/* pdp11_vh.c: DHQ11 asynchronous terminal multiplexor simulator | |
Copyright (c) 2004-2012, John A. Dundas III | |
Portions derived from work by Robert M Supnik | |
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 | |
THE AUTHOR 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 the Author shall not be | |
used in advertising or otherwise to promote the sale, use or other dealings | |
in this Software without prior written authorization from the Author. | |
vh DHQ11 asynch multiplexor for SIMH | |
02-Jun-11 MP Added debugging support to trace register, interrupt | |
and data traffic (SET VH DEBUG[=REG;INT;XMT;RCV]) | |
Added SET LOG and SET NOLOG support for logging mux | |
traffic | |
Fixed SET VH LINES=n to correctly adjust the number | |
of lines available to be 8, 16, 24, or 32. | |
Fixed performance issue avoiding redundant polling | |
03-Jan-10 JAD Eliminate gcc warnings | |
24-Nov-08 JDB Removed tmxr_send_buffered_data declaration (now in sim_tmxr.h) | |
19-Nov-08 RMS Revised for common TMXR show routines | |
18-Jun-07 RMS Added UNIT_IDLE flag | |
29-Oct-06 RMS Synced poll and clock | |
07-Jul-05 RMS Removed extraneous externs | |
15-Jun-05 RMS Revised for new autoconfigure interface | |
Fixed bug in vector display routine | |
12-Jun-04 RMS Repair MS2SIMH macro to avoid divide by 0 bug | |
08-Jun-04 JAD Repair vh_dev initialization; remove unused | |
variables, cast to avoid conversion confusion | |
07-Jun-04 JAD Complete function prototypes of forward declarations. | |
Repair broken prototypes of vh_rd() and vh_wr() | |
Explicitly size integer declarations | |
4-Jun-04 JAD Preliminary code: If operating in a PDP-11 Unibus | |
environment, force DHU mode | |
29-May-04 JAD Make certain RX.TIMER is within allowable range | |
25-May-04 JAD All time-based operations are scaled by tmxr_poll units | |
23-May-04 JAD Change to fifo_get() and dq_tx_report() to avoid | |
gratuitous stack manipulation | |
20-May-04 JAD Made modem control and auto-hangup unit flags | |
19-May-04 JAD Fix problem with modem status where the line number | |
was not being included | |
12-May-04 JAD Revised for updated tmxr interfaces | |
28-Jan-04 JAD Original creation and testing | |
I/O Page Registers | |
CSR 17 760 440 (float) | |
Vector: 300 (float) | |
Priority: BR4 | |
Rank: 32 | |
*/ | |
/* MANY constants needed! */ | |
#if defined (VM_VAX) | |
#include "vax_defs.h" | |
#endif | |
#if defined (VM_PDP11) | |
#include "pdp11_defs.h" | |
#endif | |
#include "sim_tmxr.h" | |
/* imports from pdp11_stddev.c: */ | |
extern int32 tmxr_poll, clk_tps; | |
/* convert ms to SIMH time units based on tmxr_poll polls per second */ | |
#define MS2SIMH(ms) (((ms) * clk_tps) / 1000) | |
#ifndef VH_MUXES | |
#define VH_MUXES (4) | |
#endif | |
#define VH_MAXMUX (vh_desc.lines/VH_LINES - 1) | |
#if defined(VM_VAX) | |
#if VEC_QBUS | |
#define VH_LINES (8) | |
#else | |
#define VH_LINES (16) | |
#endif | |
#else | |
#define VH_LINES (UNIBUS?16:8) | |
#endif | |
#define VH_LINES_ALLOC 16 | |
#define UNIT_V_MODEDHU (UNIT_V_UF + 0) | |
#define UNIT_V_FASTDMA (UNIT_V_UF + 1) | |
#define UNIT_V_MODEM (UNIT_V_UF + 2) | |
#define UNIT_V_HANGUP (UNIT_V_UF + 3) | |
#define UNIT_MODEDHU (1 << UNIT_V_MODEDHU) | |
#define UNIT_FASTDMA (1 << UNIT_V_FASTDMA) | |
#define UNIT_MODEM (1 << UNIT_V_MODEM) | |
#define UNIT_HANGUP (1 << UNIT_V_HANGUP) | |
/* VHCSR - 160440 - Control and Status Register */ | |
#define CSR_M_IND_ADDR (017) | |
#define CSR_SKIP (1 << 4) | |
#define CSR_MASTER_RESET (1 << 5) | |
#define CSR_RXIE (1 << 6) | |
#define CSR_RX_DATA_AVAIL (1 << 7) | |
#define CSR_M_TX_LINE (017) | |
#define CSR_V_TX_LINE (8) | |
#define CSR_TX_DMA_ERR (1 << 12) | |
#define CSR_DIAG_FAIL (1 << 13) | |
#define CSR_TXIE (1 << 14) | |
#define CSR_TX_ACTION (1 << 15) | |
#define CSR_GETCHAN(x) ((x) & CSR_M_IND_ADDR) | |
#define CSR_RW \ | |
(CSR_TXIE|CSR_RXIE|CSR_SKIP|CSR_M_IND_ADDR|CSR_MASTER_RESET) | |
#define RESET_ABORT (052525) | |
BITFIELD vh_csr_bits[] = { | |
BITF(IND_ADDR,4), /* indirect address */ | |
BIT(SKIP), /* Skip */ | |
BIT(MASTER_RESET), /* Master Reset */ | |
BIT(RXIE), /* Receive Interrupt Enable */ | |
BIT(RX_DATA_AVAIL), /* Receive Data Available */ | |
BITF(TX_LINE,4), /* Transmit Line */ | |
BIT(TX_DMA_ERR), /* Transmit DMA Error */ | |
BIT(DIAG_FAIL), /* Diagnostic Fail */ | |
BIT(TXIE), /* Transmit Interrupt Enable */ | |
BIT(TX_ACTION), /* Transmit Action */ | |
ENDBITS | |
}; | |
/* Receive Buffer (RBUF) */ | |
#define FIFO_SIZE (256) | |
#define FIFO_ALARM (191) | |
#define FIFO_HALF (FIFO_SIZE / 2) | |
#define RBUF_M_RX_CHAR (0377) | |
#define RBUF_M_RX_LINE (07) | |
#define RBUF_V_RX_LINE (8) | |
#define RBUF_PARITY_ERR (1 << 12) | |
#define RBUF_FRAME_ERR (1 << 13) | |
#define RBUF_OVERRUN_ERR (1 << 14) | |
#define RBUF_DATA_VALID (1 << 15) | |
#define RBUF_GETLINE(x) (((x) >> RBUF_V_RX_LINE) & RBUF_M_RX_LINE) | |
#define RBUF_PUTLINE(x) ((x) << RBUF_V_RX_LINE) | |
#define RBUF_DIAG \ | |
(RBUF_PARITY_ERR|RBUF_FRAME_ERR|RBUF_OVERRUN_ERR) | |
#define XON (021) | |
#define XOFF (023) | |
BITFIELD vh_rbuf_bits[] = { | |
BITF(RX_CHAR,4), /* Receive Character */ | |
BITF(RX_LINE,4), /* Receive Line */ | |
BIT(PARITY_ERR), /* Parity Error */ | |
BIT(FRAME_ERR), /* Frame Error */ | |
BIT(OVERRUN_ERR), /* Overrun Error */ | |
BIT(DATA_VALID), /* Data Valid */ | |
ENDBITS | |
}; | |
/* Transmit Character Register (TXCHAR) */ | |
#define TXCHAR_M_CHAR (0377) | |
#define TXCHAR_TX_DATA_VALID (1 << 15) | |
BITFIELD vh_txchar_bits[] = { | |
BITF(TX_CHAR,8), /* Receive Timer */ | |
BITNCF(7), /* Not Used */ | |
BIT(DATA_VALID), /* Data Valid */ | |
ENDBITS | |
}; | |
/* Receive Timer Register (RXTIMER) */ | |
#define RXTIMER_M_RX_TIMER (0377) | |
BITFIELD vh_rxtimer_bits[] = { | |
BITF(RX_TIMER,8), /* Receive Timer */ | |
BITNCF(8), /* Not Used */ | |
ENDBITS | |
}; | |
/* Line-Parameter Register (LPR) */ | |
#define LPR_DISAB_XRPT (1 << 0) /* not impl. in real DHU */ | |
#define LPR_V_DIAG (1) | |
#define LPR_M_DIAG (03) | |
#define LPR_V_CHAR_LGTH (3) | |
#define LPR_M_CHAR_LGTH (03) | |
#define LPR_V_PARITY_ENAB (5) | |
#define LPR_PARITY_ENAB (1 << LPR_V_PARITY_ENAB) | |
#define LPR_V_EVEN_PARITY (6) | |
#define LPR_EVEN_PARITY (1 << LPR_V_EVEN_PARITY) | |
#define LPR_V_STOP_CODE (7) | |
#define LPR_STOP_CODE (1 << LPR_V_STOP_CODE) | |
#define LPR_V_RX_SPEED (8) | |
#define LPR_M_RX_SPEED (017) | |
#define LPR_V_TX_SPEED (12) | |
#define LPR_M_TX_SPEED (017) | |
#define RATE_50 (0) | |
#define RATE_75 (1) | |
#define RATE_110 (2) | |
#define RATE_134 (3) | |
#define RATE_150 (4) | |
#define RATE_300 (5) | |
#define RATE_600 (6) | |
#define RATE_1200 (7) | |
#define RATE_1800 (8) | |
#define RATE_2000 (9) | |
#define RATE_2400 (10) | |
#define RATE_4800 (11) | |
#define RATE_7200 (12) | |
#define RATE_9600 (13) | |
#define RATE_19200 (14) | |
#define RATE_38400 (15) | |
static const char *vh_charsizes[] = {"5", "6", "7", "8"}; | |
static const char *vh_baudrates[] = {"50", "75", "110", "134.5", "150", "300", "600", "1200", | |
"1800", "2000", "2400", "4800", "7200", "9600", "19200", "38400"}; | |
static const char *vh_parity[] = {"N", "N", "E", "O"}; | |
static const char *vh_stopbits[] = {"1", "2", "1", "1.5"}; | |
BITFIELD vh_lpr_bits[] = { | |
