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freebsd-dev/sys/dev/firewire/firewire.c
Pedro F. Giffuni 718cf2ccb9 sys/dev: further adoption of SPDX licensing ID tags. 
Mainly focus on files that use BSD 2-Clause license, however the tool I
was using misidentified many licenses so this was mostly a manual - error
prone - task.

The Software Package Data Exchange (SPDX) group provides a specification
to make it easier for automated tools to detect and summarize well known
opensource licenses. We are gradually adopting the specification, noting
that the tags are considered only advisory and do not, in any way,
superceed or replace the license texts.
2017-11-27 14:52:40 +00:00

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/*-
* SPDX-License-Identifier: BSD-4-Clause
*
* Copyright (c) 2003 Hidetoshi Shimokawa
* Copyright (c) 1998-2002 Katsushi Kobayashi and Hidetoshi Shimokawa
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the acknowledgement as bellow:
*
* This product includes software developed by K. Kobayashi and H. Shimokawa
*
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__FBSDID("$FreeBSD$");
#include <sys/param.h>
#include <sys/systm.h>
#include <sys/types.h>
#include <sys/jail.h>
#include <sys/kernel.h>
#include <sys/module.h>
#include <sys/malloc.h>
#include <sys/conf.h>
#include <sys/sysctl.h>
#include <sys/kthread.h>
#include <sys/kdb.h>
#include <sys/bus.h> /* used by smbus and newbus */
#include <machine/bus.h>
#include <dev/firewire/firewire.h>
#include <dev/firewire/firewirereg.h>
#include <dev/firewire/fwmem.h>
#include <dev/firewire/iec13213.h>
#include <dev/firewire/iec68113.h>
struct crom_src_buf {
struct crom_src src;
struct crom_chunk root;
struct crom_chunk vendor;
struct crom_chunk hw;
};
int firewire_debug = 0, try_bmr = 1, hold_count = 0;
SYSCTL_INT(_debug, OID_AUTO, firewire_debug, CTLFLAG_RW, &firewire_debug, 0,
"FireWire driver debug flag");
SYSCTL_NODE(_hw, OID_AUTO, firewire, CTLFLAG_RD, 0, "FireWire Subsystem");
SYSCTL_INT(_hw_firewire, OID_AUTO, try_bmr, CTLFLAG_RW, &try_bmr, 0,
"Try to be a bus manager");
SYSCTL_INT(_hw_firewire, OID_AUTO, hold_count, CTLFLAG_RW, &hold_count, 0,
"Number of count of bus resets for removing lost device information");
MALLOC_DEFINE(M_FW, "firewire", "FireWire");
MALLOC_DEFINE(M_FWXFER, "fw_xfer", "XFER/FireWire");
#define FW_MAXASYRTY 4
devclass_t firewire_devclass;
static void firewire_identify(driver_t *, device_t);
static int firewire_probe(device_t);
static int firewire_attach(device_t);
static int firewire_detach(device_t);
static int firewire_resume(device_t);
static void firewire_xfer_timeout(void *, int);
static device_t firewire_add_child(device_t, u_int, const char *, int);
static void fw_try_bmr(void *);
static void fw_try_bmr_callback(struct fw_xfer *);
static void fw_asystart(struct fw_xfer *);
static int fw_get_tlabel(struct firewire_comm *, struct fw_xfer *);
static void fw_bus_probe(void *);
static void fw_attach_dev(struct firewire_comm *);
static void fw_bus_probe_thread(void *);
#ifdef FW_VMACCESS
static void fw_vmaccess (struct fw_xfer *);
#endif
static int fw_bmr (struct firewire_comm *);
static void fw_dump_hdr(struct fw_pkt *, char *);
static device_method_t firewire_methods[] = {
/* Device interface */
DEVMETHOD(device_identify, firewire_identify),
DEVMETHOD(device_probe, firewire_probe),
DEVMETHOD(device_attach, firewire_attach),
DEVMETHOD(device_detach, firewire_detach),
DEVMETHOD(device_suspend, bus_generic_suspend),
DEVMETHOD(device_resume, firewire_resume),
DEVMETHOD(device_shutdown, bus_generic_shutdown),
/* Bus interface */
DEVMETHOD(bus_add_child, firewire_add_child),
DEVMETHOD_END
};
char *linkspeed[] = {
"S100", "S200", "S400", "S800",
"S1600", "S3200", "undef", "undef"
};
static char *tcode_str[] = {
"WREQQ", "WREQB", "WRES", "undef",
"RREQQ", "RREQB", "RRESQ", "RRESB",
"CYCS", "LREQ", "STREAM", "LRES",
"undef", "undef", "PHY", "undef"
};
/* IEEE-1394a Table C-2 Gap count as a function of hops*/
#define MAX_GAPHOP 15
u_int gap_cnt[] = { 5, 5, 7, 8, 10, 13, 16, 18,
21, 24, 26, 29, 32, 35, 37, 40};
static driver_t firewire_driver = {
"firewire",
firewire_methods,
sizeof(struct firewire_softc),
};
/*
* Lookup fwdev by node id.
*/
struct fw_device *
fw_noderesolve_nodeid(struct firewire_comm *fc, int dst)
{
struct fw_device *fwdev;
FW_GLOCK(fc);
STAILQ_FOREACH(fwdev, &fc->devices, link)
if (fwdev->dst == dst && fwdev->status != FWDEVINVAL)
break;
FW_GUNLOCK(fc);
return fwdev;
}
/*
* Lookup fwdev by EUI64.
