flags & UNIT_DIS) return NULL; | |
return uptr; | |
} | |
/* Hack unit flags */ | |
void rq_setf_unit (MSC *cp, int32 pkt, UNIT *uptr) | |
{ | |
uptr->uf = cp->pak[pkt].d[ONL_UFL] & UF_MSK; /* settable flags */ | |
if ((cp->pak[pkt].d[CMD_MOD] & MD_SWP) && /* swre wrp enb? */ | |
(cp->pak[pkt].d[ONL_UFL] & UF_WPS)) /* swre wrp on? */ | |
uptr->uf = uptr->uf | UF_WPS; /* simon says... */ | |
return; | |
} | |
/* Unit response fields */ | |
void rq_putr_unit (MSC *cp, int32 pkt, UNIT *uptr, uint32 lu, t_bool all) | |
{ | |
uint32 dtyp = GET_DTYPE (uptr->flags); /* get drive type */ | |
cp->pak[pkt].d[ONL_MLUN] = lu; /* unit */ | |
cp->pak[pkt].d[ONL_UFL] = uptr->uf | UF_RPL | RQ_WPH (uptr) | RQ_RMV (uptr); | |
cp->pak[pkt].d[ONL_RSVL] = 0; /* reserved */ | |
cp->pak[pkt].d[ONL_RSVH] = 0; | |
cp->pak[pkt].d[ONL_UIDA] = lu; /* UID low */ | |
cp->pak[pkt].d[ONL_UIDB] = 0; | |
cp->pak[pkt].d[ONL_UIDC] = 0; | |
cp->pak[pkt].d[ONL_UIDD] = (UID_DISK << ONL_UIDD_V_CLS) | | |
(drv_tab[dtyp].mod << ONL_UIDD_V_MOD); /* UID hi */ | |
PUTP32 (pkt, ONL_MEDL, drv_tab[dtyp].med); /* media type */ | |
if (all) { /* if long form */ | |
PUTP32 (pkt, ONL_SIZL, drv_tab[dtyp].lbn); /* user LBNs */ | |
cp->pak[pkt].d[ONL_VSNL] = 01234 + lu; /* vol serial # */ | |
cp->pak[pkt].d[ONL_VSNH] = 0; } | |
return; | |
} | |
/* UQ_HDR and RSP_OP fields */ | |
void rq_putr (MSC *cp, int32 pkt, uint32 cmd, uint32 flg, | |
uint32 sts, uint32 lnt, uint32 typ) | |
{ | |
cp->pak[pkt].d[RSP_OPF] = (cmd << RSP_OPF_V_OPC) | /* set cmd, flg */ | |
(flg << RSP_OPF_V_FLG); | |
cp->pak[pkt].d[RSP_STS] = sts; | |
cp->pak[pkt].d[UQ_HLNT] = lnt; /* length */ | |
cp->pak[pkt].d[UQ_HCTC] = (typ << UQ_HCTC_V_TYP) | /* type, cid */ | |
(UQ_CID_MSCP << UQ_HCTC_V_CID); /* clr credits */ | |
return; | |
} | |
/* Post interrupt during init */ | |
void rq_init_int (MSC *cp) | |
{ | |
if (cp->s1dat & (SA_S1H_IE | SA_S1H_VEC)) rq_setint (cp); | |
return; | |
} | |
/* Post interrupt during putpkt - note that NXMs are ignored! */ | |
void rq_ring_int (MSC *cp, struct uq_ring *ring) | |
{ | |
t_addr iadr = cp->comm + ring->ioff; /* addr intr wd */ | |
uint16 flag = 1; | |
Map_WriteW (iadr, 2, &flag, MAP); /* write flag */ | |
if (cp->s1dat & SA_S1H_VEC) rq_setint (cp); /* if enb, intr */ | |
return; | |
} | |
/* Set RQ interrupt */ | |
void rq_setint (MSC *cp) | |
{ | |
cp->irq = 1; /* set ctrl int */ | |
SET_INT (RQ); /* set master int */ | |
return; | |
} | |
/* Clear RQ interrupt */ | |
void rq_clrint (MSC *cp) | |
{ | |
int32 i; | |
MSC *ncp; | |
cp->irq = 0; /* clr ctrl int */ | |
for (i = 0; i < RQ_NUMCT; i++) { /* loop thru ctrls */ | |
ncp = rq_ctxmap[i]; /* get context */ | |
if (ncp->irq) { /* other interrupt? */ | |
