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freebsd-dev/sys/dev/musycc/musycc.c
Julian Elischer 589f6ed8ce Divorce the kernel binary ABI version number from the message 
format version number. (userland programs should not need to be
recompiled when the netgraph kernel internal ABI is changed.

Also fix modules that don;t handle the fact that a caller may not supply
a return message pointer. (benign at the moment because the calling code
checks, but that will change)
2000-12-18 20:03:32 +00:00

1473 lines
35 KiB
C
Raw Blame History

/*
* ----------------------------------------------------------------------------
* "THE BEER-WARE LICENSE" (Revision 42):
* <phk@FreeBSD.org> wrote this file. As long as you retain this notice you
* can do whatever you want with this stuff. If we meet some day, and you think
* this stuff is worth it, you can buy me a beer in return. Poul-Henning Kamp
* ----------------------------------------------------------------------------
*
* $FreeBSD$
*
*
*
* Card state machine:
* -------------------
*
* This is the state engine which drives the card "as such" which in reality
* means the MUSYCC chip.
*
* State Description
*
* IDLE The card is in this state when no channels are configured.
* This is the state we leave the card in after _attach()
*
* INIT The card is being initialized
*
* RUNNING The card is running
*
* FAULT The card is hosed and being reset
*
* ------------------
* / \
* v |
* IDLE ---> INIT ---> RUNNING
* ^ |
* | |
* | v
* FAULT
*
*/
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/conf.h>
#include <sys/kernel.h>
#include <sys/sysctl.h>
#include <sys/malloc.h>
#include <sys/bus.h>
#include <sys/mbuf.h>
#include <sys/queue.h>
#include <machine/bus.h>
#include <machine/clock.h>
#include <sys/rman.h>
#include <machine/resource.h>
#include <pci/pcireg.h>
#include <pci/pcivar.h>
#include "pci_if.h"
#include <netgraph/ng_message.h>
#include <netgraph/netgraph.h>
#include <vm/vm.h>
#include <vm/pmap.h>
static MALLOC_DEFINE(M_MUSYCC, "musycc", "MUSYCC related");
static int maxlatency = 250;
SYSCTL_INT(_debug, OID_AUTO, musycc_maxlatency, CTLFLAG_RW, &maxlatency, 0,
"The number of milliseconds a packet is allowed to spend in the output queue. "
"If the output queue is longer than this number of milliseconds when the packet "
"arrives for output, the packet will be dropped."
);
static int debug = 0;
SYSCTL_INT(_debug, OID_AUTO, musycc_debug, CTLFLAG_RW, &debug, 0, "");
struct softc;
static void init_8370(struct softc *sc);
static u_int32_t parse_ts(const char *s, int *nbit);
/*
* Device driver initialization stuff
*/
static devclass_t musycc_devclass;
/* XXX: Notice, these babies must be aligned to 2k boundaries [5-7] */
struct groupr {
u_int32_t thp[32]; /* Transmit Head Pointer [5-29] */
u_int32_t tmp[32]; /* Transmit Message Pointer [5-30] */
u_int32_t rhp[32]; /* Receive Head Pointer [5-29] */
u_int32_t rmp[32]; /* Receive Message Pointer [5-30] */
u_int8_t ttsm[128]; /* Time Slot Map [5-22] */
u_int8_t tscm[256]; /* Subchannel Map [5-24] */
u_int32_t tcct[32]; /* Channel Configuration [5-26] */
u_int8_t rtsm[128]; /* Time Slot Map [5-22] */
u_int8_t rscm[256]; /* Subchannel Map [5-24] */
u_int32_t rcct[32]; /* Channel Configuration [5-26] */
u_int32_t __glcd; /* Global Configuration Descriptor [5-10] */
u_int32_t __iqp; /* Interrupt Queue Pointer [5-36] */
u_int32_t __iql; /* Interrupt Queue Length [5-36] */
u_int32_t grcd; /* Group Configuration Descriptor [5-16] */
u_int32_t mpd; /* Memory Protection Descriptor [5-18] */
u_int32_t mld; /* Message Length Descriptor [5-20] */
u_int32_t pcd; /* Port Configuration Descriptor [5-19] */
u_int32_t __rbist; /* Receive BIST status [5-4] */
u_int32_t __tbist; /* Receive BIST status [5-4] */
};
struct globalr {
u_int32_t gbp; /* Group Base Pointer */
u_int32_t dacbp; /* Dual Address Cycle Base Pointer */
u_int32_t srd; /* Service Request Descriptor */
u_int32_t isd; /* Interrupt Service Descriptor */
u_int32_t __thp[28]; /* Transmit Head Pointer [5-29] */
u_int32_t __tmp[32]; /* Transmit Message Pointer [5-30] */
u_int32_t __rhp[32]; /* Receive Head Pointer [5-29] */
u_int32_t __rmp[32]; /* Receive Message Pointer [5-30] */