*/
struct fw_device *
fw_noderesolve_eui64(struct firewire_comm *fc, struct fw_eui64 *eui)
{
struct fw_device *fwdev;
FW_GLOCK(fc);
STAILQ_FOREACH(fwdev, &fc->devices, link)
if (FW_EUI64_EQUAL(fwdev->eui, *eui))
break;
FW_GUNLOCK(fc);
if (fwdev == NULL)
return NULL;
if (fwdev->status == FWDEVINVAL)
return NULL;
return fwdev;
}
/*
* Async. request procedure for userland application.
*/
int
fw_asyreq(struct firewire_comm *fc, int sub, struct fw_xfer *xfer)
{
int err = 0;
struct fw_xferq *xferq;
int len;
struct fw_pkt *fp;
int tcode;
struct tcode_info *info;
if (xfer == NULL)
return EINVAL;
if (xfer->hand == NULL) {
printf("hand == NULL\n");
return EINVAL;
}
fp = &xfer->send.hdr;
tcode = fp->mode.common.tcode & 0xf;
info = &fc->tcode[tcode];
if (info->flag == 0) {
printf("invalid tcode=%x\n", tcode);
return EINVAL;
}
/* XXX allow bus explore packets only after bus rest */
if ((fc->status < FWBUSEXPLORE) &&
((tcode != FWTCODE_RREQQ) || (fp->mode.rreqq.dest_hi != 0xffff) ||
(fp->mode.rreqq.dest_lo < 0xf0000000) ||
(fp->mode.rreqq.dest_lo >= 0xf0001000))) {
xfer->resp = EAGAIN;
xfer->flag = FWXF_BUSY;
return (EAGAIN);
}
if (info->flag & FWTI_REQ)
xferq = fc->atq;
else
xferq = fc->ats;
len = info->hdr_len;
if (xfer->send.pay_len > MAXREC(fc->maxrec)) {
printf("send.pay_len > maxrec\n");
return EINVAL;
}
if (info->flag & FWTI_BLOCK_STR)
len = fp->mode.stream.len;
else if (info->flag & FWTI_BLOCK_ASY)
len = fp->mode.rresb.len;
else
len = 0;
if (len != xfer->send.pay_len) {
printf("len(%d) != send.pay_len(%d) %s(%x)\n",
len, xfer->send.pay_len, tcode_str[tcode], tcode);
return EINVAL;
}
if (xferq->start == NULL) {
printf("xferq->start == NULL\n");
return EINVAL;
}
if (!(xferq->queued < xferq->maxq)) {
device_printf(fc->bdev, "Discard a packet (queued=%d)\n",
xferq->queued);
return EAGAIN;
}
xfer->tl = -1;
if (info->flag & FWTI_TLABEL) {
if (fw_get_tlabel(fc, xfer) < 0)
return EAGAIN;
}
xfer->resp = 0;
xfer->fc = fc;
xfer->q = xferq;
fw_asystart(xfer);
return err;
}
/*
* Wakeup blocked process.
*/
void
fw_xferwake(struct fw_xfer *xfer)
{
struct mtx *lock = &xfer->fc->wait_lock;
mtx_lock(lock);
xfer->flag |= FWXF_WAKE;
mtx_unlock(lock);
wakeup(xfer);
return;
}
int
fw_xferwait(struct fw_xfer *xfer)
{
struct mtx *lock = &xfer->fc->wait_lock;
int err = 0;
mtx_lock(lock);
while ((xfer->flag & FWXF_WAKE) == 0)
err = msleep(xfer, lock, PWAIT|PCATCH, "fw_xferwait", 0);
mtx_unlock(lock);
return (err);
}
/*
* Async. request with given xfer structure.
*/
static void
fw_asystart(struct fw_xfer *xfer)
{
struct firewire_comm *fc = xfer->fc;
/* Protect from interrupt/timeout */
FW_GLOCK(fc);
xfer->flag = FWXF_INQ;
STAILQ_INSERT_TAIL(&xfer->q->q, xfer, link);
#if 0
xfer->q->queued++;
#endif
FW_GUNLOCK(fc);
/* XXX just queue for mbuf */
if (xfer->mbuf == NULL)
xfer->q->start(fc);
return;
}
static void
firewire_identify(driver_t *driver, device_t parent)
{
BUS_ADD_CHILD(parent, 0, "firewire", -1);
}
static int
firewire_probe(device_t dev)
{
device_set_desc(dev, "IEEE1394(FireWire) bus");
return (0);
}
/* Just use a per-packet callout? */
static void
firewire_xfer_timeout(void *arg, int pending)
{
struct firewire_comm *fc = (struct firewire_comm *)arg;
struct fw_xfer *xfer, *txfer;
struct timeval tv;
struct timeval split_timeout;
STAILQ_HEAD(, fw_xfer) xfer_timeout;
int i;
split_timeout.tv_sec = 0;
split_timeout.tv_usec = 200 * 1000; /* 200 msec */
microtime(&tv);
timevalsub(&tv, &split_timeout);
STAILQ_INIT(&xfer_timeout);
mtx_lock(&fc->tlabel_lock);
for (i = 0; i < nitems(fc->tlabels); i++) {
while ((xfer = STAILQ_FIRST(&fc->tlabels[i])) != NULL) {
if ((xfer->flag & FWXF_SENT) == 0)
/* not sent yet */
break;
if (timevalcmp(&xfer->tv, &tv, >))
/* the rests are newer than this */
break;
device_printf(fc->bdev,
"split transaction timeout: tl=0x%x flag=0x%02x\n",
i, xfer->flag);
fw_dump_hdr(&xfer->send.hdr, "send");
xfer->resp = ETIMEDOUT;
xfer->tl = -1;
STAILQ_REMOVE_HEAD(&fc->tlabels[i], tlabel);
STAILQ_INSERT_TAIL(&xfer_timeout, xfer, tlabel);
}
}
mtx_unlock(&fc->tlabel_lock);
fc->timeout(fc);
STAILQ_FOREACH_SAFE(xfer, &xfer_timeout, tlabel, txfer)
xfer->hand(xfer);
}
#define WATCHDOG_HZ 10
static void
firewire_watchdog(void *arg)
{
struct firewire_comm *fc;
static int watchdog_clock = 0;
fc = arg;
/*
* At boot stage, the device interrupt is disabled and
* We encounter a timeout easily. To avoid this,
* ignore clock interrupt for a while.