SET_INT (RQ); /* yes, set master */ | |
return; } } | |
CLR_INT (RQ); /* no, clr master */ | |
return; | |
} | |
/* Return interrupt vector */ | |
int32 rq_inta (void) | |
{ | |
int32 i; | |
MSC *ncp; | |
DEVICE *dptr; | |
DIB *dibp; | |
for (i = 0; i < RQ_NUMCT; i++) { /* loop thru ctrl */ | |
ncp = rq_ctxmap[i]; /* get context */ | |
if (ncp->irq) { /* ctrl int set? */ | |
dptr = rq_devmap[i]; /* get device */ | |
dibp = (DIB *) dptr->ctxt; /* get DIB */ | |
rq_clrint (ncp); /* clear int req */ | |
return dibp->vec; } } /* return vector */ | |
return 0; /* no intr req */ | |
} | |
/* Fatal error */ | |
t_bool rq_fatal (MSC *cp, uint32 err) | |
{ | |
if (DBG_LOG (LOG_RQ)) | |
fprintf (sim_log, ">>RQ%c: fatal err=%X\n", 'A' + cp->cnum, err); | |
rq_reset (rq_devmap[cp->cnum]); /* reset device */ | |
cp->sa = SA_ER | err; /* SA = dead code */ | |
cp->csta = CST_DEAD; /* state = dead */ | |
cp->perr = err; /* save error */ | |
return ERR; | |
} | |
/* Set/clear hardware write lock */ | |
t_stat rq_set_wlk (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
uint32 dtyp = GET_DTYPE (uptr->flags); /* get drive type */ | |
if (drv_tab[dtyp].flgs & RQDF_RO) return SCPE_NOFNC; /* not on read only */ | |
return SCPE_OK; | |
} | |
/* Show write lock status */ | |
t_stat rq_show_wlk (FILE *st, UNIT *uptr, int32 val, void *desc) | |
{ | |
uint32 dtyp = GET_DTYPE (uptr->flags); /* get drive type */ | |
if (drv_tab[dtyp].flgs & RQDF_RO) fprintf (st, "read only"); | |
else if (uptr->flags & UNIT_WPRT) fprintf (st, "write locked"); | |
else fprintf (st, "write enabled"); | |
return SCPE_OK; | |
} | |
/* Change unit size */ | |
t_stat rq_set_size (UNIT *uptr, int32 val, char *cptr, void *desc) | |
{ | |
uint32 dtyp = GET_DTYPE (val); | |
if (uptr->flags & UNIT_ATT) return SCPE_ALATT; | |
uptr->capac = drv_tab[dtyp].lbn * RQ_NUMBY; | |
return SCPE_OK; | |
} | |
/* Device attach */ | |
t_stat rq_attach (UNIT *uptr, char *cptr) | |
{ | |
int32 dtyp = GET_DTYPE (uptr->flags); | |
MSC *cp = rq_ctxmap[uptr->cnum]; | |
t_stat r; | |
uptr->capac = drv_tab[dtyp].lbn * RQ_NUMBY; | |
r = attach_unit (uptr, cptr); | |
if (r != SCPE_OK) return r; | |
if (cp->csta == CST_UP) uptr->flags = uptr->flags | UNIT_ATP; | |
return SCPE_OK; | |
} | |
/* Device detach */ | |
t_stat rq_detach (UNIT *uptr) | |
{ | |
t_stat r; | |
r = detach_unit (uptr); /* detach unit */ | |
if (r != SCPE_OK) return r; | |
uptr->flags = uptr->flags & ~(UNIT_ONL | UNIT_ATP); /* clr onl, atn pend */ | |
uptr->uf = 0; /* clr unit flgs */ | |
return SCPE_OK; | |
} | |
/* Device reset */ | |
t_stat rq_reset (DEVICE *dptr) | |
{ | |
int32 i, j, cidx; | |
UNIT *uptr; | |
MSC *cp; | |
DIB *dibp = (DIB *) dptr->ctxt; | |