u_int8_t ttsm[128]; /* Time Slot Map [5-22] */
u_int8_t tscm[256]; /* Subchannel Map [5-24] */
u_int32_t tcct[32]; /* Channel Configuration [5-26] */
u_int8_t rtsm[128]; /* Time Slot Map [5-22] */
u_int8_t rscm[256]; /* Subchannel Map [5-24] */
u_int32_t rcct[32]; /* Channel Configuration [5-26] */
u_int32_t glcd; /* Global Configuration Descriptor [5-10] */
u_int32_t iqp; /* Interrupt Queue Pointer [5-36] */
u_int32_t iql; /* Interrupt Queue Length [5-36] */
u_int32_t grcd; /* Group Configuration Descriptor [5-16] */
u_int32_t mpd; /* Memory Protection Descriptor [5-18] */
u_int32_t mld; /* Message Length Descriptor [5-20] */
u_int32_t pcd; /* Port Configuration Descriptor [5-19] */
u_int32_t rbist; /* Receive BIST status [5-4] */
u_int32_t tbist; /* Receive BIST status [5-4] */
};
/*
* Because the chan_group must be 2k aligned we create this super
* structure so we can use the remaining 476 bytes for something useful
*/
struct mycg {
struct groupr cg;
};
struct mdesc {
u_int32_t status;
u_int32_t data;
u_int32_t next;
/* Software only */
struct mbuf *m;
};
#define NPORT 8
#define NHDLC 32
#define NIQD 32
struct softc;
struct schan {
enum {DOWN, UP} state;
struct softc *sc;
int chan;
u_int32_t ts;
char hookname[8];
hook_p hook;
u_long rx_drop; /* mbuf allocation failures */
u_long tx_limit;
u_long tx_pending;
int tx_next_md; /* index to the next MD */
int tx_last_md; /* index to the last MD */
int rx_last_md; /* index to next MD */
int nmd; /* count of MD's. */
#if 0
time_t last_recv;
time_t last_rxerr;
time_t last_xmit;
u_long rx_error;
u_long short_error;
u_long crc_error;
u_long dribble_error;
u_long long_error;
u_long abort_error;
u_long overflow_error;
int last_error;
int prev_error;
#endif
};
enum framing {WHOKNOWS, E1, E1U, T1, T1U};
enum clocksource {EXT, INT};
struct softc {
enum framing framing;
enum clocksource clocksource;
int nhooks;
u_int32_t last;
struct csoftc *csc;
u_int32_t *ds8370;
void *ds847x;
struct globalr *reg;
struct groupr *ram;
struct mycg *mycg;
struct mdesc *mdt[NHDLC];
struct mdesc *mdr[NHDLC];
node_p node; /* NG node */
char nodename[NG_NODELEN + 1]; /* NG nodename */
struct schan *chan[NHDLC];
u_long cnt_ferr;
u_long cnt_cerr;
u_long cnt_lcv;
u_long cnt_febe;
u_long cnt_berr;
u_long cnt_fred;
u_long cnt_cofa;
u_long cnt_sef;
};
/*
* SoftC for the entire card.
*/
struct csoftc {
enum { C_IDLE, C_INIT, C_RUNNING, C_FAULT } state;
int unit, bus, slot;
LIST_ENTRY(csoftc) list;
device_t f[2];
struct resource *irq[2];
void *intrhand[2];
vm_offset_t physbase[2];
u_char *virbase[2];
u_int creg, *cregp;
int nchan;
struct softc serial[NPORT];
struct globalr *reg;
struct globalr *ram;
u_int32_t iqd[NIQD];
};
/*
*
*/
#define NG_NODETYPE "lmc1504"
static ng_constructor_t musycc_constructor;
static ng_rcvmsg_t musycc_rcvmsg;
static ng_shutdown_t musycc_shutdown;
static ng_newhook_t musycc_newhook;
static ng_connect_t musycc_connect;
static ng_rcvdata_t musycc_rcvdata;
static ng_disconnect_t musycc_disconnect;
static struct ng_type ngtypestruct = {
NG_ABI_VERSION,
NG_NODETYPE,
NULL,
musycc_constructor,
musycc_rcvmsg,
musycc_shutdown,
musycc_newhook,
NULL,
musycc_connect,
musycc_rcvdata,
musycc_disconnect,
NULL
};
/*
*
*/
static u_int32_t
parse_ts(const char *s, int *nbit)
{
unsigned r;
int i, j;
char *p;
r = 0;
j = -1;
*nbit = 0;
while(*s) {
i = strtol(s, &p, 0);
if (i < 0 || i > 31)
return (0);
while (j != -1 && j < i) {
r |= 1 << j++;
(*nbit)++;
}
j = -1;
r |= 1 << i;
(*nbit)++;
if (*p == ',') {
s = p + 1;
continue;
} else if (*p == '-') {
j = i + 1;
s = p + 1;
continue;
} else if (!*p) {
break;
} else {
return (0);
}
}
return (r);
}
/*
*
*/
static LIST_HEAD(, csoftc) sc_list = LIST_HEAD_INITIALIZER(&sc_list);
static void
poke_847x(void *dummy)
{
static int count;
int i;
struct csoftc *csc;
timeout(poke_847x, NULL, 1);
LIST_FOREACH(csc, &sc_list, list) {
count++;
i = (csc->creg >> 24 & 0xf);
csc->creg &= ~0xf000000;
i++;
csc->creg |= (i & 0xf) << 24;
*csc->cregp = csc->creg;
#if 0
for (i = 0; i < sc->nchan; i++) {
if (sc->serial[i].last == 0xffffffff) {
sc->serial[i].reg->srd = 0;
sc->serial[i].last = 0;
return;
}
}
#endif
}
}
static void