BITNC, /* Unused */ | |
BITF(DIAG,2), /* Diagnostic Code */ | |
BITFNAM(CHAR_LGTH,2,vh_charsizes), /* Character Length */ | |
BIT(PARITY_ENAB), /* Parity Enable */ | |
BIT(EVEN_PARITY), /* Even Parity */ | |
BIT(STOP_CODE), /* Stop Bits Code */ | |
BITFNAM(RX_SPEED,4,vh_baudrates), /* Receive Speed */ | |
BITFNAM(TX_SPEED,4,vh_baudrates), /* Transmit Speed */ | |
ENDBITS | |
}; | |
#define LPR_GETSPD(x) vh_baudrates[((x) >> LPR_V_RX_SPEED) & LPR_M_RX_SPEED] | |
#define LPR_GETCHARSIZE(x) vh_charsizes[((x) >> LPR_V_CHAR_LGTH) & LPR_M_CHAR_LGTH] | |
#define LPR_GETPARITY(x) vh_parity[(((x) >> LPR_V_PARITY_ENAB) & 1) | (((x) >> (LPR_V_EVEN_PARITY-1)) & 2)] | |
#define LPR_GETSTOPBITS(x) vh_stopbits[(((x) >> LPR_V_STOP_CODE) & 1) + (((((x) >> LPR_V_CHAR_LGTH) & LPR_M_CHAR_LGTH) == 0) ? 2 : 0)] | |
/* Line-Status Register (STAT) */ | |
#define STAT_DHUID (1 << 8) /* mode: 0=DHV, 1=DHU */ | |
#define STAT_MDL (1 << 9) /* always 0, has modem support */ | |
#define STAT_CTS (1 << 11) /* CTS from modem */ | |
#define STAT_DCD (1 << 12) /* DCD from modem */ | |
#define STAT_RI (1 << 13) /* RI from modem */ | |
#define STAT_DSR (1 << 15) /* DSR from modem */ | |
BITFIELD vh_stat_bits[] = { | |
BITNCF(8), /* Not Used */ | |
BIT(DHUID), /* DHU/DHV Id */ | |
BIT(MDL), /* Even Parity */ | |
BITNC, /* Not Used */ | |
BIT(CTS), /* CTS from modem */ | |
BIT(DCD), /* DCD from modem */ | |
BIT(RI), /* RI from modem */ | |
BITNC, /* Not Used */ | |
BIT(DSR), /* DSR from modem */ | |
ENDBITS | |
}; | |
/* FIFO Size Register (FIFOSIZE) */ | |
#define FIFOSIZE_M_SIZE (0377) | |
BITFIELD vh_fifosize_bits[] = { | |
BITF(FIFOSIZE,8), /* FIFO Size */ | |
BITNCF(8), /* Not Used */ | |
ENDBITS | |
}; | |
/* FIFO Data Register (FIFODATA) */ | |
#define FIFODATA_W0 (0377) | |
#define FIFODATA_V_W1 (8) | |
#define FIFODATA_M_W1 (0377) | |
BITFIELD vh_fifodata_bits[] = { | |
BITF(W0,8), /* Low Byte Character */ | |
BITF(W1,8), /* High Byte Character */ | |
ENDBITS | |
}; | |
/* Line-Control Register (LNCTRL) */ | |
#define LNCTRL_TX_ABORT (1 << 0) | |
#define LNCTRL_IAUTO (1 << 1) | |
#define LNCTRL_RX_ENA (1 << 2) | |
#define LNCTRL_BREAK (1 << 3) | |
#define LNCTRL_OAUTO (1 << 4) | |
#define LNCTRL_FORCE_XOFF (1 << 5) | |
#define LNCTRL_V_MAINT (6) | |
#define LNCTRL_M_MAINT (03) | |
#define LNCTRL_LINK_TYPE (1 << 8) /* 0=data leads only, 1=modem */ | |
#define LNCTRL_DTR (1 << 9) /* DTR to modem */ | |
#define LNCTRL_RTS (1 << 12) /* RTS to modem */ | |
BITFIELD vh_lnctrl_bits[] = { | |
BIT(TX_ABORT), /* Transmitter Abort */ | |
BIT(IAUTO), /* Incoming Auto Flow Control */ | |
BIT(RX_ENA), /* Receiver Enable */ | |
BIT(BREAK), /* Line BREAK (Space) */ | |
BIT(OAUTO), /* Output Auto Flow Control */ | |
BIT(FORCE_XOFF), /* Force XOFF */ | |
BITF(MAINT,2), /* Maintenance Mode */ | |
BIT(LINK_TYPE), /* modem/data leads only */ | |
BIT(DTR), /* Data Terminal Ready */ | |
BITNCF(2), /* Unused */ | |
BIT(RTS), /* Request To Send */ | |
BITNCF(3), /* Unused */ | |
ENDBITS | |
}; | |
/* Transmit Buffer Address Register Number 1 (TBUFFAD1) */ | |
BITFIELD vh_tbuffad1_bits[] = { | |
BITF(TBUFFAD1,16), /* Transmit Buffer Address Register */ | |
ENDBITS | |
}; | |
/* Transmit Buffer Address Register Number 2 (TBUFFAD2) */ | |
#define TB2_M_TBUFFAD (077) | |
#define TB2_TX_DMA_START (1 << 7) | |
#define TB2_TX_ENA (1 << 15) | |
BITFIELD vh_tbuffad2_bits[] = { | |
BITF(TBUFFAD,6), /* Transmit DMA Address */ | |
BITNC, /* Unused */ | |
BIT(TX_DMA_START), /* Transmit DMA Start */ | |
BITNCF(3), /* Unused */ | |
BIT(TX_ENA), /* Transmit Enable */ | |
ENDBITS | |
}; | |
/* Transmit DMA Buffer Counter (TBUFFCT) */ | |
BITFIELD vh_tbuffct_bits[] = { | |
BITF(TBUFFCT,16), /* Transmit Character Count */ | |
ENDBITS | |
}; | |
/* Self-Test Error Codes */ | |
#define SELF_NULL (0201) | |
#define SELF_SKIP (0203) | |
#define SELF_OCT (0211) | |
#define SELF_RAM (0225) | |
#define SELF_RCD (0231) | |
#define SELF_DRD (0235) | |
#define BMP_OK (0305) | |
#define BMP_BAD (0307) | |
/* Loopback types */ | |
#define LOOP_NONE (0) | |
#define LOOP_H325 (1) | |
#define LOOP_H3101 (2) /* p.2-13 DHQ manual */ | |
/* Local storage */ | |
static uint16 vh_csr[VH_MUXES] = { 0 }; /* CSRs */ | |
static uint16 vh_timer[VH_MUXES] = { 1 }; /* controller timeout */ | |
static uint16 vh_mcount[VH_MUXES] = { 0 }; | |
static uint32 vh_timeo[VH_MUXES] = { 0 }; | |
static uint32 vh_ovrrun[VH_MUXES] = { 0 }; /* line overrun bits */ | |
/* XOFF'd channels, one bit/channel */ | |
static uint32 vh_stall[VH_MUXES] = { 0 }; | |
static uint16 vh_loop[VH_MUXES] = { 0 }; /* loopback status */ | |
/* One bit per controller: */ | |
static uint32 vh_rxi = 0; /* rcv interrupts */ | |
static uint32 vh_txi = 0; /* xmt interrupts */ | |
static uint32 vh_crit = 0;/* FIFO.CRIT */ | |
static uint32 vh_wait = 0; /* input polling adjustment */ | |
static const int32 bitmask[4] = { 037, 077, 0177, 0377 }; | |
/* RX FIFO state */ | |
static int32 rbuf_idx[VH_MUXES] = { 0 };/* index into vh_rbuf */ | |
static uint32 vh_rbuf[VH_MUXES][FIFO_SIZE] = { { 0 } }; | |
/* TXQ state */ | |
#define TXQ_SIZE (16) | |
static int32 txq_idx[VH_MUXES] = { 0 }; | |
static uint32 vh_txq[VH_MUXES][TXQ_SIZE] = { { 0 } }; | |
/* Need to extend the TMLN structure */ | |
typedef struct { | |
TMLN *tmln; | |
uint16 lpr; /* line parameters */ | |
uint16 lnctrl; /* line control */ | |
uint16 lstat; /* line modem status */ | |
uint16 tbuffct; /* remaining character count */ | |
uint16 tbuf1; | |
uint16 tbuf2; | |
uint16 txchar; /* single character I/O */ | |
} TMLX; | |
static TMLN vh_ldsc[VH_MUXES * VH_LINES_ALLOC] = { { 0 } }; | |
static TMXR vh_desc = { VH_MUXES * VH_LINES_ALLOC, 0, 0, vh_ldsc }; | |
static TMLX vh_parm[VH_MUXES * VH_LINES_ALLOC] = { { 0 } }; | |
/* debugging bitmaps */ | |
#define DBG_RREG 0x0001 /* trace read registers */ | |
#define DBG_WREG 0x0002 /* trace write registers */ | |
#define DBG_REG DBG_RREG|DBG_WREG /* trace read/write registers */ | |
#define DBG_INT 0x0004 /* display interrupt activities */ | |
#define DBG_TIM 0x0008 /* display timing activities */ | |
#define DBG_TIMTRC 0x0010 /* display trace timing activities */ | |
#define DBG_XMT TMXR_DBG_XMT /* display Transmitted Data */ | |
#define DBG_RCV TMXR_DBG_RCV /* display Received Data */ | |
#define DBG_MDM TMXR_DBG_MDM /* display Modem Signals */ | |
#define DBG_CON TMXR_DBG_CON /* display connection activities */ | |
#define DBG_TRC TMXR_DBG_TRC /* display trace routine calls */ | |
#define DBG_ASY TMXR_DBG_ASY /* display Asynchronous Activities */ | |
DEBTAB vh_debug[] = { | |
{"RREG", DBG_RREG, "read registers"}, | |
{"WREG", DBG_WREG, "write registers"}, | |
{"REG", DBG_REG, "read/write registers"}, | |
{"INT", DBG_INT, "interrupt activities"}, | |
{"TIM", DBG_TIM, "timing activities"}, | |
{"TIMTRC", DBG_TIMTRC, "trace timing activities"}, | |
{"XMT", DBG_XMT, "Transmitted Data"}, | |
{"RCV", DBG_RCV, "Received Data"}, | |
{"MDM", DBG_MDM, "Modem Signals"}, | |
{"CON", DBG_CON, "connection activities"}, | |
{"TRC", DBG_TRC, "trace routine calls"}, | |
{"ASY", DBG_ASY, "Asynchronous Activities"}, | |
{0} | |
}; | |
/* Forward references */ | |
static t_stat vh_rd (int32 *data, int32 PA, int32 access); | |
static t_stat vh_wr (int32 data, int32 PA, int32 access); | |