for (i = 0, cidx = -1; i < RQ_NUMCT; i++) { /* find ctrl num */ | |
if (rq_devmap[i] == dptr) cidx = i; } | |
if (cidx < 0) return SCPE_IERR; /* not found??? */ | |
cp = rq_ctxmap[cidx]; /* get context */ | |
cp->cnum = cidx; /* init index */ | |
cp->ubase = cidx * RQ_NUMDR; /* init unit base */ | |
cp->csta = CST_S1; /* init stage 1 */ | |
cp->s1dat = 0; /* no S1 data */ | |
dibp->vec = 0; /* no vector */ | |
cp->comm = 0; /* no comm region */ | |
cp->sa = SA_S1 | SA_S1C_Q22 | SA_S1C_DI | SA_S1C_MP; /* init SA val */ | |
cp->cflgs = CF_RPL; /* ctrl flgs off */ | |
cp->htmo = RQ_DHTMO; /* default timeout */ | |
cp->hat = cp->htmo; /* default timer */ | |
cp->cq.ba = cp->cq.lnt = cp->cq.idx = 0; /* clr cmd ring */ | |
cp->rq.ba = cp->rq.lnt = cp->rq.idx = 0; /* clr rsp ring */ | |
cp->credits = (RQ_NPKTS / 2) - 1; /* init credits */ | |
cp->freq = 1; /* init free list */ | |
for (i = 0; i < RQ_NPKTS; i++) { /* all pkts free */ | |
if (i) cp->pak[i].link = (i + 1) & RQ_M_NPKTS; | |
else cp->pak[i].link = 0; | |
for (j = 0; j < RQ_PKT_SIZE_W; j++) cp->pak[i].d[j] = 0; } | |
cp->rspq = 0; /* no q'd rsp pkts */ | |
cp->pbsy = 0; /* all pkts free */ | |
cp->pip = 0; /* not polling */ | |
rq_clrint (cp); /* clr intr req */ | |
for (i = 0; i < (RQ_NUMDR + 2); i++) { /* init units */ | |
uptr = dptr->units + i; | |
sim_cancel (uptr); /* clr activity */ | |
uptr->cnum = cidx; /* set ctrl index */ | |
uptr->flags = uptr->flags & ~(UNIT_ONL | UNIT_ATP); | |
uptr->uf = 0; /* clr unit flags */ | |
uptr->cpkt = uptr->pktq = 0; } /* clr pkt q's */ | |
if (rqxb == NULL) rqxb = calloc (RQ_MAXFR >> 1, sizeof (unsigned int16)); | |
if (rqxb == NULL) return SCPE_MEM; | |
return auto_config (0, 0); /* run autoconfig */ | |
} | |
/* Device bootstrap */ | |
#if defined (VM_PDP11) | |
#define BOOT_START 016000 /* start */ | |
#define BOOT_ENTRY (BOOT_START + 002) /* entry */ | |
#define BOOT_UNIT (BOOT_START + 010) /* unit number */ | |
#define BOOT_CSR (BOOT_START + 014) /* CSR */ | |
#define BOOT_LEN (sizeof (boot_rom) / sizeof (int16)) | |
static const uint16 boot_rom[] = { | |
0042125, /* st: "UD" */ | |
/* Four step init process */ | |
0012706, 0016000, /* mov #st,sp */ | |
0012700, 0000000, /* mov #unit,r0 */ | |
0012701, 0172150, /* mov #172150, r1 ; ip addr */ | |
0012704, 0016162, /* mov #it, r4 */ | |
0012705, 0004000, /* mov #4000,r5 ; s1 mask */ | |
0010102, /* mov r1,r2 */ | |
0005022, /* clr (r2)+ ; init */ | |
0005712, /* 10$: tst (r2) ; err? */ | |
0100001, /* bpl 20$ */ | |
0000000, /* halt */ | |
0030512, /* 20$: bit r5,(r2) ; step set? */ | |
0001773, /* beq 10$ ; wait */ | |
0012412, /* mov (r4)+,(r2) ; send next */ | |
0006305, /* asl r5 ; next mask */ | |