init_card(struct csoftc *csc)
{
printf("init_card(%p)\n", csc);
csc->state = C_INIT;
csc->reg->srd = 0x100;
tsleep(csc, PZERO | PCATCH, "icard", hz / 10);
csc->reg->gbp = vtophys(csc->ram);
csc->ram->glcd = 0x3f30; /* XXX: designer magic */
csc->ram->iqp = vtophys(csc->iqd);
csc->ram->iql = NIQD - 1;
csc->ram->dacbp = 0; /* 32bit only */
csc->reg->srd = csc->serial[0].last = 0x400;
tsleep(&csc->serial[0].last, PZERO + PCATCH, "con1", hz);
timeout(poke_847x, NULL, 1);
csc->state = C_RUNNING;
}
static void
init_ctrl(struct softc *sc)
{
int i;
printf("init_ctrl(%p) [%s] [%08x]\n", sc, sc->nodename, sc->csc->reg->glcd);
init_8370(sc);
tsleep(sc, PZERO | PCATCH, "ds8370", hz);
printf("%s: glcd: [%08x]\n", sc->nodename, sc->csc->reg->glcd);
sc->reg->gbp = vtophys(sc->ram);
sc->ram->grcd = 0x00000001; /* RXENBL */
sc->ram->grcd |= 0x00000002; /* TXENBL */
sc->ram->grcd |= 0x00000004; /* SUBDSBL */
if (sc->framing == E1 || sc->framing == T1)
sc->ram->grcd |= 0x00000008; /* OOFABT */
else
sc->ram->grcd |= 0x00000000; /* !OOFABT */
sc->ram->grcd |= 0x00000020; /* MSKCOFA */
sc->ram->grcd |= 0x00000400; /* POLLTH=1 */
sc->ram->mpd = 0; /* Memory Protection NI [5-18] */
sc->ram->pcd = 0x0000001; /* PORTMD=1 (E1/32ts) */
sc->ram->pcd |= 1 << 5; /* TSYNC_EDGE */
sc->ram->pcd |= 1 << 9; /* TRITX */
/* Message length descriptor */
/* XXX: MTU */
sc->ram->mld = 1600;
sc->ram->mld |= (1600 << 16);
for (i = 0; i < NHDLC; i++) {
sc->ram->ttsm[i] = 0;
sc->ram->rtsm[i] = 0;
}
sc->reg->srd = sc->last = 0x500;
tsleep(&sc->last, PZERO + PCATCH, "con1", hz);
sc->reg->srd = sc->last = 0x520;
tsleep(&sc->last, PZERO + PCATCH, "con1", hz);
}
/*
*
*/
static void
status_8370(struct softc *sc, char *s)
{
u_int32_t *p = sc->ds8370;
s += strlen(s);
sprintf(s, "Framer: "); s += strlen(s);
switch (sc->framing) {
case WHOKNOWS: sprintf(s, "(unconfigured)\n"); break;
case E1: sprintf(s, "(e1)\n"); break;
case E1U: sprintf(s, "(e1u)\n"); break;
case T1: sprintf(s, "(t1)\n"); break;
case T1U: sprintf(s, "(t1u)\n"); break;
default: sprintf(s, "(mode %d XXX?)\n", sc->framing); break;
}
s += strlen(s);
sprintf(s, " Red alarms:"); s += strlen(s);
if (p[0x47] & 0x08) { sprintf(s, " ALOS"); s += strlen(s); }
if (p[0x47] & 0x04) { sprintf(s, " LOS"); s += strlen(s); }
if (sc->framing == E1 || sc->framing == T1) {
if (p[0x47] & 0x02) { sprintf(s, " LOF"); s += strlen(s); }
}
sprintf(s, "\n Yellow alarms:"); s += strlen(s);
if (p[0x47] & 0x80) { sprintf(s, " RMYEL"); s += strlen(s); }
if (p[0x47] & 0x40) { sprintf(s, " RYEL"); s += strlen(s); }
sprintf(s, "\n Blue alarms:"); s += strlen(s);
if (p[0x47] & 0x10) { sprintf(s, " AIS"); s += strlen(s); }
sprintf(s, "\n"); s += strlen(s);
sprintf(s, "\n Various alarms:"); s += strlen(s);
if (p[0x48] & 0x10) { sprintf(s, " TSHORT"); s += strlen(s); }
sprintf(s, "\n Counters:"); s += strlen(s);
if (sc->framing == E1) {
sprintf(s, " FERR=%lu", sc->cnt_ferr); s += strlen(s);
}
sprintf(s, " CERR=%lu", sc->cnt_cerr); s += strlen(s);
sprintf(s, " LCV=%lu", sc->cnt_lcv); s += strlen(s);
sprintf(s, " FEBE=%lu", sc->cnt_febe); s += strlen(s);
sprintf(s, " BERR=%lu", sc->cnt_berr); s += strlen(s);
sprintf(s, " FRED=%lu", sc->cnt_fred); s += strlen(s);
sprintf(s, " COFA=%lu", sc->cnt_cofa); s += strlen(s);
sprintf(s, " SEF=%lu", sc->cnt_sef); s += strlen(s);
sprintf(s, "\n"); s += strlen(s);
}
static void
dump_8370(struct softc *sc, char *s, int offset)
{
int i, j;
u_int32_t *p = sc->ds8370;
s += strlen(s);
for (i = 0; i < 0x100; i += 16) {
sprintf(s, "%03x: ", i + offset);
s += strlen(s);
for (j = 0; j < 0x10; j ++) {
sprintf(s, " %02x", p[i + j + offset] & 0xff);
s += strlen(s);
}
sprintf(s, "\n");
s += strlen(s);
}
}
static void
init_8370(struct softc *sc)
{
int i;
u_int32_t *p = sc->ds8370;
p[0x001] = 0x80; /* CR0 - Reset */
DELAY(20);
p[0x001] = 0x00; /* CR0 - E1, RFRAME: FAS only */
DELAY(20);
if (sc->clocksource == INT)
p[0x002] = 0x40; /* JAT_CR - XXX */
else
p[0x002] = 0x20; /* JAT_CR - XXX */
p[0x00D] = 0x01; /* IER6 - ONESEC */
p[0x014] = 0x00; /* LOOP - */
p[0x015] = 0x00; /* DL3_TS - */
p[0x016] = 0x00; /* DL3_BIT - */
p[0x017] = 0x00; /* DL3_BIT - */
p[0x018] = 0xFF; /* PIO - XXX */