static t_stat vh_svc (UNIT *uptr); | |
static t_stat vh_xmt_svc (UNIT *uptr); | |
static t_stat vh_timersvc (UNIT *uptr); | |
static int32 vh_rxinta (void); | |
static int32 vh_txinta (void); | |
static t_stat vh_clear (int32 vh, t_bool flag); | |
static t_stat vh_reset (DEVICE *dptr); | |
static t_stat vh_attach (UNIT *uptr, CONST char *cptr); | |
static t_stat vh_detach (UNIT *uptr); | |
static t_stat vh_show_detail (FILE *st, UNIT *uptr, int32 val, CONST void *desc); | |
static t_stat vh_show_rbuf (FILE *st, UNIT *uptr, int32 val, CONST void *desc); | |
static t_stat vh_show_txq (FILE *st, UNIT *uptr, int32 val, CONST void *desc); | |
static t_stat vh_putc (int32 vh, TMLX *lp, int32 chan, int32 data); | |
static void vh_set_config (TMLX *lp ); | |
static void doDMA (int32 vh, int32 chan); | |
static t_stat vh_setmode (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat vh_show_vec (FILE *st, UNIT *uptr, int32 val, CONST void *desc); | |
static t_stat vh_setnl (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat vh_set_log (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat vh_set_nolog (UNIT *uptr, int32 val, CONST char *cptr, void *desc); | |
static t_stat vh_show_log (FILE *st, UNIT *uptr, int32 val, CONST void *desc); | |
static t_stat vh_help (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr); | |
static t_stat vh_help_attach (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr); | |
static const char *vh_description (DEVICE *dptr); | |
/* SIMH I/O Structures */ | |
#define IOLN_VH 020 | |
static DIB vh_dib = { | |
IOBA_AUTO, | |
IOLN_VH * VH_MUXES, | |
&vh_rd, /* read */ | |
&vh_wr, /* write */ | |
2, /* # of vectors */ | |
IVCL (VHRX), | |
VEC_FLOAT, | |
{ &vh_rxinta, &vh_txinta }, /* int. ack. routines */ | |
IOLN_VH, /* IO space per device */ | |
}; | |
static UNIT vh_unit[VH_MUXES+3] = { | |
{ UDATA (NULL, UNIT_ATTABLE, 0) }, | |
}; | |
static UNIT *vh_poll_unit; | |
static UNIT *vh_xmit_unit; | |
static UNIT *vh_timer_unit; | |
static const REG vh_reg[] = { | |
{ BRDATADF (CSR, vh_csr, DEV_RDX, 16, VH_MUXES, "control/status register, boards 0 to 3", vh_csr_bits) }, | |
{ BRDATAD (TIMER, vh_timer, DEV_RDX, 16, VH_MUXES, "controller timeout, boards 0 to 3") }, | |
{ BRDATAD (MCOUNT, vh_mcount, DEV_RDX, 16, VH_MUXES, "count down timer, boards 0 to 3") }, | |
{ BRDATAD (TIMEO, vh_timeo, DEV_RDX, 16, VH_MUXES, "control/status register, boards 0 to 3") }, | |
{ BRDATAD (OVRRUN, vh_ovrrun, DEV_RDX, 16, VH_MUXES, "line overrun bits, boards 0 to 3") }, | |
{ BRDATAD (STALL, vh_stall, DEV_RDX, 16, VH_MUXES, "XOFF'd channels 1 bit/channel, boards 0 to 3") }, | |
{ BRDATAD (LOOP, vh_loop, DEV_RDX, 16, VH_MUXES, "loopback status, boards 0 to 3") }, | |
{ GRDATAD (RCVINT, vh_rxi, DEV_RDX, 32, 0, "rcv interrupts 1 bit/channel") }, | |
{ GRDATAD (TXINT, vh_txi, DEV_RDX, 32, 0, "xmt interrupts 1 bit/channel") }, | |
{ GRDATAD (FIFOCRIT, vh_crit, DEV_RDX, 32, 0, "FIFO.CRIT 1 bit/channel") }, | |
{ DRDATAD (TIME, vh_wait, 24, "input polling adjustment"), PV_LEFT }, | |
{ GRDATA (DEVADDR, vh_dib.ba, DEV_RDX, 32, 0), REG_HRO }, | |
{ GRDATA (DEVVEC, vh_dib.vec, DEV_RDX, 16, 0), REG_HRO }, | |
{ NULL } | |
}; | |
static const MTAB vh_mod[] = { | |
#if !UNIBUS | |
{ UNIT_MODEDHU, 0, "DHV mode", "DHV", | |
&vh_setmode, NULL, NULL, "Set DHV mode" }, | |
#endif | |
{ UNIT_MODEDHU, UNIT_MODEDHU, "DHU mode", "DHU", | |
&vh_setmode, NULL, NULL, "Set DHU mode" }, | |
{ UNIT_FASTDMA, 0, NULL, "NORMAL", | |
NULL, NULL, NULL, "Set Normal DMA mode" }, | |
{ UNIT_FASTDMA, UNIT_FASTDMA, "fast DMA", "FASTDMA", | |
NULL, NULL, NULL, "Enable Fast DMA mode" }, | |
{ UNIT_MODEM, 0, NULL, "NOMODEM", | |
NULL, NULL, NULL, "Disable modem control" }, | |
{ UNIT_MODEM, UNIT_MODEM, "Modem", "MODEM", | |
NULL, NULL, NULL, "Enable modem control" }, | |
{ UNIT_HANGUP, 0, NULL, "NOHANGUP", | |
NULL, NULL, NULL, "Disable disconnect on DTR drop" }, | |
{ UNIT_HANGUP, UNIT_HANGUP, "Hangup", "HANGUP", | |
NULL, NULL, NULL, "Enable disconnect on DTR drop" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 020, "ADDRESS", "ADDRESS", | |
&set_addr, &show_addr, NULL, "Bus address" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "VECTOR", "VECTOR", | |
&set_vec, &vh_show_vec, (void *) &vh_desc, "Interrupt vector" }, | |
{ MTAB_XTD|MTAB_VDV, 0, NULL, "AUTOCONFIGURE", | |
&set_addr_flt, NULL, NULL, "Enable autoconfiguration of address & vector" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, "LINES", "LINES=n", | |
&vh_setnl, &tmxr_show_lines, (void *) &vh_desc, "Display number of lines" }, | |
{ UNIT_ATT, UNIT_ATT, "summary", NULL, | |
NULL, &tmxr_show_summ, (void *) &vh_desc, "Display a summary of line states" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 1, "CONNECTIONS", NULL, | |
NULL, &tmxr_show_cstat, (void *) &vh_desc, "Display current connections" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "STATISTICS", NULL, | |
NULL, &tmxr_show_cstat, (void *) &vh_desc, "Display multiplexer statistics" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 1, NULL, "DISCONNECT", | |
&tmxr_dscln, NULL, &vh_desc, "Disconnect a specific line" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "DETAIL", NULL, | |
NULL, &vh_show_detail, NULL, "Display detailed multiplexer status" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "RBUF", NULL, | |
NULL, &vh_show_rbuf, NULL, "Display recieve buffer" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "TXQ", NULL, | |
NULL, &vh_show_txq, NULL, "Display transmit queue for each mux" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NC, 0, NULL, "LOG=n=file", | |
&vh_set_log, NULL, &vh_desc, "Display logging" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_VALR, 0, NULL, "NOLOG=n", | |
&vh_set_nolog, NULL, &vh_desc, "Disable logging on designated line" }, | |
{ MTAB_XTD|MTAB_VDV|MTAB_NMO, 0, "LOG", NULL, | |
NULL, &vh_show_log, &vh_desc, "Display logging for all lines" }, | |
{ 0 } | |
}; | |
DEVICE vh_dev = { | |
"VH", /* name */ | |
vh_unit, /* units */ | |
(REG *)vh_reg, /* registers */ | |
(MTAB *)vh_mod, /* modifiers */ | |
VH_MUXES, /* # units */ | |
DEV_RDX, /* address radix */ | |
8, /* address width */ | |
1, /* address increment */ | |
DEV_RDX, /* data radix */ | |
8, /* data width */ | |
NULL, /* examine routine */ | |
NULL, /* deposit routine */ | |
&vh_reset, /* reset routine */ | |
NULL, /* boot routine */ | |
&vh_attach, /* attach routine */ | |
&vh_detach, /* detach routine */ | |
(void *)&vh_dib,/* context */ | |
DEV_DISABLE | DEV_DIS | DEV_QBUS | DEV_UBUS | DEV_DEBUG | DEV_MUX, /* flags */ | |
0, vh_debug, /* debug control and debug flags */ | |
NULL, /* memory size routine */ | |
NULL, /* logical name */ | |
&vh_help, /* help routine */ | |
&vh_help_attach,/* attach_help routines */ | |
(void *)&vh_desc,/* help context variable */ | |
&vh_description /* description */ | |
}; | |
/* Register names for Debug tracing */ | |
static const char *vh_rd_dhv_regs[] = | |
{"CSR ", "RBUF ", "LPR ", "STAT ", "LNCTRL", "TBFAD1", "TBFAD2", "TBFCNT" }; | |
static const char *vh_wr_dhv_regs[] = | |
{"CSR ", "TXCHAR", "LPR ", "STAT ", "LNCTRL", "TBFAD1", "TBFAD2", "TBFCNT" }; | |
static const char *vh_rd_dhu_regs[] = | |
{"CSR ", "RBUF ", "LPR ", "FIFOSZ", "LNCTRL", "TBFAD1", "TBFAD2", "TBFCNT" }; | |