*/
if (watchdog_clock > WATCHDOG_HZ * 15)
taskqueue_enqueue(fc->taskqueue, &fc->task_timeout);
else
watchdog_clock++;
callout_reset(&fc->timeout_callout, hz / WATCHDOG_HZ,
firewire_watchdog, fc);
}
/*
* The attach routine.
*/
static int
firewire_attach(device_t dev)
{
int unit;
struct firewire_softc *sc = device_get_softc(dev);
device_t pa = device_get_parent(dev);
struct firewire_comm *fc;
fc = device_get_softc(pa);
sc->fc = fc;
fc->status = FWBUSNOTREADY;
unit = device_get_unit(dev);
if (fc->nisodma > FWMAXNDMA)
fc->nisodma = FWMAXNDMA;
fwdev_makedev(sc);
fc->crom_src_buf = malloc(sizeof(struct crom_src_buf),
M_FW, M_NOWAIT | M_ZERO);
if (fc->crom_src_buf == NULL) {
device_printf(fc->dev,
"%s: unable to allocate crom src buffer\n", __func__);
return ENOMEM;
}
fc->topology_map = malloc(sizeof(struct fw_topology_map),
M_FW, M_NOWAIT | M_ZERO);
if (fc->topology_map == NULL) {
device_printf(fc->dev, "%s: unable to allocate topology map\n",
__func__);
free(fc->crom_src_buf, M_FW);
return ENOMEM;
}
fc->speed_map = malloc(sizeof(struct fw_speed_map),
M_FW, M_NOWAIT | M_ZERO);
if (fc->speed_map == NULL) {
device_printf(fc->dev, "%s: unable to allocate speed map\n",
__func__);
free(fc->crom_src_buf, M_FW);
free(fc->topology_map, M_FW);
return ENOMEM;
}
mtx_init(&fc->wait_lock, "fwwait", NULL, MTX_DEF);
mtx_init(&fc->tlabel_lock, "fwtlabel", NULL, MTX_DEF);
CALLOUT_INIT(&fc->timeout_callout);
CALLOUT_INIT(&fc->bmr_callout);
CALLOUT_INIT(&fc->busprobe_callout);
TASK_INIT(&fc->task_timeout, 0, firewire_xfer_timeout, fc);
callout_reset(&sc->fc->timeout_callout, hz,
firewire_watchdog, sc->fc);
/* create thread */
kproc_create(fw_bus_probe_thread, fc, &fc->probe_thread,
0, 0, "fw%d_probe", unit);
/* Locate our children */
bus_generic_probe(dev);
/* launch attachement of the added children */
bus_generic_attach(dev);
/* bus_reset */
FW_GLOCK(fc);
fw_busreset(fc, FWBUSNOTREADY);
FW_GUNLOCK(fc);
fc->ibr(fc);
return 0;
}
/*
* Attach it as child.
*/
static device_t
firewire_add_child(device_t dev, u_int order, const char *name, int unit)
{
device_t child;
struct firewire_softc *sc;
sc = device_get_softc(dev);
child = device_add_child(dev, name, unit);
if (child) {
device_set_ivars(child, sc->fc);
device_probe_and_attach(child);
}
return child;
}
static int
firewire_resume(device_t dev)
{
struct firewire_softc *sc;
sc = device_get_softc(dev);
sc->fc->status = FWBUSNOTREADY;
bus_generic_resume(dev);
return (0);
}
/*
* Detach it.