p[0x019] = 0x3c; /* POE - CLADO_OE|RCKO_OE */
if (sc->clocksource == INT)
p[0x01A] = 0x37; /* CMUX - RSBCKI(RSBCKI), TSBCKI(CLADO), CLADO(RCKO), TCKI(CLADO) */
else
p[0x01A] = 0x37; /* CMUX - RSBCKI(RSBCKI), TSBCKI(RSBCKI), CLADO(RCKO), TCKI(RCKO) */
/* I.431/G.775 */
p[0x020] = 0x41; /* LIU_CR - SQUELCH */
p[0x022] = 0xb1; /* RLIU_CR - */
p[0x024] = 0x1d; /* VGA_MAX - */
p[0x027] = 0xba; /* DSLICE - */
p[0x028] = 0xda; /* EQ_OUT - */
p[0x02a] = 0xa6; /* PRE_EQ - */
if (sc->framing == E1U || sc->framing == T1U)
p[0x040] = 0x49; /* RCRO - XXX */
else
p[0x040] = 0x09; /* RCRO - XXX */
p[0x041] = 0x00; /* RPATT - XXX */
p[0x045] = 0x00; /* RALM - XXX */
p[0x046] = 0x05; /* LATCH - LATCH_CNT|LATCH_ALM */
p[0x068] = 0x4c; /* TLIU_CR - TERM|Pulse=6 */
p[0x070] = 0x04; /* TCR0 - TFRAME=4 */
if (sc->framing == E1U || sc->framing == T1U)
p[0x071] = 0x41; /* TCR1 - TZCS */
else
p[0x071] = 0x51; /* TCR1 - TZCS */
if (sc->framing == E1U || sc->framing == T1U)
p[0x072] = 0x00;
else
p[0x072] = 0x1b; /* TCR1 - INS_YEL|INS_MF|INS_CRC|INS_FBIT */
p[0x073] = 0x00; /* TERROR */
p[0x074] = 0x00; /* TMAN */
if (sc->framing == E1U || sc->framing == T1U)
p[0x075] = 0x0; /* TALM */
else
p[0x075] = 0x10; /* TALM - AUTO_YEL */
p[0x076] = 0x00; /* TPATT */
p[0x077] = 0x00; /* TLP */
p[0x090] = 0x05; /* CLAD_CR - XXX */
p[0x091] = 0x01; /* CSEL - 2048kHz */
if (sc->framing == E1U || sc->framing == T1U) {
p[0x0a0] = 0x00;
p[0x0a6] = 0x00;
p[0x0b1] = 0x00;
}
p[0x0d0] = 0x46; /* SBI_CR - SBI=6 */
p[0x0d1] = 0x70; /* RSB_CR - XXX */
p[0x0d2] = 0x00; /* RSYNC_BIT - 0 */
p[0x0d3] = 0x00; /* RSYNC_TS - 0 */
p[0x0d4] = 0x30; /* TSB_CR - XXX */
p[0x0d5] = 0x00; /* TSYNC_BIT - 0 */
p[0x0d6] = 0x00; /* TSYNC_TS - 0 */
if (sc->framing == E1U || sc->framing == T1U)
p[0x0d7] = 0x05; /* RSIG_CR - 0 | FRZ_OFF*/
else
p[0x0d7] = 0x01; /* RSIG_CR - 0 */
p[0x0d8] = 0x00; /* RSIG_FRM - 0 */
for (i = 0; i < 32; i ++) {
p[0x0e0 + i] = 0x0d; /* SBC$i - RINDO|TINDO|ASSIGN */
p[0x100 + i] = 0x00; /* TPC$i - 0 */
p[0x180 + i] = 0x00; /* RPC$i - 0 */
}
}
/*
* Interrupts
*/
static void
musycc_intr0_tx_eom(struct softc *sc, int ch)
{
u_int32_t status;
struct schan *sch;
struct mbuf *m;
struct mdesc *md;
sch = sc->chan[ch];
if (sch == NULL || sch->state != UP) {
/* XXX: this should not happen once the driver is done */
printf("Xmit packet on uninitialized channel %d\n", ch);
}
if (sc->mdt[ch] == NULL)
return; /* XXX: can this happen ? */
for (;;) {
if (sch->tx_last_md == sch->tx_next_md)
break;
md = &sc->mdt[ch][sch->tx_last_md];
status = md->status;
if (status & 0x80000000)
break; /* Not our mdesc, done */
md->data = 0;
m = md->m;
if (m != NULL) {
sch->tx_pending -= m->m_pkthdr.len;
m_freem(m);
md->m = NULL;
}
md->status = 0;
if (++sch->tx_last_md >= sch->nmd)
sch->tx_last_md = 0;
}
}
/*
* Receive interrupt on controller *sc, channel ch
*
* We perambulate the Rx descriptor ring until we hit
* a mdesc which isn't ours to take.
*/
static void
musycc_intr0_rx_eom(struct softc *sc, int ch)
{
u_int32_t status, error;
struct schan *sch;
struct mbuf *m, *m2;
struct mdesc *md;
sch = sc->chan[ch];
if (sch == NULL || sch->state != UP) {
/* XXX: this should not happen once the driver is done */
printf("Received packet on uninitialized channel %d\n", ch);
return;
}
if (sc->mdr[ch] == NULL)
return; /* XXX: can this happen ? */
for (;;) {
md = &sc->mdr[ch][sch->rx_last_md];
status = md->status;
if (!(status & 0x80000000))
break; /* Not our mdesc, done */
m = md->m;
m->m_len = m->m_pkthdr.len = status & 0x3fff;
error = (status >> 16) & 0xf;
#if 0
if (error == 8 && (sc->framing == E1U || sc->framing == T1U))
error = 0;
#endif
if (error == 0) {
MGETHDR(m2, M_DONTWAIT, MT_DATA);
if (m2 != NULL) {
MCLGET(m2, M_DONTWAIT);
if((m2->m_flags & M_EXT) != 0) {
/* Substitute the mbuf+cluster. */
md->m = m2;
md->data = vtophys(m2->m_data);
/* Pass the received mbuf upwards. */
NG_SEND_DATA_ONLY(error, sch->hook, m);
} else {
/*
* We didn't get a mbuf cluster,
* drop received packet, free the
* mbuf we cannot use and recycle
* the mbuf+cluster we already had.
*/
m_freem(m2);
sch->rx_drop++;
}
} else {
/*
* We didn't get a mbuf, drop received packet
* and recycle the "old" mbuf+cluster.