static const char *vh_wr_dhu_regs[] = | |
{"CSR ", "RXTIMR", "LPR ", "FIFODT", "LNCTRL", "TBFAD1", "TBFAD2", "TBFCNT" }; | |
/* Interrupt routines */ | |
static void vh_clr_rxint ( int32 vh ) | |
{ | |
vh_rxi &= ~(1 << vh); | |
if (vh_rxi == 0) | |
CLR_INT (VHRX); | |
else | |
SET_INT (VHRX); | |
} | |
static void vh_set_rxint ( int32 vh ) | |
{ | |
vh_rxi |= (1 << vh); | |
SET_INT (VHRX); | |
} | |
/* RX interrupt ack. (bus cycle) */ | |
static int32 vh_rxinta (void) | |
{ | |
int32 vh; | |
for (vh = 0; vh < vh_desc.lines/VH_LINES; vh++) { | |
if (vh_rxi & (1 << vh)) { | |
sim_debug(DBG_INT, &vh_dev, "vh_rzinta(vh=%d)\n", vh); | |
vh_clr_rxint (vh); | |
return (vh_dib.vec + (vh * 010)); | |
} | |
} | |
return (0); | |
} | |
static void vh_clr_txint ( int32 vh ) | |
{ | |
vh_txi &= ~(1 << vh); | |
if (vh_txi == 0) | |
CLR_INT (VHTX); | |
else | |
SET_INT (VHTX); | |
} | |
static void vh_set_txint ( int32 vh ) | |
{ | |
vh_txi |= (1 << vh); | |
SET_INT (VHTX); | |
} | |
/* TX interrupt ack. (bus cycle) */ | |
static int32 vh_txinta (void) | |
{ | |
int32 vh; | |
for (vh = 0; vh < vh_desc.lines/VH_LINES; vh++) { | |
if (vh_txi & (1 << vh)) { | |
sim_debug(DBG_INT, &vh_dev, "vh_txinta(vh=%d)\n", vh); | |
vh_clr_txint (vh); | |
return (vh_dib.vec + 4 + (vh * 010)); | |
} | |
} | |
return (0); | |
} | |
/* RX FIFO get/put routines */ | |
/* return 0 on success, -1 on FIFO overflow */ | |
static int32 fifo_put ( int32 vh, | |
TMLX *lp, | |
int32 data ) | |
{ | |
int32 status = 0; | |
if (lp == NULL) | |
goto override; | |
/* this might have to move to vh_getc() */ | |
if ((lp->lnctrl & LNCTRL_OAUTO) && ((data & RBUF_DIAG) == 0)) { | |
TMLX *l0p; | |
/* implement transmitted data flow control */ | |
switch (data & 0377) { | |
case XON: | |
lp->tbuf2 |= TB2_TX_ENA; | |
goto common; | |
case XOFF: | |
lp->tbuf2 &= ~TB2_TX_ENA; | |
common: | |
/* find line 0 for this controller */ | |
l0p = &vh_parm[vh * VH_LINES]; | |
if (l0p->lpr & LPR_DISAB_XRPT) | |
return (0); | |
break; | |
default: | |
break; | |
} | |
} | |
/* BUG: which of the following 2 is correct? */ | |
/* if ((data & RBUF_DIAG) == RBUF_DIAG) */ | |
if (data & RBUF_DIAG) | |
goto override; | |
if (((lp->lnctrl >> LNCTRL_V_MAINT) & LNCTRL_M_MAINT) == 2) | |
goto override; | |
if (!(lp->lnctrl & LNCTRL_RX_ENA)) | |
return (0); | |
override: | |
vh_csr[vh] |= CSR_RX_DATA_AVAIL; | |
if (rbuf_idx[vh] < FIFO_SIZE) { | |
vh_rbuf[vh][rbuf_idx[vh]] = data; | |
rbuf_idx[vh] += 1; | |
} else { | |
vh_ovrrun[vh] |= (1 << RBUF_GETLINE (data)); | |
status = -1; | |
} | |
if (vh_csr[vh] & CSR_RXIE) { | |
if (vh_unit[vh].flags & UNIT_MODEDHU) { | |
/* was it a modem status change? */ | |
if ((data & RBUF_DIAG) == RBUF_DIAG) | |
vh_set_rxint (vh); | |
/* look for FIFO alarm @ 3/4 full */ | |
else if (rbuf_idx[vh] == FIFO_ALARM) | |
vh_set_rxint (vh); | |
else if (vh_timer[vh] == 0) | |
; /* nothing, infinite timeout */ | |
else if (vh_timer[vh] == 1) | |
vh_set_rxint (vh); | |
else if (vh_timeo[vh] == 0) { | |
vh_timeo[vh] = MS2SIMH (vh_timer[vh]) + 1; | |
sim_debug (DBG_TIM, &vh_dev, "Timeout set vh=%d, timeout=%d\n", vh, vh_timeo[vh]); | |
} | |
} else { | |
/* Interrupt on transition _from_ an empty FIFO */ | |
if (rbuf_idx[vh] == 1) | |
vh_set_rxint (vh); | |
} | |
} | |
if (rbuf_idx[vh] > FIFO_ALARM) | |
vh_crit |= (1 << vh); | |
/* Implement RX FIFO-level flow control */ | |
if (lp != NULL) { | |
if ((lp->lnctrl & LNCTRL_FORCE_XOFF) || | |
((vh_crit & (1 << vh)) && (lp->lnctrl & LNCTRL_IAUTO))) { | |
int32 chan = RBUF_GETLINE(data); | |
vh_stall[vh] ^= (1 << chan); | |
/* send XOFF every other character received */ | |
if (vh_stall[vh] & (1 << chan)) | |
vh_putc (vh, lp, chan, XOFF); | |
} | |
} | |
return (status); | |
} | |
static int32 fifo_get ( int32 vh ) | |
{ | |
int32 data, i; | |
if (rbuf_idx[vh] == 0) { | |
vh_csr[vh] &= ~CSR_RX_DATA_AVAIL; | |
return (0); | |
} | |
/* pick off the first character, mark valid */ | |
data = vh_rbuf[vh][0] | RBUF_DATA_VALID; | |
/* move the remainder up */ | |
rbuf_idx[vh] -= 1; | |
for (i = 0; i < rbuf_idx[vh]; i++) | |
vh_rbuf[vh][i] = vh_rbuf[vh][i + 1]; | |
/* rbuf_idx[vh] -= 1; */ | |
/* look for any previous overruns */ | |
if (vh_ovrrun[vh]) { | |
for (i = 0; i < VH_LINES; i++) { | |
if (vh_ovrrun[vh] & (1 << i)) { | |
fifo_put (vh, NULL, RBUF_OVERRUN_ERR | | |
RBUF_PUTLINE (i)); | |
vh_ovrrun[vh] &= ~(1 << i); | |
break; | |
} | |
} | |
} | |
/* recompute FIFO alarm condition */ | |
if ((rbuf_idx[vh] < FIFO_HALF) && (vh_crit & (1 << vh))) { | |
vh_crit &= ~(1 << vh); | |
/* send XON to all XOFF'd channels on this controller */ | |
for (i = 0; i < VH_LINES; i++) { | |
TMLX *lp = &vh_parm[(vh * VH_LINES) + i]; | |
if (lp->lnctrl & LNCTRL_FORCE_XOFF) | |
continue; | |
if (vh_stall[vh] & (1 << i)) { | |
vh_putc (vh, NULL, i, XON); | |
vh_stall[vh] &= ~(1 << i); | |
} | |
} | |
} | |
/* Reschedule the next poll preceisely so that the | |
programmed input speed is observed. */ | |
sim_clock_coschedule_abs (vh_poll_unit, tmxr_poll); | |
return (data & 0177777); | |
} | |
/* TX Q manipulation */ | |
static int32 dq_tx_report ( int32 vh ) | |
{ | |
int32 data, i; | |
if (txq_idx[vh] == 0) | |
return (0); | |
data = vh_txq[vh][0]; | |
txq_idx[vh] -= 1; | |
for (i = 0; i < txq_idx[vh]; i++) | |
vh_txq[vh][i] = vh_txq[vh][i + 1]; | |
/* txq_idx[vh] -= 1; */ | |
return (data & 0177777); | |
} | |
static void q_tx_report ( int32 vh, | |
int32 data ) | |
{ | |
if (vh_csr[vh] & CSR_TXIE) | |
vh_set_txint (vh); | |
if (txq_idx[vh] >= TXQ_SIZE) { | |
/* BUG: which of the following 2 is correct? */ | |
dq_tx_report (vh); | |
/* return; */ | |
} | |
vh_txq[vh][txq_idx[vh]] = CSR_TX_ACTION | data; | |
txq_idx[vh] += 1; | |
} | |
/* Channel get/put routines */ | |
static void HangupModem ( int32 vh, | |
TMLX *lp, | |
int32 chan ) | |
{ | |
if (vh_unit[vh].flags & UNIT_MODEM) | |
lp->lstat &= ~(STAT_DCD|STAT_DSR|STAT_CTS|STAT_RI); | |
if (lp->lnctrl & LNCTRL_LINK_TYPE) | |
/* RBUF<0> = 0 for modem status */ | |
fifo_put (vh, lp, RBUF_DIAG | | |
RBUF_PUTLINE (chan) | | |
((lp->lstat >> 8) & 0376)); | |
/* BUG: check for overflow above */ | |
} | |
/* TX a character on a line, regardless of the TX enable state */ | |
static t_stat vh_putc ( int32 vh, | |
TMLX *lp, | |
int32 chan, | |
int32 data ) | |
{ | |
int32 val; | |
t_stat status = SCPE_OK; | |
/* truncate to desired character length */ | |
data &= bitmask[(lp->lpr >> LPR_V_CHAR_LGTH) & LPR_M_CHAR_LGTH]; | |
switch ((lp->lnctrl >> LNCTRL_V_MAINT) & LNCTRL_M_MAINT) { | |
case 0: /* normal */ | |
#if 0 | |
/* check for (external) loopback setting */ | |
switch (vh_loop[vh]) { | |
default: | |
case LOOP_NONE: | |
break; | |
} | |
#endif | |
status = tmxr_putc_ln (lp->tmln, data); | |
if (status == SCPE_LOST) { | |
tmxr_reset_ln (lp->tmln); | |
HangupModem (vh, lp, chan); | |
} else if (status == SCPE_STALL) { | |
/* let's flush and try again */ | |
tmxr_send_buffered_data (lp->tmln); | |
status = tmxr_putc_ln (lp->tmln, data); | |
} | |
break; | |
case 1: /* auto echo */ | |
break; | |
case 2: /* local loopback */ | |
if (lp->lnctrl & LNCTRL_BREAK) | |
val = fifo_put (vh, lp, | |
RBUF_FRAME_ERR | RBUF_PUTLINE (chan)); | |
else | |
val = fifo_put (vh, lp, | |
RBUF_PUTLINE (chan) | data); | |