0100370, /* bpl 10$ ; s4 done? */ | |
/* Send ONL, READ commands */ | |
0105714, /* 30$: tstb (r4) ; end tbl? */ | |
0001434, /* beq done ; 0 = yes */ | |
0012702, 0007000, /* mov #rpkt-4,r2 ; clr pkts */ | |
0005022, /* 40$: clr (r2)+ */ | |
0020227, 0007204, /* cmp r2,#comm */ | |
0103774, /* blo 40$ */ | |
0112437, 0007100, /* movb (r4)+,cpkt-4 ; set lnt */ | |
0110037, 0007110, /* movb r0,cpkt+4 ; set unit */ | |
0112437, 0007114, /* movb (r4)+,cpkt+10 ; set op */ | |
0112437, 0007121, /* movb (r4)+,cpkt+15 ; set param */ | |
0012722, 0007004, /* mov #rpkt,(r2)+ ; rq desc */ | |
0010522, /* mov r5,(r2)+ ; rq own */ | |
0012722, 0007104, /* mov #ckpt,(r2)+ ; cq desc */ | |
0010512, /* mov r5,(r2) ; cq own */ | |
0024242, /* cmp -(r2),-(r2) ; back up */ | |
0005711, /* tst (r1) ; wake ctrl */ | |
0005712, /* 50$: tst (r2) ; rq own clr? */ | |
0100776, /* bmi 50$ ; wait */ | |
0005737, 0007016, /* tst rpkt+12 ; stat ok? */ | |
0001743, /* beq 30$ ; next cmd */ | |
0000000, /* halt */ | |
/* Boot block read in, jump to 0 */ | |
0005011, /* done: clr (r1) ; for M+ */ | |
0005003, /* clr r3 */ | |
0012704, BOOT_START+020, /* mov #st+020,r4 */ | |
0005005, /* clr r5 */ | |
0005007, /* clr pc */ | |
/* Data */ | |
0100000, /* it: no ints, ring sz = 1 */ | |
0007204, /* .word comm */ | |
0000000, /* .word 0 */ | |
0000001, /* .word 1 */ | |
0004420, /* .byte 20,11 */ | |
0020000, /* .byte 0,40 */ | |
0001041, /* .byte 41,2 */ | |
0000000 | |
}; | |
t_stat rq_boot (int32 unitno, DEVICE *dptr) | |
{ | |
int32 i; | |
extern int32 saved_PC; | |
extern uint16 *M; | |
DIB *dibp = (DIB *) dptr->ctxt; | |
for (i = 0; i < BOOT_LEN; i++) M[(BOOT_START >> 1) + i] = boot_rom[i]; | |
M[BOOT_UNIT >> 1] = unitno & 3; | |
M[BOOT_CSR >> 1] = dibp->ba & DMASK; | |
saved_PC = BOOT_ENTRY; | |
return SCPE_OK; | |
} | |
#else | |
t_stat rq_boot (int32 unitno, DEVICE *dptr) | |
{ | |
return SCPE_NOFNC; | |
} | |
#endif | |
/* Special show commands */ | |
void rq_show_ring (FILE *st, struct uq_ring *rp) | |
{ | |
uint32 i, desc; | |
uint16 d[2]; | |
#if defined (VM_PDP11) | |
fprintf (st, "ring, base = %o, index = %d, length = %d\n", | |
rp->ba, rp->idx >> 2, rp->lnt >> 2); | |
#else | |
fprintf (st, "ring, base = %x, index = %d, length = %d\n", | |
rp->ba, rp->idx >> 2, rp->lnt >> 2); | |
#endif | |
for (i = 0; i < (rp->lnt >> 2); i++) { | |
if (Map_ReadW (rp->ba + (i << 2), 4, d, MAP)) { | |
fprintf (st, " %3d: non-existent memory\n", i); | |
break; } | |
desc = ((uint32) d[0]) | (((uint32) d[1]) << 16); | |
#if defined (VM_PDP11) | |
fprintf (st, " %3d: %011o\n", i, desc); | |
#else | |
fprintf (st, " %3d: %08x\n", i, desc); | |
#endif | |
} | |
return; | |
} | |