*/
sch->rx_drop++;
}
} else if (error == 9) {
printf("FCS\n");
} else if (error == 10) {
printf("ALIGN\n");
} else {
/* Receive error, print some useful info */
printf("%s %s: RX 0x%08x ", sch->sc->nodename,
sch->hookname, status);
/* Don't print a lot, just the begining will do */
if (m->m_len > 16)
m->m_len = m->m_pkthdr.len = 16;
m_print(m);
printf("\n");
}
md->status = 1600; /* XXX: MTU */
/* Check next mdesc in the ring */
if (++sch->rx_last_md >= sch->nmd)
sch->rx_last_md = 0;
}
}
static void
musycc_intr0(void *arg)
{
int i, j, g, ch, ev, er;
struct csoftc *csc;
u_int32_t u, u1, n, c;
struct softc *sc;
csc = arg;
for (;;) {
u = csc->reg->isd;
c = u & 0x7fff;
n = u >> 16;
if (c == 0)
return;
if (debug & 1)
printf("%s: IRQ: %08x n = %d c = %d\n", csc->serial[0].nodename, u, n, c);
for (i = 0; i < c; i++) {
j = (n + i) % NIQD;
u1 = csc->iqd[j];
g = (u1 >> 29) & 0x3;
g |= (u1 >> (14-2)) & 0x4;
ch = (u1 >> 24) & 0x1f;
ev = (u1 >> 20) & 0xf;
er = (u1 >> 16) & 0xf;
sc = &csc->serial[g];
if (debug & 2) {
printf("%08x %d", u1, g);
printf("/%s", u1 & 0x80000000 ? "T" : "R");
printf("/%02d", ch);
printf(" %02d", ev);
printf(":%02d", er);
printf("\n");
}
switch (ev) {
case 1: /* SACK Service Request Acknowledge */
printf("%s: SACK: %08x group=%d", sc->nodename, csc->iqd[j], g);
printf("/%s", csc->iqd[j] & 0x80000000 ? "T" : "R");
printf(" cmd %08x (%08x) \n", sc->last, sc->reg->srd);
sc->last = 0xffffffff;
wakeup(&sc->last);
break;
case 5: /* CHABT Change To Abort Code (0x7e -> 0xff) */
case 6: /* CHIC Change To Idle Code (0xff -> 0x7e) */
break;
case 3: /* EOM End Of Message */
if (csc->iqd[j] & 0x80000000)
musycc_intr0_tx_eom(sc, ch);
else
musycc_intr0_rx_eom(sc, ch);
break;
case 0:
#if 1
if (er == 2) { /* COFA */
break;
} else if (er == 3) { /* ONR */
musycc_intr0_tx_eom(sc, ch);
musycc_intr0_rx_eom(sc, ch);
} else if (er == 13) { /* SHT */
musycc_intr0_tx_eom(sc, ch);
musycc_intr0_rx_eom(sc, ch);
break;
}
#endif
default:
#if 1
printf("huh ? %08x %d", u1, g);
printf("/%s", u1 & 0x80000000 ? "T" : "R");
printf("/%02d", ch);
printf(" %02d", ev);
printf(":%02d", er);
printf("\n");
#endif
}
csc->iqd[j] = 0xffffffff;
j++;
j %= NIQD;
csc->reg->isd = j << 16;
}
}
}
static void
musycc_intr1(void *arg)
{
int i;
struct csoftc *csc;
struct softc *sc;
u_int32_t *u;
u_int8_t irr;
csc = arg;
for (i = 0; i < csc->nchan; i++) {
sc = &csc->serial[i];
u = sc->ds8370;
irr = u[3];
if (irr == 0)
continue;
if (u[0x5] & 1) { /* ONESEC */
sc->cnt_ferr += u[0x50] & 0xff;
sc->cnt_ferr += (u[0x51] & 0xff) << 8;
sc->cnt_cerr += u[0x52] & 0xff;
sc->cnt_cerr += (u[0x53] & 0xff) << 8;
sc->cnt_lcv += u[0x54] & 0xff;
sc->cnt_lcv += (u[0x55] & 0xff) << 8;
sc->cnt_febe += u[0x56] & 0xff;
sc->cnt_febe += (u[0x57] & 0xff) << 8;
sc->cnt_berr += u[0x58] & 0xff;
sc->cnt_berr += (u[0x59] & 0xff) << 8;
sc->cnt_fred += (u[0x5a] & 0xf0) >> 4;
sc->cnt_cofa += (u[0x5a] & 0x0c) >> 2;
sc->cnt_sef += u[0x5a] & 0x03;
}
if (debug & 4) {
int j;
printf("musycc_intr1:%d %02x", i, irr);
for (j = 4; j < 0x14; j++)
printf(" %02x", u[j] & 0xff);
printf("\n");
}
}
}
/*
* NetGraph Stuff
*/
static int
musycc_constructor(node_p *nodep)
{
return (EINVAL);
}
static int
musycc_shutdown(node_p nodep)
{
return (EINVAL);
}
static void
musycc_config(node_p node, char *set, char *ret)
{
struct softc *sc;
struct csoftc *csc;
enum framing wframing;
int i;
sc = node->private;
csc = sc->csc;
if (csc->state == C_IDLE)
init_card(csc);
while (csc->state != C_RUNNING)
tsleep(&csc->state, PZERO + PCATCH, "crun", hz/10);
if (set != NULL) {
if (!strncmp(set, "line ", 5)) {
wframing = sc->framing;
if (!strcmp(set, "line e1")) {
wframing = E1;
} else if (!strcmp(set, "line e1u")) {
wframing = E1U;
} else {
strcat(ret, "ENOGROK\n");
return;
}
if (wframing == sc->framing)
return;
if (sc->nhooks > 0) {
sprintf(ret, "Cannot change line when %d hooks open\n", sc->nhooks);
return;
}
sc->framing = wframing;
init_ctrl(sc);
return;
}
if (!strcmp(set, "clock source internal")) {
sc->clocksource = INT;
init_ctrl(sc);
} else if (!strcmp(set, "clock source line")) {
sc->clocksource = EXT;
init_ctrl(sc);
} else if (!strcmp(set, "show 8370 0")) {
dump_8370(sc, ret, 0);
} else if (!strcmp(set, "show 8370 1")) {
dump_8370(sc, ret, 0x100);
} else if (!strncmp(set, "creg", 4)) {
i = strtol(set + 5, 0, 0);
printf("set creg %d\n", i);
csc->creg = 0xfe | (i << 24);
*csc->cregp = csc->creg;
/*
} else if (!strcmp(set, "reset")) {
reset_group(sc, ret);
} else if (!strcmp(set, "reset all")) {
reset_card(sc, ret);
*/
} else {
printf("%s CONFIG SET [%s]\n", sc->nodename, set);
goto barf;
}
return;
}
if (sc->framing == E1)
strcat(ret, "line e1\n");
else if (sc->framing == E1U)
strcat(ret, "line e1u\n");
if (sc->clocksource == INT)
strcat(ret, "clock source internal\n");
else
strcat(ret, "clock source line\n");
return;
barf:
strcpy(ret, "Syntax Error\n");
strcat(ret, "\tline {e1|e1u}\n");
strcat(ret, "\tshow 8370 {0|1}\n");
return;
}
/*
* Handle status and config enquiries.