status = (val < 0) ? SCPE_TTMO : SCPE_OK; | |
break; | |
default: /* remote loopback */ | |
break; | |
} | |
return (status); | |
} | |
/* Retrieve all stored input from TMXR and place in RX FIFO */ | |
static void vh_getc ( int32 vh ) | |
{ | |
uint32 i, c; | |
TMLX *lp; | |
for (i = 0; i < (uint32)VH_LINES; i++) { | |
if (rbuf_idx[vh] >= (FIFO_ALARM-1)) /* close to fifo capacity? */ | |
continue; /* don't bother checking for data */ | |
lp = &vh_parm[(vh * VH_LINES) + i]; | |
while ((c = tmxr_getc_ln (lp->tmln)) != 0) { | |
if (c & SCPE_BREAK) { | |
fifo_put (vh, lp, | |
RBUF_FRAME_ERR | RBUF_PUTLINE (i)); | |
} else { | |
c &= bitmask[(lp->lpr >> LPR_V_CHAR_LGTH) & | |
LPR_M_CHAR_LGTH]; | |
fifo_put (vh, lp, RBUF_PUTLINE (i) | c); | |
} | |
} | |
} | |
} | |
static void vh_set_config ( TMLX *lp ) | |
{ | |
char lineconfig[16]; | |
sprintf(lineconfig, "%s-%s%s%s", LPR_GETSPD(lp->lpr), LPR_GETCHARSIZE(lp->lpr), LPR_GETPARITY(lp->lpr), LPR_GETSTOPBITS(lp->lpr)); | |
if (!lp->tmln->serconfig || (0 != strcmp(lp->tmln->serconfig, lineconfig))) /* config changed? */ | |
tmxr_set_config_line (lp->tmln, lineconfig); /* set it */ | |
} | |
/* I/O dispatch routines */ | |
static t_stat vh_rd ( int32 *data, | |
int32 PA, | |
int32 access ) | |
{ | |
int32 vh = ((PA - vh_dib.ba) >> 4), line; | |
TMLX *lp; | |
static BITFIELD* bitdefs[] = {vh_csr_bits, vh_rbuf_bits, vh_lpr_bits, vh_stat_bits, | |
vh_lnctrl_bits, vh_tbuffad1_bits, vh_tbuffad1_bits, vh_tbuffct_bits}; | |
if (vh > VH_MAXMUX) /* validate mux number */ | |
return SCPE_IERR; | |
switch ((PA >> 1) & 7) { | |
case 0: /* CSR */ | |
*data = vh_csr[vh] | dq_tx_report (vh); | |
vh_csr[vh] &= ~0117400; /* clear the read-once bits */ | |
break; | |
case 1: /* RBUF */ | |
*data = fifo_get (vh); | |
break; | |
case 2: /* LPR */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) { | |
*data = 0; | |
break; | |
} | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
*data = lp->lpr; | |
break; | |
case 3: /* STAT/FIFOSIZE */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) { | |
*data = 0; | |
break; | |
} | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
*data = (lp->lstat & ~0377) | /* modem status */ | |
#if 0 | |
(64 - tmxr_tqln (lp->tmln)); | |
fprintf (stderr, "\rtqln %d\n", 64 - tmxr_tqln (lp->tmln)); | |
#else | |
64; | |
#endif | |
break; | |
case 4: /* LNCTRL */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) { | |
*data = 0; | |
break; | |
} | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
*data = lp->lnctrl; | |
break; | |
case 5: /* TBUFFAD1 */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) { | |
*data = 0; | |
break; | |
} | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
*data = lp->tbuf1; | |
break; | |
case 6: /* TBUFFAD2 */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) { | |
*data = 0; | |
break; | |
} | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
*data = lp->tbuf2; | |
break; | |
case 7: /* TBUFFCT */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) { | |
*data = 0; | |
break; | |
} | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
*data = lp->tbuffct; | |
break; | |
default: | |
/* can't happen */ | |
break; | |
} | |
sim_debug(DBG_RREG, &vh_dev, "vh_rd(vh=%d, PA=0x%08X [%s], access=%d, data=0x%X) ", vh, PA, | |
((vh_unit[vh].flags & UNIT_MODEDHU) ? vh_rd_dhu_regs : vh_rd_dhv_regs)[(PA >> 1) & 07], access, *data); | |
sim_debug_bits(DBG_RREG, &vh_dev, bitdefs[(PA >> 1) & 07], (uint32)(*data), (uint32)(*data), TRUE); | |
return (SCPE_OK); | |
} | |
static t_stat vh_wr ( int32 ldata, | |
int32 PA, | |
int32 access ) | |
{ | |
int32 vh = ((PA - vh_dib.ba) >> 4), line; | |
TMLX *lp; | |
uint16 data = (uint16)ldata; | |
static BITFIELD* bitdefs[] = {vh_csr_bits, vh_rbuf_bits, vh_lpr_bits, vh_stat_bits, | |
vh_lnctrl_bits, vh_tbuffad1_bits, vh_tbuffad1_bits, vh_tbuffct_bits}; | |
if (vh > VH_MAXMUX) /* validate mux number */ | |
return SCPE_IERR; | |
sim_debug(DBG_WREG, &vh_dev, "vh_wr(vh=%d, PA=0x%08X [%s], access=%d, data=0x%X) ", vh, PA, | |
((vh_unit[vh].flags & UNIT_MODEDHU) ? vh_wr_dhu_regs : vh_wr_dhv_regs)[(PA >> 1) & 07], access, data); | |
sim_debug_bits(DBG_WREG, &vh_dev, bitdefs[(PA >> 1) & 07], (uint32)((PA & 1) ? data<<8 : data), (uint32)((PA & 1) ? data<<8 : data), TRUE); | |
switch ((PA >> 1) & 7) { | |
case 0: /* CSR, but no read-modify-write */ | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(vh_csr[vh] & 0377) | (data << 8) : | |
(vh_csr[vh] & ~0377) | (data & 0377); | |
if (data & CSR_MASTER_RESET) { | |
if ((vh_unit[vh].flags & UNIT_MODEDHU) && (data & CSR_SKIP)) | |
data &= ~CSR_MASTER_RESET; | |
if (vh == 0) /* Only start unit service on the first unit. Units are polled there */ | |
sim_clock_coschedule (vh_poll_unit, tmxr_poll); | |
vh_mcount[vh] = MS2SIMH (1200); /* 1.2 seconds */ | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
sim_debug (DBG_TIM, &vh_dev, "vh_wr() - Master Reset Timeout set vh=%d, timeout=%d\n", vh, vh_mcount[vh]); | |
} | |
if ((data & CSR_RXIE) == 0) | |
vh_clr_rxint (vh); | |
/* catch the RXIE transition if the FIFO is not empty */ | |
else if (((vh_csr[vh] & CSR_RXIE) == 0) && | |
(rbuf_idx[vh] != 0)) { | |
if (vh_unit[vh].flags & UNIT_MODEDHU) { | |
if (rbuf_idx[vh] > FIFO_ALARM) | |
vh_set_rxint (vh); | |
else if (vh_timer[vh] == 0) | |
; | |
else if (vh_timer[vh] == 1) | |
vh_set_rxint (vh); | |
else if (vh_timeo[vh] == 0) { | |
vh_timeo[vh] = MS2SIMH (vh_timer[vh]) + 1; | |
sim_debug (DBG_TIM, &vh_dev, "vh_wr() - Timeout set vh=%d, timeout=%d\n", vh, vh_timeo[vh]); | |
} | |
} else { | |
vh_set_rxint (vh); | |
} | |
} | |
if ((data & CSR_TXIE) == 0) | |
vh_clr_txint (vh); | |
else if (((vh_csr[vh] & CSR_TXIE) == 0) && | |
(txq_idx[vh] != 0)) | |
vh_set_txint (vh); | |
vh_csr[vh] = (vh_csr[vh] & ~((uint16) CSR_RW)) | (data & (uint16) CSR_RW); | |
break; | |
case 1: /* TXCHAR/RXTIMER */ | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (vh_unit[vh].flags & UNIT_MODEDHU) { | |
if (CSR_GETCHAN (vh_csr[vh]) != 0) | |
break; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(vh_timer[vh] & 0377) | (data << 8) : | |
(vh_timer[vh] & ~0377) | (data & 0377); | |
vh_timer[vh] = data & 0377; | |
#if 0 | |
if (vh_csr[vh] & CSR_RXIE) { | |
if (rbuf_idx[vh] > FIFO_ALARM) | |
vh_set_rxint (vh); | |
else if (vh_timer[vh] == 0) | |
; | |
else if (vh_timer[vh] == 1) | |
vh_set_rxint (vh); | |
else if (vh_timeo[vh] == 0) | |
vh_timeo[vh] = MS2SIMH (vh_timer[vh]) + 1; | |
} | |
#endif | |
} else { | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(lp->txchar & 0377) | (data << 8) : | |
(lp->txchar & ~0377) | (data & 0377); | |
lp->txchar = data; /* TXCHAR */ | |
if (lp->txchar & TXCHAR_TX_DATA_VALID) | |
sim_activate_after_abs (vh_xmit_unit, lp->tmln->txdeltausecs); | |
} | |
break; | |
case 2: /* LPR */ | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(lp->lpr & 0377) | (data << 8) : | |
(lp->lpr & ~0377) | (data & 0377); | |
/* Modify only if CSR<3:0> == 0 */ | |
if (CSR_GETCHAN (vh_csr[vh]) != 0) | |
data &= ~LPR_DISAB_XRPT; | |
lp->lpr = data; | |
vh_set_config (lp); | |
if (((lp->lpr >> LPR_V_DIAG) & LPR_M_DIAG) == 1) { | |
fifo_put (vh, lp, | |
RBUF_DIAG | | |
RBUF_PUTLINE (CSR_GETCHAN (vh_csr[vh])) | | |
BMP_OK); | |