*/
static int
firewire_detach(device_t dev)
{
struct firewire_softc *sc;
struct firewire_comm *fc;
struct fw_device *fwdev, *fwdev_next;
int err;
sc = device_get_softc(dev);
fc = sc->fc;
mtx_lock(&fc->wait_lock);
fc->status = FWBUSDETACH;
wakeup(fc);
if (msleep(fc->probe_thread, &fc->wait_lock, PWAIT, "fwthr", hz * 60))
printf("firewire probe thread didn't die\n");
mtx_unlock(&fc->wait_lock);
if (fc->arq != 0 && fc->arq->maxq > 0)
fw_drain_txq(fc);
if ((err = fwdev_destroydev(sc)) != 0)
return err;
if ((err = bus_generic_detach(dev)) != 0)
return err;
callout_stop(&fc->timeout_callout);
callout_stop(&fc->bmr_callout);
callout_stop(&fc->busprobe_callout);
/* XXX xfer_free and untimeout on all xfers */
for (fwdev = STAILQ_FIRST(&fc->devices); fwdev != NULL;
fwdev = fwdev_next) {
fwdev_next = STAILQ_NEXT(fwdev, link);
free(fwdev, M_FW);
}
free(fc->topology_map, M_FW);
free(fc->speed_map, M_FW);
free(fc->crom_src_buf, M_FW);
mtx_destroy(&fc->tlabel_lock);
mtx_destroy(&fc->wait_lock);
return (0);
}
static void
fw_xferq_drain(struct fw_xferq *xferq)
{
struct fw_xfer *xfer;
while ((xfer = STAILQ_FIRST(&xferq->q)) != NULL) {
STAILQ_REMOVE_HEAD(&xferq->q, link);
#if 0
xferq->queued--;
#endif
xfer->resp = EAGAIN;
xfer->flag = FWXF_SENTERR;
fw_xfer_done(xfer);
}
}
void
fw_drain_txq(struct firewire_comm *fc)
{
struct fw_xfer *xfer, *txfer;
STAILQ_HEAD(, fw_xfer) xfer_drain;
int i;
STAILQ_INIT(&xfer_drain);
FW_GLOCK(fc);
fw_xferq_drain(fc->atq);
fw_xferq_drain(fc->ats);
for (i = 0; i < fc->nisodma; i++)
fw_xferq_drain(fc->it[i]);
FW_GUNLOCK(fc);
mtx_lock(&fc->tlabel_lock);
for (i = 0; i < 0x40; i++)
while ((xfer = STAILQ_FIRST(&fc->tlabels[i])) != NULL) {
if (firewire_debug)
printf("tl=%d flag=%d\n", i, xfer->flag);
xfer->tl = -1;
xfer->resp = EAGAIN;
STAILQ_REMOVE_HEAD(&fc->tlabels[i], tlabel);
STAILQ_INSERT_TAIL(&xfer_drain, xfer, tlabel);
}
mtx_unlock(&fc->tlabel_lock);
STAILQ_FOREACH_SAFE(xfer, &xfer_drain, tlabel, txfer)
xfer->hand(xfer);
}
static void
fw_reset_csr(struct firewire_comm *fc)
{
int i;
CSRARC(fc, STATE_CLEAR)
= 1 << 23 | 0 << 17 | 1 << 16 | 1 << 15 | 1 << 14;
CSRARC(fc, STATE_SET) = CSRARC(fc, STATE_CLEAR);
CSRARC(fc, NODE_IDS) = 0x3f;
CSRARC(fc, TOPO_MAP + 8) = 0;
fc->irm = -1;
fc->max_node = -1;
for (i = 2; i < 0x100 / 4 - 2; i++) {
CSRARC(fc, SPED_MAP + i * 4) = 0;
}
CSRARC(fc, STATE_CLEAR) = 1 << 23 | 0 << 17 | 1 << 16 | 1 << 15 | 1 << 14;
CSRARC(fc, STATE_SET) = CSRARC(fc, STATE_CLEAR);
CSRARC(fc, RESET_START) = 0;
CSRARC(fc, SPLIT_TIMEOUT_HI) = 0;
CSRARC(fc, SPLIT_TIMEOUT_LO) = 800 << 19;
CSRARC(fc, CYCLE_TIME) = 0x0;
CSRARC(fc, BUS_TIME) = 0x0;
CSRARC(fc, BUS_MGR_ID) = 0x3f;
CSRARC(fc, BANDWIDTH_AV) = 4915;
CSRARC(fc, CHANNELS_AV_HI) = 0xffffffff;
CSRARC(fc, CHANNELS_AV_LO) = 0xffffffff;
CSRARC(fc, IP_CHANNELS) = (1U << 31);
CSRARC(fc, CONF_ROM) = 0x04 << 24;
CSRARC(fc, CONF_ROM + 4) = 0x31333934; /* means strings 1394 */
CSRARC(fc, CONF_ROM + 8) = 1 << 31 | 1 << 30 | 1 << 29 |
1 << 28 | 0xff << 16 | 0x09 << 8;
CSRARC(fc, CONF_ROM + 0xc) = 0;
/* DV depend CSRs see blue book */
CSRARC(fc, oPCR) &= ~DV_BROADCAST_ON;
CSRARC(fc, iPCR) &= ~DV_BROADCAST_ON;
CSRARC(fc, STATE_CLEAR) &= ~(1 << 23 | 1 << 15 | 1 << 14);
CSRARC(fc, STATE_SET) = CSRARC(fc, STATE_CLEAR);
}
static void
fw_init_crom(struct firewire_comm *fc)
{
struct crom_src *src;
src = &fc->crom_src_buf->src;
bzero(src, sizeof(struct crom_src));
/* BUS info sample */
src->hdr.info_len = 4;
src->businfo.bus_name = CSR_BUS_NAME_IEEE1394;
src->businfo.irmc = 1;
src->businfo.cmc = 1;
src->businfo.isc = 1;
src->businfo.bmc = 1;
src->businfo.pmc = 0;
src->businfo.cyc_clk_acc = 100;
src->businfo.max_rec = fc->maxrec;
src->businfo.max_rom = MAXROM_4;
#define FW_GENERATION_CHANGEABLE 2
src->businfo.generation = FW_GENERATION_CHANGEABLE;
src->businfo.link_spd = fc->speed;
src->businfo.eui64.hi = fc->eui.hi;
src->businfo.eui64.lo = fc->eui.lo;
STAILQ_INIT(&src->chunk_list);
fc->crom_src = src;
fc->crom_root = &fc->crom_src_buf->root;
}
static void
fw_reset_crom(struct firewire_comm *fc)
{
struct crom_src_buf *buf;
struct crom_src *src;
struct crom_chunk *root;
buf = fc->crom_src_buf;
src = fc->crom_src;
root = fc->crom_root;
STAILQ_INIT(&src->chunk_list);
bzero(root, sizeof(struct crom_chunk));
crom_add_chunk(src, NULL, root, 0);
crom_add_entry(root, CSRKEY_NCAP, 0x0083c0); /* XXX */
/* private company_id */
crom_add_entry(root, CSRKEY_VENDOR, CSRVAL_VENDOR_PRIVATE);
crom_add_simple_text(src, root, &buf->vendor, "FreeBSD Project");
crom_add_entry(root, CSRKEY_HW, __FreeBSD_version);
mtx_lock(&prison0.pr_mtx);
crom_add_simple_text(src, root, &buf->hw, prison0.pr_hostname);
mtx_unlock(&prison0.pr_mtx);
}
/*
* Called after bus reset.