* Respond with a synchronous response.
* [JRE] -this would be easier to read with the usual 'switch' structure-
*/
static int
musycc_rcvmsg(node_p node, struct ng_mesg *msg, const char *retaddr,
struct ng_mesg **rptr, hook_p lasthook)
{
struct softc *sc;
struct ng_mesg *resp = NULL;
char *s, *r;
int error = 0;
sc = node->private;
if (rptr)
*rptr = NULL; /* default answer in case of errors */
if (msg->header.typecookie != NGM_GENERIC_COOKIE)
goto out;
if (msg->header.cmd == NGM_TEXT_STATUS) {
NG_MKRESPONSE(resp, msg,
sizeof(struct ng_mesg) + NG_TEXTRESPONSE, M_NOWAIT);
if (resp == NULL) {
error = ENOMEM;
goto out;
}
s = (char *)resp->data;
status_8370(sc, s);
resp->header.arglen = strlen(s) + 1;
FREE(msg, M_NETGRAPH);
} else if (msg->header.cmd == NGM_TEXT_CONFIG) {
if (msg->header.arglen) {
s = (char *)msg->data;
} else {
s = NULL;
}
NG_MKRESPONSE(resp, msg,
sizeof(struct ng_mesg) + NG_TEXTRESPONSE, M_NOWAIT);
if (resp == NULL) {
error = ENOMEM;
goto out;
}
r = (char *)resp->data;
*r = '\0';
musycc_config(node, s, r);
resp->header.arglen = strlen(r) + 1;
FREE(msg, M_NETGRAPH);
} else {
error = EINVAL;
}
out:
/* Take care of synchronous response, if any */
if (rptr)
*rptr = resp;
else if (resp)
FREE(resp, M_NETGRAPH); /* eventually 'send' the response */
FREE(msg, M_NETGRAPH);
return (error);
}
static int
musycc_newhook(node_p node, hook_p hook, const char *name)
{
struct softc *sc;
struct csoftc *csc;
struct schan *sch;
u_int32_t ts, chan;
int nbit;
sc = node->private;
csc = sc->csc;
while (csc->state != C_RUNNING)
tsleep(&csc->state, PZERO + PCATCH, "crun", hz/10);
if (sc->framing == WHOKNOWS)
return (EINVAL);
if (name[0] != 't' || name[1] != 's')
return (EINVAL);
ts = parse_ts(name + 2, &nbit);
if (ts == 0)
return (EINVAL);
chan = ffs(ts) - 1;
if (sc->framing == E1U && nbit == 32)
;
else if (sc->framing == T1U && nbit == 24)
;
else if (ts & 1)
return (EINVAL);
if (sc->chan[chan] == NULL) {
MALLOC(sch, struct schan *, sizeof(*sch), M_MUSYCC, M_WAITOK | M_ZERO);
sch->sc = sc;
sch->state = DOWN;
sch->chan = chan;
sprintf(sch->hookname, name); /* XXX overflow ? */
sc->chan[chan] = sch;
} else if (sc->chan[chan]->state == UP) {
return (EBUSY);
}
sc->nhooks++;
sch = sc->chan[chan];
sch->ts = ts;
sch->hook = hook;
sch->tx_limit = nbit * 8;
hook->private = sch;
return(0);
}
static int
musycc_rcvdata(hook_p hook, struct mbuf *m, meta_p meta,
struct mbuf **ret_m, meta_p *ret_meta, struct ng_mesg **resp)
{
struct softc *sc;
struct csoftc *csc;
struct schan *sch;
struct mdesc *md;
u_int32_t ch, u, len;
struct mbuf *m2;
sch = hook->private;
sc = sch->sc;
csc = sc->csc;
ch = sch->chan;
if (csc->state != C_RUNNING) {
printf("csc->state = %d\n", csc->state);
NG_FREE_DATA(m, meta);
return (0);
}
NG_FREE_META(meta);
meta = NULL;
if (sch->state != UP) {
printf("sch->state = %d\n", sch->state);
NG_FREE_DATA(m, meta);
return (0);
}
if (sch->tx_pending + m->m_pkthdr.len > sch->tx_limit * maxlatency) {
printf("pend %ld len %d lim %ld\n", sch->tx_pending, m->m_pkthdr.len, sch->tx_limit * maxlatency);
NG_FREE_DATA(m, meta);
return (0);
}
m2 = m;
len = m->m_pkthdr.len;
while (len) {
if (m->m_len > 0) { /* XXX: needed ? */
md = &sc->mdt[ch][sch->tx_next_md];
if ((md->status & 0x80000000) != 0x00000000) {
printf("Out of tx md\n");
break;
}
if (++sch->tx_next_md >= sch->nmd)
sch->tx_next_md = 0;
md->data = vtophys(m->m_data);
len -= m->m_len;
u = 0x80000000; /* OWNER = MUSYCC */
if (len > 0) {
md->m = 0;
} else {
u |= 1 << 29; /* EOM */
md->m = m2;
sch->tx_pending += m2->m_pkthdr.len;
}
u |= m->m_len;
md->status = u;
}
m = m->m_next;
}
return (0);
}
static int
musycc_connect(hook_p hook)
{
struct softc *sc;
struct csoftc *csc;
struct schan *sch;
int nts, nbuf, i, nmd, ch;
struct mbuf *m;
sch = hook->private;
sc = sch->sc;
csc = sc->csc;
ch = sch->chan;
while (csc->state != C_RUNNING)
tsleep(&csc->state, PZERO + PCATCH, "crun", hz/10);
if (sch->state == UP)
return (0);
sch->state = UP;
/* Setup the Time Slot Map */
nts = 0;
for (i = ch; i < 32; i++) {
if (sch->ts & (1 << i)) {
sc->ram->rtsm[i] = ch | (4 << 5);
sc->ram->ttsm[i] = ch | (4 << 5);
nts++;
}
}
/*
* Find the length of the first run of timeslots.