/* BUG: check for overflow above */ | |
lp->lpr &= ~(LPR_M_DIAG << LPR_V_DIAG); | |
} | |
break; | |
case 3: /* STAT/FIFODATA */ | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (vh_unit[vh].flags & UNIT_MODEDHU) { | |
/* high byte writes not allowed */ | |
if (PA & 1) | |
break; | |
/* transmit 1 or 2 characters */ | |
if (!(lp->tbuf2 & TB2_TX_ENA)) | |
break; | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), data); | |
q_tx_report (vh, CSR_GETCHAN (vh_csr[vh]) << CSR_V_TX_LINE); | |
if (access != WRITEB) | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), | |
data >> 8); | |
} | |
break; | |
case 4: /* LNCTRL */ | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(lp->lnctrl & 0377) | (data << 8) : | |
(lp->lnctrl & ~0377) | (data & 0377); | |
/* catch the abort TX transition */ | |
if (!(lp->lnctrl & LNCTRL_TX_ABORT) && | |
(data & LNCTRL_TX_ABORT)) { | |
if ((lp->tbuf2 & TB2_TX_ENA) && | |
(lp->tbuf2 & TB2_TX_DMA_START)) { | |
lp->tbuf2 &= ~TB2_TX_DMA_START; | |
q_tx_report (vh, CSR_GETCHAN (vh_csr[vh]) << CSR_V_TX_LINE); | |
} | |
} | |
/* Implement program-initiated flow control */ | |
if ( (data & LNCTRL_FORCE_XOFF) && | |
!(lp->lnctrl & LNCTRL_FORCE_XOFF) ) { | |
if (!(lp->lnctrl & LNCTRL_IAUTO)) | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), XOFF); | |
} else if ( !(data & LNCTRL_FORCE_XOFF) && | |
(lp->lnctrl & LNCTRL_FORCE_XOFF) ) { | |
if (!(lp->lnctrl & LNCTRL_IAUTO)) | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), XON); | |
else if (!(vh_crit & (1 << vh)) && | |
(vh_stall[vh] & (1 << CSR_GETCHAN (vh_csr[vh])))) | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), XON); | |
} | |
if ( (data & LNCTRL_IAUTO) && /* IAUTO 0->1 */ | |
!(lp->lnctrl & LNCTRL_IAUTO) ) { | |
if (!(lp->lnctrl & LNCTRL_FORCE_XOFF)) { | |
if (vh_crit & (1 << vh)) { | |
vh_putc (vh, lp, | |
CSR_GETCHAN (vh_csr[vh]), XOFF); | |
vh_stall[vh] |= (1 << CSR_GETCHAN (vh_csr[vh])); | |
} | |
} else { | |
/* vh_stall[vh] |= (1 << CSR_GETCHAN (vh_csr[vh])) */; | |
} | |
} else if ( !(data & LNCTRL_IAUTO) && | |
(lp->lnctrl & LNCTRL_IAUTO) ) { | |
if (!(lp->lnctrl & LNCTRL_FORCE_XOFF)) | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), XON); | |
} | |
/* check modem control bits */ | |
if ( !(data & LNCTRL_DTR) && /* DTR 1->0 */ | |
(lp->lnctrl & LNCTRL_DTR)) { | |
if ((lp->tmln->conn) && (vh_unit[vh].flags & UNIT_HANGUP)) { | |
tmxr_linemsg (lp->tmln, "\r\nLine hangup\r\n"); | |
tmxr_reset_ln (lp->tmln); | |
} | |
HangupModem (vh, lp, CSR_GETCHAN (vh_csr[vh])); | |
} | |
lp->lnctrl = data; | |
lp->tmln->rcve = (data & LNCTRL_RX_ENA) ? 1 : 0; | |
tmxr_poll_rx (&vh_desc); | |
vh_getc (vh); | |
if (lp->lnctrl & LNCTRL_BREAK) | |
vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), 0); | |
break; | |
case 5: /* TBUFFAD1 */ | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(lp->tbuf1 & 0377) | (data << 8) : | |
(lp->tbuf1 & ~0377) | (data & 0377); | |
lp->tbuf1 = data; | |
break; | |
case 6: /* TBUFFAD2 */ | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(lp->tbuf2 & 0377) | (data << 8) : | |
(lp->tbuf2 & ~0377) | (data & 0377); | |
lp->tbuf2 = data; | |
/* if starting a DMA, clear DMA_ERR */ | |
if (vh_unit[vh].flags & UNIT_FASTDMA) { | |
doDMA (vh, CSR_GETCHAN (vh_csr[vh])); | |
tmxr_send_buffered_data (lp->tmln); | |
} | |
break; | |
case 7: /* TBUFFCT */ | |
if ((data == RESET_ABORT) && (vh_csr[vh] & CSR_MASTER_RESET)) { | |
vh_mcount[vh] = 1; | |
sim_clock_coschedule (vh_timer_unit, tmxr_poll); | |
break; | |
} | |
if (CSR_GETCHAN (vh_csr[vh]) >= VH_LINES) | |
break; | |
line = (vh * VH_LINES) + CSR_GETCHAN (vh_csr[vh]); | |
lp = &vh_parm[line]; | |
if (access == WRITEB) | |
data = (PA & 1) ? | |
(lp->tbuffct & 0377) | (data << 8) : | |
(lp->tbuffct & ~0377) | (data & 0377); | |
lp->tbuffct = data; | |
break; | |
default: | |
/* can't happen */ | |
break; | |
} | |
return (SCPE_OK); | |
} | |
static void doDMA ( int32 vh, | |
int32 chan ) | |
{ | |
int32 line, status; | |
uint32 pa; | |
TMLX *lp; | |
line = (vh * VH_LINES) + chan; | |
lp = &vh_parm[line]; | |
if ((lp->tbuf2 & TB2_TX_ENA) && (lp->tbuf2 & TB2_TX_DMA_START)) { | |
/* BUG: should compare against available xmit buffer space */ | |
pa = lp->tbuf1; | |
pa |= (lp->tbuf2 & TB2_M_TBUFFAD) << 16; | |
status = chan << CSR_V_TX_LINE; | |
while (lp->tbuffct) { | |
uint8 buf; | |
if (Map_ReadB (pa, 1, &buf)) { | |
status |= CSR_TX_DMA_ERR; | |
lp->tbuffct = 0; | |
break; | |
} | |
if (vh_putc (vh, lp, chan, buf) != SCPE_OK) | |
break; | |
/* pa = (pa + 1) & PAMASK; */ | |
pa = (pa + 1) & ((1 << 22) - 1); | |
lp->tbuffct--; | |
} | |
lp->tbuf1 = pa & 0177777; | |
lp->tbuf2 = (lp->tbuf2 & ~TB2_M_TBUFFAD) | | |
((pa >> 16) & TB2_M_TBUFFAD); | |
if ((lp->tbuffct == 0) || (!lp->tmln->conn)) { | |
lp->tbuf2 &= ~TB2_TX_DMA_START; | |
q_tx_report (vh, status); | |
} | |
} | |
} | |
/* Perform many of the functions of PROC2 */ | |
static t_stat vh_timersvc ( UNIT *uptr ) | |
{ | |
int32 vh; | |
sim_debug(DBG_TIMTRC, &vh_dev, "vh_timersvc()\n"); | |
/* scan all DHU-mode muxes for RX FIFO timeout */ | |
for (vh = 0; vh < vh_desc.lines/VH_LINES; vh++) { | |
if (vh_unit[vh].flags & UNIT_MODEDHU) { | |
if (vh_timeo[vh] && (vh_csr[vh] & CSR_RXIE)) { | |
vh_timeo[vh] -= 1; | |
if ((vh_timeo[vh] == 0) && rbuf_idx[vh]) { | |
vh_set_rxint (vh); | |
sim_debug (DBG_TIM, &vh_dev, "vh_timersvc() - vh=%d, RX FIFO Timeout\n", vh); | |
} | |
} | |
} | |
} | |
/* scan all muxes for countdown reset */ | |
for (vh = 0; vh < vh_desc.lines/VH_LINES; vh++) { | |
if (vh_csr[vh] & CSR_MASTER_RESET) { | |
if (vh_mcount[vh] != 0) | |
vh_mcount[vh] -= 1; | |
else { | |
vh_clear (vh, FALSE); | |
sim_debug (DBG_TIM, &vh_dev, "vh_timersvc() - vh=%d, Master Reset Complete\n", vh); | |
} | |
} | |
} | |
sim_clock_coschedule (uptr, tmxr_poll); /* requeue ourselves */ | |
return (SCPE_OK); | |
} | |
static t_stat vh_svc ( UNIT *uptr ) | |
{ | |
int32 vh, newln; | |
sim_debug(DBG_TRC, find_dev_from_unit(uptr), "vh_svc()\n"); | |
/* sample every 10ms for modem changes (new connections) */ | |
newln = tmxr_poll_conn (&vh_desc); | |
if (newln >= 0) { | |
TMLX *lp; | |
int32 line; | |
vh = newln / VH_LINES; /* determine which mux */ | |
line = newln - (vh * VH_LINES); | |
lp = &vh_parm[newln]; | |
lp->lstat |= STAT_DSR | STAT_DCD | STAT_CTS; | |
if (!(lp->lnctrl & LNCTRL_DTR)) | |
lp->lstat |= STAT_RI; | |
if (lp->lnctrl & LNCTRL_LINK_TYPE) | |
fifo_put (vh, lp, RBUF_DIAG | | |
RBUF_PUTLINE (line) | | |
((lp->lstat >> 8) & 0376)); | |
/* BUG: should check for overflow above */ | |
} | |
/* interrupt driven in a real DHQ */ | |
tmxr_poll_rx (&vh_desc); | |
for (vh = 0; vh < vh_desc.lines/VH_LINES; vh++) | |
vh_getc (vh); | |
sim_clock_coschedule (uptr, tmxr_poll); /* requeue ourselves */ | |
return SCPE_OK; | |
} | |
static t_stat vh_xmt_svc ( UNIT *uptr ) | |
{ | |
int32 vh, i; | |
sim_debug(DBG_TRC, find_dev_from_unit(uptr), "vh_xmt_svc()\n"); | |
/* scan all muxes lines */ | |
for (vh = 0; vh < vh_desc.lines/VH_LINES; vh++) { | |
for (i = 0; i < VH_LINES; i++) { | |
int32 line = (vh * VH_LINES) + i; | |
TMLX *lp = &vh_parm[line]; | |
/* process any pending programmed output */ | |
if (lp->txchar & TXCHAR_TX_DATA_VALID) { | |
if (lp->tbuf2 & TB2_TX_ENA) { | |
if (vh_putc (vh, lp, CSR_GETCHAN (vh_csr[vh]), | |