*/
void
fw_busreset(struct firewire_comm *fc, uint32_t new_status)
{
struct firewire_dev_comm *fdc;
struct crom_src *src;
device_t *devlistp;
uint32_t *newrom;
int i, devcnt;
FW_GLOCK_ASSERT(fc);
if (fc->status == FWBUSMGRELECT)
callout_stop(&fc->bmr_callout);
fc->status = new_status;
fw_reset_csr(fc);
if (fc->status == FWBUSNOTREADY)
fw_init_crom(fc);
fw_reset_crom(fc);
if (device_get_children(fc->bdev, &devlistp, &devcnt) == 0) {
for (i = 0; i < devcnt; i++)
if (device_get_state(devlistp[i]) >= DS_ATTACHED) {
fdc = device_get_softc(devlistp[i]);
if (fdc->post_busreset != NULL)
fdc->post_busreset(fdc);
}
free(devlistp, M_TEMP);
}
src = &fc->crom_src_buf->src;
/*
* If the old config rom needs to be overwritten,
* bump the businfo.generation indicator to
* indicate that we need to be reprobed
* See 1394a-2000 8.3.2.5.4 for more details.
* generation starts at 2 and rolls over at 0xF
* back to 2.
*
* A generation of 0 indicates a device
* that is not 1394a-2000 compliant.
* A generation of 1 indicates a device that
* does not change it's Bus Info Block or
* Configuration ROM.
*/
#define FW_MAX_GENERATION 0xF
newrom = malloc(CROMSIZE, M_FW, M_NOWAIT | M_ZERO);
src = &fc->crom_src_buf->src;
crom_load(src, newrom, CROMSIZE);
if (bcmp(newrom, fc->config_rom, CROMSIZE) != 0) {
/* Bump generation and reload. */
src->businfo.generation++;
/* Handle generation count wraps. */
if (src->businfo.generation < FW_GENERATION_CHANGEABLE)
src->businfo.generation = FW_GENERATION_CHANGEABLE;
/* Recalculate CRC to account for generation change. */
crom_load(src, newrom, CROMSIZE);
bcopy(newrom, fc->config_rom, CROMSIZE);
}
free(newrom, M_FW);
}
/* Call once after reboot */
void fw_init(struct firewire_comm *fc)
{
int i;
#ifdef FW_VMACCESS
struct fw_xfer *xfer;
struct fw_bind *fwb;
#endif
fc->arq->queued = 0;
fc->ars->queued = 0;
fc->atq->queued = 0;
fc->ats->queued = 0;
fc->arq->buf = NULL;
fc->ars->buf = NULL;
fc->atq->buf = NULL;
fc->ats->buf = NULL;
fc->arq->flag = 0;
fc->ars->flag = 0;
fc->atq->flag = 0;
fc->ats->flag = 0;
STAILQ_INIT(&fc->atq->q);
STAILQ_INIT(&fc->ats->q);
for (i = 0; i < fc->nisodma; i++) {
fc->it[i]->queued = 0;
fc->ir[i]->queued = 0;
fc->it[i]->start = NULL;
fc->ir[i]->start = NULL;
fc->it[i]->buf = NULL;
fc->ir[i]->buf = NULL;
fc->it[i]->flag = FWXFERQ_STREAM;
fc->ir[i]->flag = FWXFERQ_STREAM;
STAILQ_INIT(&fc->it[i]->q);
STAILQ_INIT(&fc->ir[i]->q);
}
fc->arq->maxq = FWMAXQUEUE;
fc->ars->maxq = FWMAXQUEUE;
fc->atq->maxq = FWMAXQUEUE;
fc->ats->maxq = FWMAXQUEUE;
for (i = 0; i < fc->nisodma; i++) {
fc->ir[i]->maxq = FWMAXQUEUE;
fc->it[i]->maxq = FWMAXQUEUE;
}
CSRARC(fc, TOPO_MAP) = 0x3f1 << 16;
CSRARC(fc, TOPO_MAP + 4) = 1;
CSRARC(fc, SPED_MAP) = 0x3f1 << 16;
CSRARC(fc, SPED_MAP + 4) = 1;
STAILQ_INIT(&fc->devices);
/* Initialize Async handlers */
STAILQ_INIT(&fc->binds);
for (i = 0; i < 0x40; i++) {
STAILQ_INIT(&fc->tlabels[i]);
}
/* DV depend CSRs see blue book */
#if 0
CSRARC(fc, oMPR) = 0x3fff0001; /* # output channel = 1 */
CSRARC(fc, oPCR) = 0x8000007a;
for (i = 4; i < 0x7c/4; i += 4) {
CSRARC(fc, i + oPCR) = 0x8000007a;
}
CSRARC(fc, iMPR) = 0x00ff0001; /* # input channel = 1 */