* XXX: find the longest instead.
*/
nbuf = 0;
for (i = ch; i < 32; i++) {
if (sch->ts & (1 << i))
nbuf++;
else
break;
}
printf("Connect ch= %d ts= %08x nts= %d nbuf = %d\n",
ch, sch->ts, nts, nbuf);
/* Reread the Time Slot Map */
sc->reg->srd = sc->last = 0x1800;
tsleep(&sc->last, PZERO + PCATCH, "con1", hz);
sc->reg->srd = sc->last = 0x1820;
tsleep(&sc->last, PZERO + PCATCH, "con2", hz);
/* Set the channel mode */
sc->ram->tcct[ch] = 0x2800; /* HDLC-FCS16 | MAXSEL[2] */
sc->ram->rcct[ch] = 0x2800; /* HDLC-FCS16 | MAXSEL[2] */
/*
* Allocate the FIFO space
* We don't do subchanneling so we can use 128 dwords [4-13]
*/
sc->ram->tcct[ch] |= (1 + 2 * (nbuf - 1)) << 16; /* BUFFLEN */
sc->ram->rcct[ch] |= (1 + 2 * (nbuf - 1)) << 16; /* BUFFLEN */
sc->ram->tcct[ch] |= ((ch * 2) << 24); /* BUFFLOC */
sc->ram->rcct[ch] |= ((ch * 2) << 24); /* BUFFLOC */
/* Reread the Channel Configuration Descriptor for this channel */
sc->reg->srd = sc->last = 0x0b00 + ch;
tsleep(&sc->last, PZERO + PCATCH, "con3", hz);
sc->reg->srd = sc->last = 0x0b20 + ch;
tsleep(&sc->last, PZERO + PCATCH, "con4", hz);
/*
* Figure out how many receive buffers we want: 10 + nts * 2
* 1 timeslot, 50 bytes packets -> 68msec
* 31 timeslots, 50 bytes packets -> 14msec
*/
sch->nmd = nmd = 10 + nts * 2;
sch->rx_last_md = 0;
sch->tx_next_md = 0;
sch->tx_last_md = 0;
MALLOC(sc->mdt[ch], struct mdesc *,
sizeof(struct mdesc) * nmd, M_MUSYCC, M_WAITOK);
MALLOC(sc->mdr[ch], struct mdesc *,
sizeof(struct mdesc) * nmd, M_MUSYCC, M_WAITOK);
for (i = 0; i < nmd; i++) {
if (i == nmd - 1) {
sc->mdt[ch][i].next = vtophys(&sc->mdt[ch][0]);
sc->mdr[ch][i].next = vtophys(&sc->mdr[ch][0]);
} else {
sc->mdt[ch][i].next = vtophys(&sc->mdt[ch][i + 1]);
sc->mdr[ch][i].next = vtophys(&sc->mdr[ch][i + 1]);
}
sc->mdt[ch][i].status = 0;
sc->mdt[ch][i].m = NULL;
sc->mdt[ch][i].data = 0;
MGETHDR(m, M_WAIT, MT_DATA);
MCLGET(m, M_WAIT);
sc->mdr[ch][i].m = m;
sc->mdr[ch][i].data = vtophys(m->m_data);
sc->mdr[ch][i].status = 1600; /* MTU */
}
/* Configure it into the chip */
sc->ram->thp[ch] = vtophys(&sc->mdt[ch][0]);
sc->ram->tmp[ch] = vtophys(&sc->mdt[ch][0]);
sc->ram->rhp[ch] = vtophys(&sc->mdr[ch][0]);
sc->ram->rmp[ch] = vtophys(&sc->mdr[ch][0]);
/* Activate the Channel */
sc->reg->srd = sc->last = 0x0800 + ch;
tsleep(&sc->last, PZERO + PCATCH, "con4", hz);
sc->reg->srd = sc->last = 0x0820 + ch;
tsleep(&sc->last, PZERO + PCATCH, "con3", hz);
hook->peer->flags |= HK_QUEUE;
return (0);
}
static int
musycc_disconnect(hook_p hook)
{
struct softc *sc;
struct csoftc *csc;
struct schan *sch;
int i, ch;
sch = hook->private;
sc = sch->sc;
csc = sc->csc;
ch = sch->chan;
while (csc->state != C_RUNNING)
tsleep(&csc->state, PZERO + PCATCH, "crun", hz/10);
/* Deactivate the channel */
sc->reg->srd = sc->last = 0x0900 + sch->chan;
tsleep(&sc->last, PZERO + PCATCH, "con3", hz);
sc->reg->srd = sc->last = 0x0920 + sch->chan;
tsleep(&sc->last, PZERO + PCATCH, "con4", hz);
if (sch->state == DOWN)
return (0);
sch->state = DOWN;
sc->ram->thp[ch] = 0;
sc->ram->tmp[ch] = 0;
sc->ram->rhp[ch] = 0;
sc->ram->rmp[ch] = 0;
for (i = 0; i < sch->nmd; i++) {
if (sc->mdt[ch][i].m != NULL)
m_freem(sc->mdt[ch][i].m);
if (sc->mdr[ch][i].m != NULL)
m_freem(sc->mdr[ch][i].m);
}
FREE(sc->mdt[ch], M_MUSYCC);
sc->mdt[ch] = NULL;
FREE(sc->mdr[ch], M_MUSYCC);
sc->mdr[ch] = NULL;
for (i = 0; i < 32; i++) {
if (sch->ts & (1 << i)) {
sc->ram->rtsm[i] = 0;
sc->ram->ttsm[i] = 0;
}
}
sc->nhooks--;
sch->tx_pending = 0;
return (0);
}
/*
* PCI initialization stuff
*/
static int
musycc_probe(device_t self)
{
char desc[40];
if (sizeof(struct groupr) != 1572) {
printf("sizeof(struct groupr) = %d, should be 1572\n",
sizeof(struct groupr));
return(ENXIO);
}
if (sizeof(struct globalr) != 1572) {
printf("sizeof(struct globalr) = %d, should be 1572\n",
sizeof(struct globalr));
return(ENXIO);
}
if (sizeof(struct mycg) > 2048) {