lp->txchar) != SCPE_STALL) { | |
q_tx_report (vh, | |
CSR_GETCHAN (vh_csr[vh]) << CSR_V_TX_LINE); | |
lp->txchar &= ~TXCHAR_TX_DATA_VALID; | |
} | |
} | |
} | |
/* process pending DMA */ | |
doDMA (vh, i); | |
} | |
} | |
tmxr_poll_tx (&vh_desc); | |
sim_clock_coschedule (uptr, tmxr_poll); /* requeue ourselves */ | |
return SCPE_OK; | |
} | |
/* init a channel on a controller */ | |
/* set for: | |
send/receive 9600 | |
8 data bits | |
1 stop bit | |
no parity | |
parity odd | |
auto-flow off | |
RX disabled | |
TX enabled | |
no break on line | |
no loopback | |
link type set to data-leads only | |
DTR & RTS off | |
DMA character counter 0 | |
DMA start address registers 0 | |
TX_DMA_START 0 | |
TX_ABORT 0 | |
auto-flow reports enabled | |
FIFO size set to 64 | |
*/ | |
static void vh_init_chan ( int32 vh, | |
int32 chan ) | |
{ | |
int32 line; | |
TMLX *lp; | |
line = (vh * VH_LINES) + chan; | |
lp = &vh_parm[line]; | |
lp->lpr = (RATE_9600 << LPR_V_TX_SPEED) | | |
(RATE_9600 << LPR_V_RX_SPEED) | | |
(03 << LPR_V_CHAR_LGTH); | |
vh_set_config ( lp ); | |
lp->lnctrl = 0; | |
lp->lstat &= ~(STAT_MDL | STAT_DHUID | STAT_RI); | |
if (vh_unit[vh].flags & UNIT_MODEDHU) | |
lp->lstat |= STAT_DHUID | 64; | |
if (!(vh_unit[vh].flags & UNIT_MODEM)) | |
lp->lstat |= STAT_DSR | STAT_DCD | STAT_CTS; | |
lp->tmln->xmte = 1; | |
lp->tmln->rcve = 0; | |
lp->tbuffct = 0; | |
lp->tbuf1 = 0; | |
lp->tbuf2 = TB2_TX_ENA; | |
lp->txchar = 0; | |
} | |
/* init a controller; flag true if BINIT, false if master.reset */ | |
static t_stat vh_clear ( int32 vh, | |
t_bool flag ) | |
{ | |
int32 i; | |
txq_idx[vh] = 0; | |
rbuf_idx[vh] = 0; | |
/* put 8 diag bytes in FIFO: 6 SELF_x, 2 circuit revision codes */ | |
if (vh_csr[vh] & CSR_SKIP) { | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(0) | SELF_SKIP); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(1) | SELF_SKIP); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(2) | SELF_SKIP); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(3) | SELF_SKIP); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(4) | SELF_SKIP); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(5) | SELF_SKIP); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(6) | 0107); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(7) | 0105); | |
} else { | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(0) | SELF_NULL); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(1) | SELF_NULL); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(2) | SELF_NULL); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(3) | SELF_NULL); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(4) | SELF_NULL); | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(5) | SELF_NULL); | |
/* PROC2 ver. 1 */ | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(6) | 0107); | |
/* PROC1 ver. 1 */ | |
fifo_put (vh, NULL, RBUF_DIAG | RBUF_PUTLINE(7) | 0105); | |
} | |
vh_csr[vh] &= ~(CSR_TX_ACTION|CSR_DIAG_FAIL|CSR_MASTER_RESET); | |
if (flag) | |
vh_csr[vh] &= ~(CSR_TXIE|CSR_RXIE|CSR_SKIP); | |
vh_csr[vh] |= CSR_TX_DMA_ERR | (CSR_M_TX_LINE << CSR_V_TX_LINE); | |
vh_clr_rxint (vh); | |
vh_clr_txint (vh); | |
vh_timer[vh] = 1; | |
vh_timeo[vh] = 0; | |
vh_ovrrun[vh] = 0; | |
for (i = 0; i < VH_LINES; i++) | |
vh_init_chan (vh, i); | |
vh_crit &= ~(1 << vh); | |
vh_stall[vh] = 0; | |
vh_loop[vh] = LOOP_NONE; | |
return (SCPE_OK); | |
} | |
/* Reset all controllers. Used by BINIT and RESET. */ | |
static t_stat vh_reset ( DEVICE *dptr ) | |
{ | |
int32 i; | |
tmxr_set_port_speed_control (&vh_desc); | |
if (vh_desc.lines > VH_MUXES*VH_LINES) | |
vh_desc.lines = VH_MUXES*VH_LINES; | |
for (i = 0; i < vh_desc.lines; i++) { | |
vh_parm[i].tmln = &vh_ldsc[i]; | |
tmxr_set_line_unit (&vh_desc, i, vh_poll_unit); | |
tmxr_set_line_output_unit (&vh_desc, i, vh_xmit_unit); | |
} | |
vh_dev.numunits = (vh_desc.lines / VH_LINES) + 3; | |
if (vh_poll_unit) | |
sim_cancel (vh_poll_unit); | |
vh_poll_unit = &vh_unit[(vh_desc.lines / VH_LINES) + 0]; | |
vh_poll_unit->action = &vh_svc; | |
vh_poll_unit->flags = UNIT_DIS | UNIT_IDLE; | |
if (vh_xmit_unit) | |
sim_cancel (vh_xmit_unit); | |
vh_xmit_unit = &vh_unit[(vh_desc.lines / VH_LINES) + 1]; | |
vh_xmit_unit->action = &vh_xmt_svc; | |
vh_xmit_unit->flags = UNIT_DIS; | |
if (vh_timer_unit) | |
sim_cancel (vh_timer_unit); | |
vh_timer_unit = &vh_unit[(vh_desc.lines / VH_LINES) + 2]; | |
vh_timer_unit->action = &vh_timersvc; | |
vh_timer_unit->flags = UNIT_DIS | UNIT_IDLE; | |
for (i = 0; i < VH_MUXES; i++) { | |
if (i < vh_desc.lines/VH_LINES) { | |
/* if Unibus, force DHU mode */ | |
if (UNIBUS) | |
vh_unit[i].flags |= UNIT_MODEDHU; | |
vh_unit[i].flags &= ~UNIT_DIS; | |
vh_clear (i, TRUE); | |
} else { | |
vh_unit[i].flags |= UNIT_DIS; | |
} | |
} | |
vh_rxi = vh_txi = 0; | |
CLR_INT (VHRX); | |
CLR_INT (VHTX); | |
vh_dib.lnt = (vh_desc.lines / VH_LINES) * IOLN_VH; /* set length */ | |
return (auto_config (dptr->name, (dptr->flags & DEV_DIS) ? 0 : vh_desc.lines/VH_LINES)); | |
} | |
static t_stat vh_attach ( UNIT *uptr, | |
CONST char *cptr ) | |
{ | |
if (uptr == vh_unit) | |
return tmxr_attach (&vh_desc, uptr, cptr); | |
return SCPE_NOATT; | |
} | |
static t_stat vh_detach ( UNIT *uptr ) | |
{ | |
return (tmxr_detach (&vh_desc, uptr)); | |
} | |
static t_stat vh_show_vec (FILE *st, UNIT *uptr, int32 arg, CONST void *desc) | |
{ | |
const TMXR *mp = (const TMXR *) desc; | |
return show_vec (st, uptr, ((mp->lines * 2) / VH_LINES), desc); | |
} | |
static void vh_detail_line ( FILE *st, | |
int32 vh, | |
int32 chan ) | |
{ | |
int32 line; | |
TMLX *lp; | |
line = (vh * VH_LINES) + chan; | |
lp = &vh_parm[line]; | |
fprintf (st, "\tline %d\tlpr %06o, lnctrl %06o, lstat %06o\n", | |
chan, lp->lpr, lp->lnctrl, lp->lstat); | |
fprintf (st, "\t\ttbuffct %06o, tbuf1 %06o, tbuf2 %06o, txchar %06o\n", | |
lp->tbuffct, lp->tbuf1, lp->tbuf2, lp->txchar); | |
fprintf (st, "\t\ttmln rcve %d xmte %d\n", | |
lp->tmln->rcve, lp->tmln->xmte); | |
} | |
static t_stat vh_show_detail ( FILE *st, | |
UNIT *uptr, | |
int32 val, | |
CONST void *desc ) | |
{ | |
int32 i, j; | |
fprintf (st, "VH:\trxi %d, txi %d\n", vh_rxi, vh_txi); | |
for (i = 0; i < vh_desc.lines/VH_LINES; i++) { | |
fprintf (st, "VH%d:\tmode %s, crit %d\n", i, | |
vh_unit[i].flags & UNIT_MODEDHU ? "DHU" : "DHV", | |
vh_crit & (1 << i)); | |
fprintf (st, "\tCSR %06o, mcount %d, rbuf_idx %d, txq_idx %d\n", | |
vh_csr[i], vh_mcount[i], rbuf_idx[i], txq_idx[i]); | |
for (j = 0; j < VH_LINES; j++) | |
vh_detail_line (st, i, j); | |
} | |
return (SCPE_OK); | |
} | |
static t_stat vh_show_rbuf ( FILE *st, | |
UNIT *uptr, | |
int32 val, | |
CONST void *desc ) | |
{ | |
int32 i; | |
for (i = 0; i < rbuf_idx[0]; i++) | |
fprintf (st, "%03d: %06o\n", i, vh_rbuf[0][i]); | |
return (SCPE_OK); | |
} | |
static t_stat vh_show_txq ( FILE *st, | |
UNIT *uptr, | |
int32 val, | |
CONST void *desc ) | |
{ | |
int32 i; | |
for (i = 0; i < txq_idx[0]; i++) | |
fprintf (st, "%02d: %06o\n", i, vh_txq[0][i]); | |
return (SCPE_OK); | |
} | |
/* SET LINES processor */ | |
static t_stat vh_setnl (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
int32 newln, i, t; | |
t_stat r; | |
if (cptr == NULL) | |
return SCPE_ARG; | |
newln = (int32) get_uint (cptr, 10, (VH_MUXES * VH_LINES), &r); | |