CSRARC(fc, iPCR) = 0x803f0000;
for (i = 4; i < 0x7c/4; i += 4) {
CSRARC(fc, i + iPCR) = 0x0;
}
#endif
fc->crom_src_buf = NULL;
#ifdef FW_VMACCESS
xfer = fw_xfer_alloc();
if (xfer == NULL)
return;
fwb = malloc(sizeof(struct fw_bind), M_FW, M_NOWAIT);
if (fwb == NULL) {
fw_xfer_free(xfer);
return;
}
xfer->hand = fw_vmaccess;
xfer->fc = fc;
xfer->sc = NULL;
fwb->start_hi = 0x2;
fwb->start_lo = 0;
fwb->addrlen = 0xffffffff;
fwb->xfer = xfer;
fw_bindadd(fc, fwb);
#endif
}
#define BIND_CMP(addr, fwb) (((addr) < (fwb)->start)? -1 : \
((fwb)->end < (addr)) ? 1 : 0)
/*
* To lookup bound process from IEEE1394 address.
*/
struct fw_bind *
fw_bindlookup(struct firewire_comm *fc, uint16_t dest_hi, uint32_t dest_lo)
{
u_int64_t addr;
struct fw_bind *tfw, *r = NULL;
addr = ((u_int64_t)dest_hi << 32) | dest_lo;
FW_GLOCK(fc);
STAILQ_FOREACH(tfw, &fc->binds, fclist)
if (BIND_CMP(addr, tfw) == 0) {
r = tfw;
break;
}
FW_GUNLOCK(fc);
return (r);
}
/*
* To bind IEEE1394 address block to process.
*/
int
fw_bindadd(struct firewire_comm *fc, struct fw_bind *fwb)
{
struct fw_bind *tfw, *prev = NULL;
int r = 0;
if (fwb->start > fwb->end) {
printf("%s: invalid range\n", __func__);
return EINVAL;
}
FW_GLOCK(fc);
STAILQ_FOREACH(tfw, &fc->binds, fclist) {
if (fwb->end < tfw->start)
break;
prev = tfw;
}
if (prev == NULL)
STAILQ_INSERT_HEAD(&fc->binds, fwb, fclist);
else if (prev->end < fwb->start)
STAILQ_INSERT_AFTER(&fc->binds, prev, fwb, fclist);
else {
printf("%s: bind failed\n", __func__);
r = EBUSY;
}
FW_GUNLOCK(fc);
return (r);
}
/*
* To free IEEE1394 address block.
*/
int
fw_bindremove(struct firewire_comm *fc, struct fw_bind *fwb)
{
#if 0
struct fw_xfer *xfer, *next;
#endif
struct fw_bind *tfw;
int s;
s = splfw();
FW_GLOCK(fc);
STAILQ_FOREACH(tfw, &fc->binds, fclist)
if (tfw == fwb) {
STAILQ_REMOVE(&fc->binds, fwb, fw_bind, fclist);
goto found;
}
printf("%s: no such binding\n", __func__);
FW_GUNLOCK(fc);
splx(s);
return (1);
found:
#if 0
/* shall we do this? */
for (xfer = STAILQ_FIRST(&fwb->xferlist); xfer != NULL; xfer = next) {
next = STAILQ_NEXT(xfer, link);
fw_xfer_free(xfer);
}
STAILQ_INIT(&fwb->xferlist);
#endif
FW_GUNLOCK(fc);
splx(s);
return 0;
}
int
fw_xferlist_add(struct fw_xferlist *q, struct malloc_type *type,
int slen, int rlen, int n,
struct firewire_comm *fc, void *sc, void (*hand)(struct fw_xfer *))
{
int i, s;
struct fw_xfer *xfer;
for (i = 0; i < n; i++) {
xfer = fw_xfer_alloc_buf(type, slen, rlen);
if (xfer == NULL)
return (i);
xfer->fc = fc;
xfer->sc = sc;
xfer->hand = hand;
s = splfw();
STAILQ_INSERT_TAIL(q, xfer, link);
splx(s);
}
return (n);
}
void
fw_xferlist_remove(struct fw_xferlist *q)
{
struct fw_xfer *xfer, *next;
for (xfer = STAILQ_FIRST(q); xfer != NULL; xfer = next) {
next = STAILQ_NEXT(xfer, link);
fw_xfer_free_buf(xfer);
}
STAILQ_INIT(q);
}
/*
* dump packet header
*/
static void
fw_dump_hdr(struct fw_pkt *fp, char *prefix)
{
printf("%s: dst=0x%02x tl=0x%02x rt=%d tcode=0x%x pri=0x%x "
"src=0x%03x\n", prefix,
fp->mode.hdr.dst & 0x3f,
fp->mode.hdr.tlrt >> 2, fp->mode.hdr.tlrt & 3,
fp->mode.hdr.tcode, fp->mode.hdr.pri,
fp->mode.hdr.src);
}
/*
* To free transaction label.