printf("sizeof(struct mycg) = %d, should be <= 2048\n",
sizeof(struct mycg));
return(ENXIO);
}
switch (pci_get_devid(self)) {
case 0x8471109e: strcpy(desc, "CN8471 MUSYCC"); break;
case 0x8472109e: strcpy(desc, "CN8472 MUSYCC"); break;
case 0x8474109e: strcpy(desc, "CN8474 MUSYCC"); break;
case 0x8478109e: strcpy(desc, "CN8478 MUSYCC"); break;
default:
return (ENXIO);
}
switch (pci_get_function(self)) {
case 0: strcat(desc, " Network controller"); break;
case 1: strcat(desc, " Ebus bridge"); break;
default:
return (ENXIO);
}
device_set_desc_copy(self, desc);
return 0;
}
static int
musycc_attach(device_t self)
{
struct csoftc *csc;
struct resource *res;
struct softc *sc;
int rid, i, error;
int f;
u_int32_t *u32p, u;
static int once;
if (!once) {
once++;
error = ng_newtype(&ngtypestruct);
if (error != 0)
printf("ng_newtype() failed %d\n", error);
}
printf("We have %d pad bytes in mycg\n", 2048 - sizeof(struct mycg));
f = pci_get_function(self);
/* For function zero allocate a csoftc */
if (f == 0) {
MALLOC(csc, struct csoftc *, sizeof(*csc), M_MUSYCC, M_WAITOK | M_ZERO);
csc->bus = pci_get_bus(self);
csc->slot = pci_get_slot(self);
LIST_INSERT_HEAD(&sc_list, csc, list);
} else {
LIST_FOREACH(csc, &sc_list, list) {
if (csc->bus != pci_get_bus(self))
continue;
if (csc->slot != pci_get_slot(self))
continue;
break;
}
}
csc->f[f] = self;
device_set_softc(self, csc);
rid = PCIR_MAPS;
res = bus_alloc_resource(self, SYS_RES_MEMORY, &rid,
0, ~0, 1, RF_ACTIVE);
if (res == NULL) {
device_printf(self, "Could not map memory\n");
return ENXIO;
}
csc->virbase[f] = (u_char *)rman_get_virtual(res);
csc->physbase[f] = rman_get_start(res);
/* Allocate interrupt */
rid = 0;
csc->irq[f] = bus_alloc_resource(self, SYS_RES_IRQ, &rid, 0, ~0,
1, RF_SHAREABLE | RF_ACTIVE);
if (csc->irq[f] == NULL) {
printf("couldn't map interrupt\n");
return(ENXIO);
}
error = bus_setup_intr(self, csc->irq[f], INTR_TYPE_NET,
f == 0 ? musycc_intr0 : musycc_intr1, csc, &csc->intrhand[f]);
if (error) {
printf("couldn't set up irq\n");
return(ENXIO);
}
if (f == 0)
return (0);
for (i = 0; i < 2; i++)
printf("f%d: device %p virtual %p physical %08x\n",
i, csc->f[i], csc->virbase[i], csc->physbase[i]);
csc->reg = (struct globalr *)csc->virbase[0];
csc->reg->glcd = 0x3f30; /* XXX: designer magic */
u32p = (u_int32_t *)csc->virbase[1];
u = u32p[0x1200];
if ((u & 0xffff0000) != 0x13760000) {
printf("Not a LMC1504 (ID is 0x%08x). Bailing out.\n", u);
return(ENXIO);
}
csc->nchan = (u >> 8) & 0xf;
printf("Found <LanMedia LMC1504 Rev %d Chan %d>\n", (u >> 12) & 0xf, csc->nchan);
csc->creg = 0xfe;
csc->cregp = &u32p[0x1000];
*csc->cregp = csc->creg;
for (i = 0; i < csc->nchan; i++) {
sc = &csc->serial[i];
sc->csc = csc;
sc->last = 0xffffffff;
sc->ds8370 = (u_int32_t *)
(csc->virbase[1] + i * 0x800);
sc->ds847x = csc->virbase[0] + i * 0x800;
sc->reg = (struct globalr *)
(csc->virbase[0] + i * 0x800);
MALLOC(sc->mycg, struct mycg *,
sizeof(struct mycg), M_MUSYCC, M_WAITOK | M_ZERO);
sc->ram = &sc->mycg->cg;
error = ng_make_node_common(&ngtypestruct, &sc->node);
if (error) {
printf("ng_make_node_common() failed %d\n", error);
continue;
}
sc->node->private = sc;
sprintf(sc->nodename, "sync-%d-%d-%d",
csc->bus,
csc->slot,
i);
error = ng_name_node(sc->node, sc->nodename);
}
csc->ram = (struct globalr *)&csc->serial[0].mycg->cg;
sc = &csc->serial[0];
sc->reg->srd = sc->last = 0x100;
csc->state = C_IDLE;
return 0;
}
static device_method_t musycc_methods[] = {
/* Device interface */
DEVMETHOD(device_probe, musycc_probe),
DEVMETHOD(device_attach, musycc_attach),
DEVMETHOD(device_suspend, bus_generic_suspend),
DEVMETHOD(device_resume, bus_generic_resume),
DEVMETHOD(device_shutdown, bus_generic_shutdown),
{0, 0}
};
static driver_t musycc_driver = {
"musycc",
musycc_methods,
0
};
DRIVER_MODULE(musycc, pci, musycc_driver, musycc_devclass, 0, 0);
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