if ((r != SCPE_OK) || (newln == vh_desc.lines)) | |
return r; | |
if ((newln == 0) || (newln % VH_LINES)) | |
return sim_messagef (SCPE_ARG, "VH line count must be a multiple of %d\n", VH_LINES); | |
if (newln < vh_desc.lines) { | |
for (i = newln, t = 0; i < vh_desc.lines; i++) | |
t = t | vh_ldsc[i].conn; | |
if (t && !get_yn ("This will disconnect users; proceed [N]?", FALSE)) | |
return SCPE_OK; | |
for (i = newln; i < vh_desc.lines; i++) { | |
if (vh_ldsc[i].conn) { | |
tmxr_linemsg (&vh_ldsc[i], "\r\nOperator disconnected line\r\n"); | |
tmxr_reset_ln (&vh_ldsc[i]); /* reset line */ | |
} | |
if ((i % VH_LINES) == (VH_LINES - 1)) | |
vh_clear (i / VH_LINES, TRUE); /* reset mux */ | |
} | |
} | |
vh_desc.lines = newln; | |
return vh_reset (&vh_dev); | |
} | |
/* SET DHU/DHV mode processor */ | |
static t_stat vh_setmode (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
if (cptr) | |
return SCPE_ARG; | |
if ((UNIBUS) && (val != UNIT_MODEDHU)) | |
return SCPE_ARG; | |
return SCPE_OK; | |
} | |
/* SET LOG processor */ | |
static t_stat vh_set_log (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
t_stat r; | |
char gbuf[CBUFSIZE]; | |
int32 ln; | |
if (cptr == NULL) | |
return SCPE_ARG; | |
cptr = get_glyph (cptr, gbuf, '='); | |
if ((cptr == NULL) || (*cptr == 0) || (gbuf[0] == 0)) | |
return SCPE_ARG; | |
ln = (int32) get_uint (gbuf, 10, vh_desc.lines, &r); | |
if ((r != SCPE_OK) || (ln >= vh_desc.lines)) | |
return SCPE_ARG; | |
return tmxr_set_log (NULL, ln, cptr, desc); | |
} | |
/* SET NOLOG processor */ | |
static t_stat vh_set_nolog (UNIT *uptr, int32 val, CONST char *cptr, void *desc) | |
{ | |
t_stat r; | |
int32 ln; | |
if (cptr == NULL) | |
return SCPE_ARG; | |
ln = (int32) get_uint (cptr, 10, (VH_MUXES * VH_LINES), &r); | |
if ((r != SCPE_OK) || (ln >= vh_desc.lines)) | |
return SCPE_ARG; | |
return tmxr_set_nolog (NULL, ln, NULL, desc); | |
} | |
/* SHOW LOG processor */ | |
static t_stat vh_show_log (FILE *st, UNIT *uptr, int32 val, CONST void *desc) | |
{ | |
int32 i; | |
for (i = 0; i < vh_desc.lines; i++) { | |
fprintf (st, "line %d: ", i); | |
tmxr_show_log (st, NULL, i, desc); | |
fprintf (st, "\n"); | |
} | |
return SCPE_OK; | |
} | |
static t_stat vh_help (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr) | |
{ | |
const char *devtype = (UNIBUS) ? "DH11" : "DHQ11"; | |
fprintf (st, "%s Terminal Multiplexer (%s)\n\n", devtype, dptr->name); | |
fprintf (st, "The %s is an %d-line terminal multiplexer for %s systems. Up to %d %s's\n", devtype, VH_LINES, (UNIBUS) ? "Unibus" : "Qbus", VH_MUXES, devtype); | |
fprintf (st, "are supported.\n\n"); | |
fprintf (st, "The %s is a programmable asynchronous terminal multiplexer. It has two\n", devtype); | |
fprintf (st, "programming modes: DHV11 and DHU11. The register sets are compatible with\n"); | |
fprintf (st, "these devices. For transmission, the %s can be used in either DMA or\n", devtype); | |
fprintf (st, "programmed I/O mode. For reception, there is a 256-entry FIFO for received\n"); | |
fprintf (st, "characters, dataset status changes, and diagnostic information, and a\n"); | |
fprintf (st, "programmable input interrupt timer (in DHU mode). The device supports\n"); | |
fprintf (st, "16-, 18-, and 22-bit addressing. The %s can be programmed to filter\n", devtype); | |
fprintf (st, "and/or handle XON/XOFF characters independently of the processor.\n"); | |
fprintf (st, "The %s supports programmable bit width (between 5 and 8) for the input\n", devtype); | |
fprintf (st, "and output of characters.\n\n"); | |
fprintf (st, "By default, the DHV11 mode is selected, though DHU11 mode is recommended\n"); | |
fprintf (st, "for applications that can support it. The %s controller may be adjusted\n", dptr->name); | |
fprintf (st, "on a per controller basis as follows:\n\n"); | |
fprintf (st, " sim> SET %sn DHU use the DHU programming mode\n", dptr->name); | |
fprintf (st, " sim> SET %sn DHV use the DHV programming mode\n\n", dptr->name); | |
fprintf (st, "DMA output is supported. In a real %s, DMA is not initiated immediately\n", devtype); | |
fprintf (st, "upon receipt of TX.DMA.START but is dependent upon some internal processes.\n"); | |
fprintf (st, "The %s controller mimics this behavior by default. It may be desirable to\n", dptr->name); | |
fprintf (st, "alter this and start immediately, though this may not be compatible with all\n"); | |
fprintf (st, "operating systems and diagnostics. You can change the behavior of the %s\n", dptr->name); | |
fprintf (st, "controller as follows:\n\n"); | |
fprintf (st, " sim> SET %sn NORMAL use normal DMA procedures\n", dptr->name); | |
fprintf (st, " sim> SET %sn FASTDMA set DMA to initiate immediately\n\n", dptr->name); | |
fprintf (st, "The number of lines (and therefore the number of %s devices\n", devtype); | |
fprintf (st, "simulated) can be changed with the command:\n\n"); | |
fprintf (st, " sim> SET %s LINES=n set line count to n\n\n", dptr->name); | |
fprintf (st, "The line count must be a multiple of %d, with a maximum of %d.\n\n", VH_LINES, VH_LINES*VH_MUXES); | |
fprintf (st, "Modem and auto-disconnect support may be set on an individual controller\n"); | |
fprintf (st, "basis. The SET MODEM command directs the controller to report modem status\n"); | |
fprintf (st, "changes to the computer. The SET HANGUP command turns on active disconnects\n"); | |
fprintf (st, "(disconnect session if computer clears Data Terminal Ready).\n\n"); | |
fprintf (st, " sim> SET %sn [NO]MODEM disable/enable modem control\n", dptr->name); | |
fprintf (st, " sim> SET %sn [NO]HANGUP disable/enable disconnect on DTR drop\n\n", dptr->name); | |
fprintf (st, "Once the %s devuce is attached and the simulator is running, the %s will\n", dptr->name, dptr->name); | |
fprintf (st, "listen for connections on the specified port. It assumes that the incoming\n"); | |
fprintf (st, "connections are Telnet connections. The connection remains open until\n"); | |
fprintf (st, "disconnected by the simulated program, the Telnet client, a SET %s DISCONNECT\n", dptr->name); | |
fprintf (st, "command, or a DETACH %s command.\n\n", dptr->name); | |
fprintf (st, "Other special %s commands:\n\n", dptr->name); | |
fprintf (st, " sim> SHOW %s CONNECTIONS show current connections\n", dptr->name); | |
fprintf (st, " sim> SHOW %s STATISTICS show statistics for active connections\n", dptr->name); | |
fprintf (st, " sim> SET %s DISCONNECT=linenumber disconnects the specified line.\n\n", dptr->name); | |
fprintf (st, "The %s does not support save and restore. All open connections are lost\n", devtype); | |
fprintf (st, "when the simulator shuts down or the %s is detached.\n\n", dptr->name); | |
vh_help_attach (st, dptr, uptr, flag, cptr); | |
return SCPE_OK; | |
} | |
static t_stat vh_help_attach (FILE *st, DEVICE *dptr, UNIT *uptr, int32 flag, const char *cptr) | |
{ | |
const char *devtype = (UNIBUS) ? "DH11" : "DHQ11"; | |
fprintf (st, "%s %s Terminal Multiplexer Attach Help\n\n", devtype, dptr->name); | |
return tmxr_attach_help (st, dptr, uptr, 1, cptr); | |
} | |
static const char *vh_description (DEVICE *dptr) | |
{ | |
return (UNIBUS) ? "DH11 16-line Terminal Multiplexer" : "DHQ11 8-line Terminal Multiplexer"; | |
} |