*/
static void
fw_tl_free(struct firewire_comm *fc, struct fw_xfer *xfer)
{
struct fw_xfer *txfer;
mtx_lock(&fc->tlabel_lock);
if (xfer->tl < 0) {
mtx_unlock(&fc->tlabel_lock);
return;
}
/* make sure the label is allocated */
STAILQ_FOREACH(txfer, &fc->tlabels[xfer->tl], tlabel)
if (txfer == xfer)
break;
if (txfer == NULL) {
printf("%s: the xfer is not in the queue "
"(tlabel=%d, flag=0x%x)\n",
__FUNCTION__, xfer->tl, xfer->flag);
fw_dump_hdr(&xfer->send.hdr, "send");
fw_dump_hdr(&xfer->recv.hdr, "recv");
kdb_backtrace();
mtx_unlock(&fc->tlabel_lock);
return;
}
STAILQ_REMOVE(&fc->tlabels[xfer->tl], xfer, fw_xfer, tlabel);
xfer->tl = -1;
mtx_unlock(&fc->tlabel_lock);
return;
}
/*
* To obtain XFER structure by transaction label.
*/
static struct fw_xfer *
fw_tl2xfer(struct firewire_comm *fc, int node, int tlabel, int tcode)
{
struct fw_xfer *xfer;
int s = splfw();
int req;
mtx_lock(&fc->tlabel_lock);
STAILQ_FOREACH(xfer, &fc->tlabels[tlabel], tlabel)
if (xfer->send.hdr.mode.hdr.dst == node) {
mtx_unlock(&fc->tlabel_lock);
splx(s);
KASSERT(xfer->tl == tlabel,
("xfer->tl 0x%x != 0x%x", xfer->tl, tlabel));
/* extra sanity check */
req = xfer->send.hdr.mode.hdr.tcode;
if (xfer->fc->tcode[req].valid_res != tcode) {
printf("%s: invalid response tcode "
"(0x%x for 0x%x)\n", __FUNCTION__,
tcode, req);
return (NULL);
}
if (firewire_debug > 2)
printf("fw_tl2xfer: found tl=%d\n", tlabel);
return (xfer);
}
mtx_unlock(&fc->tlabel_lock);
if (firewire_debug > 1)
printf("fw_tl2xfer: not found tl=%d\n", tlabel);
splx(s);
return (NULL);
}
/*
* To allocate IEEE1394 XFER structure.
*/
struct fw_xfer *
fw_xfer_alloc(struct malloc_type *type)
{
struct fw_xfer *xfer;
xfer = malloc(sizeof(struct fw_xfer), type, M_NOWAIT | M_ZERO);
if (xfer == NULL)
return xfer;
xfer->malloc = type;
xfer->tl = -1;
return xfer;
}
struct fw_xfer *
fw_xfer_alloc_buf(struct malloc_type *type, int send_len, int recv_len)
{
struct fw_xfer *xfer;
xfer = fw_xfer_alloc(type);
if (xfer == NULL)
return (NULL);
xfer->send.pay_len = send_len;
xfer->recv.pay_len = recv_len;
if (send_len > 0) {
xfer->send.payload = malloc(send_len, type, M_NOWAIT | M_ZERO);
if (xfer->send.payload == NULL) {
fw_xfer_free(xfer);
return (NULL);
}
}
if (recv_len > 0) {
xfer->recv.payload = malloc(recv_len, type, M_NOWAIT);
if (xfer->recv.payload == NULL) {
if (xfer->send.payload != NULL)
free(xfer->send.payload, type);
fw_xfer_free(xfer);
return (NULL);
}
}
return (xfer);
}
/*
* IEEE1394 XFER post process.
*/
void
fw_xfer_done(struct fw_xfer *xfer)
{
if (xfer->hand == NULL) {
printf("hand == NULL\n");
return;
}
if (xfer->fc == NULL)
panic("fw_xfer_done: why xfer->fc is NULL?");
fw_tl_free(xfer->fc, xfer);
xfer->hand(xfer);
}
void
fw_xfer_unload(struct fw_xfer *xfer)
{
if (xfer == NULL)
return;
if (xfer->fc != NULL) {
FW_GLOCK(xfer->fc);
if (xfer->flag & FWXF_INQ) {
STAILQ_REMOVE(&xfer->q->q, xfer, fw_xfer, link);
xfer->flag &= ~FWXF_INQ;
#if 0
xfer->q->queued--;
#endif
}
FW_GUNLOCK(xfer->fc);
/*
* Ensure that any tlabel owner can't access this
* xfer after it's freed.
*/
fw_tl_free(xfer->fc, xfer);
#if 1
if (xfer->flag & FWXF_START)
/*
* This could happen if:
* 1. We call fwohci_arcv() before fwohci_txd().
* 2. firewire_watch() is called.