void rq_show_pkt (FILE *st, MSC *cp, int32 pkt) | |
{ | |
int32 i, j; | |
uint32 cr = GETP (pkt, UQ_HCTC, CR); | |
uint32 typ = GETP (pkt, UQ_HCTC, TYP); | |
uint32 cid = GETP (pkt, UQ_HCTC, CID); | |
fprintf (st, "packet %d, credits = %d, type = %d, cid = %d\n", | |
pkt, cr, typ, cid); | |
for (i = 0; i < RQ_SH_MAX; i = i + RQ_SH_PPL) { | |
fprintf (st, " %2d:", i); | |
for (j = i; j < (i + RQ_SH_PPL); j++) | |
#if defined (VM_PDP11) | |
fprintf (st, " %06o", cp->pak[pkt].d[j]); | |
#else | |
fprintf (st, " %04x", cp->pak[pkt].d[j]); | |
#endif | |
fprintf (st, "\n"); | |
} | |
return; | |
} | |
t_stat rq_show_unitq (FILE *st, UNIT *uptr, int32 val, void *desc) | |
{ | |
MSC *cp = rq_ctxmap[uptr->cnum]; | |
DEVICE *dptr = rq_devmap[uptr->cnum]; | |
int32 pkt, u; | |
u = uptr - dptr->units; | |
if (cp->csta != CST_UP) { | |
fprintf (st, "Controller is not initialized\n"); | |
return SCPE_OK; } | |
if ((uptr->flags & UNIT_ONL) == 0) { | |
if (uptr->flags & UNIT_ATT) | |
fprintf (st, "Unit %d is available\n", u); | |
else fprintf (st, "Unit %d is offline\n", u); | |
return SCPE_OK; } | |
if (uptr->cpkt) { | |
fprintf (st, "Unit %d current ", u); | |
rq_show_pkt (st, cp, uptr->cpkt); | |
if (pkt = uptr->pktq) { | |
do { fprintf (st, "Unit %d queued ", u); | |
rq_show_pkt (st, cp, pkt); } | |
while (pkt = cp->pak[pkt].link); } } | |
else fprintf (st, "Unit %d queues are empty\n", u); | |
return SCPE_OK; | |
} | |
t_stat rq_show_ctrl (FILE *st, UNIT *uptr, int32 val, void *desc) | |
{ | |
MSC *cp = rq_ctxmap[uptr->cnum]; | |
DEVICE *dptr = rq_devmap[uptr->cnum]; | |
int32 i, pkt; | |
if (cp->csta != CST_UP) { | |
fprintf (st, "Controller is not initialized\n"); | |
return SCPE_OK; } | |
if (val & RQ_SH_RI) { | |
if (cp->pip) fprintf (st, "Polling in progress, host timer = %d\n", cp->hat); | |
else fprintf (st, "Host timer = %d\n", cp->hat); | |
fprintf (st, "Command "); | |
rq_show_ring (st, &cp->cq); | |
fprintf (st, "Response "); | |
rq_show_ring (st, &cp->rq); | |
} | |
if (val & RQ_SH_FR) { | |
if (pkt = cp->freq) { | |
for (i = 0; pkt != 0; i++, pkt = cp->pak[pkt].link) { | |
if (i == 0) fprintf (st, "Free queue = %d", pkt); | |
else if ((i % 16) == 0) fprintf (st, ",\n %d", pkt); | |
else fprintf (st, ", %d", pkt); } | |
fprintf (st, "\n"); } | |
else fprintf (st, "Free queue is empty\n"); | |
} | |
if (val & RQ_SH_RS) { | |
if (pkt = cp->rspq) { | |
do { fprintf (st, "Response "); | |
rq_show_pkt (st, cp, pkt); } | |
while (pkt = cp->pak[pkt].link); } | |
else fprintf (st, "Response queue is empty\n"); | |
} | |
if (val & RQ_SH_UN) { | |
for (i = 0; i < RQ_NUMDR; i++) | |
rq_show_unitq (st, dptr->units + i, 0, desc); | |
} | |
return SCPE_OK; | |
} |