*/
printf("fw_xfer_free FWXF_START\n");
#endif
}
xfer->flag = FWXF_INIT;
xfer->resp = 0;
}
/*
* To free IEEE1394 XFER structure.
*/
void
fw_xfer_free_buf(struct fw_xfer *xfer)
{
if (xfer == NULL) {
printf("%s: xfer == NULL\n", __func__);
return;
}
fw_xfer_unload(xfer);
if (xfer->send.payload != NULL)
free(xfer->send.payload, xfer->malloc);
if (xfer->recv.payload != NULL)
free(xfer->recv.payload, xfer->malloc);
free(xfer, xfer->malloc);
}
void
fw_xfer_free(struct fw_xfer *xfer)
{
if (xfer == NULL) {
printf("%s: xfer == NULL\n", __func__);
return;
}
fw_xfer_unload(xfer);
free(xfer, xfer->malloc);
}
void
fw_asy_callback_free(struct fw_xfer *xfer)
{
#if 0
printf("asyreq done flag=0x%02x resp=%d\n",
xfer->flag, xfer->resp);
#endif
fw_xfer_free(xfer);
}
/*
* To configure PHY.
*/
static void
fw_phy_config(struct firewire_comm *fc, int root_node, int gap_count)
{
struct fw_xfer *xfer;
struct fw_pkt *fp;
fc->status = FWBUSPHYCONF;
xfer = fw_xfer_alloc(M_FWXFER);
if (xfer == NULL)
return;
xfer->fc = fc;
xfer->hand = fw_asy_callback_free;
fp = &xfer->send.hdr;
fp->mode.ld[1] = 0;
if (root_node >= 0)
fp->mode.ld[1] |= (1 << 23) | (root_node & 0x3f) << 24;
if (gap_count >= 0)
fp->mode.ld[1] |= (1 << 22) | (gap_count & 0x3f) << 16;
fp->mode.ld[2] = ~fp->mode.ld[1];
/* XXX Dangerous, how to pass PHY packet to device driver */
fp->mode.common.tcode |= FWTCODE_PHY;
if (firewire_debug)
device_printf(fc->bdev, "%s: root_node=%d gap_count=%d\n",
__func__, root_node, gap_count);
fw_asyreq(fc, -1, xfer);
}
/*
* Dump self ID.
*/
static void
fw_print_sid(uint32_t sid)
{
union fw_self_id *s;
s = (union fw_self_id *) &sid;
if (s->p0.sequel) {
if (s->p1.sequence_num == FW_SELF_ID_PAGE0) {
printf("node:%d p3:%d p4:%d p5:%d p6:%d p7:%d"
"p8:%d p9:%d p10:%d\n",
s->p1.phy_id, s->p1.port3, s->p1.port4,
s->p1.port5, s->p1.port6, s->p1.port7,
s->p1.port8, s->p1.port9, s->p1.port10);
} else if (s->p2.sequence_num == FW_SELF_ID_PAGE1) {
printf("node:%d p11:%d p12:%d p13:%d p14:%d p15:%d\n",
s->p2.phy_id, s->p2.port11, s->p2.port12,
s->p2.port13, s->p2.port14, s->p2.port15);
} else {
printf("node:%d Unknown Self ID Page number %d\n",
s->p1.phy_id, s->p1.sequence_num);
}
} else {
printf("node:%d link:%d gap:%d spd:%d con:%d pwr:%d"
" p0:%d p1:%d p2:%d i:%d m:%d\n",
s->p0.phy_id, s->p0.link_active, s->p0.gap_count,
s->p0.phy_speed, s->p0.contender,
s->p0.power_class, s->p0.port0, s->p0.port1,
s->p0.port2, s->p0.initiated_reset, s->p0.more_packets);
}
}
/*
* To receive self ID.
*/
void fw_sidrcv(struct firewire_comm *fc, uint32_t *sid, u_int len)
{
uint32_t *p;
union fw_self_id *self_id;
u_int i, j, node, c_port = 0, i_branch = 0;
fc->sid_cnt = len / (sizeof(uint32_t) * 2);
fc->max_node = fc->nodeid & 0x3f;
CSRARC(fc, NODE_IDS) = ((uint32_t)fc->nodeid) << 16;
fc->status = FWBUSCYMELECT;
fc->topology_map->crc_len = 2;
fc->topology_map->generation++;
fc->topology_map->self_id_count = 0;
fc->topology_map->node_count= 0;
fc->speed_map->generation++;
fc->speed_map->crc_len = 1 + (64 * 64 + 3) / 4;
self_id = &fc->topology_map->self_id[0];
for (i = 0; i < fc->sid_cnt; i++) {
if (sid[1] != ~sid[0]) {
device_printf(fc->bdev,
"%s: ERROR invalid self-id packet\n", __func__);
sid += 2;
continue;
}
*self_id = *((union fw_self_id *)sid);
fc->topology_map->crc_len++;
if (self_id->p0.sequel == 0) {
fc->topology_map->node_count++;
c_port = 0;
if (firewire_debug)
fw_print_sid(sid[0]);
node = self_id->p0.phy_id;
if (fc->max_node < node)
fc->max_node = self_id->p0.phy_id;
/* XXX I'm not sure this is the right speed_map */
fc->speed_map->speed[node][node] =
self_id->p0.phy_speed;
for (j = 0; j < node; j++) {
fc->speed_map->speed[j][node] =
fc->speed_map->speed[node][j] =
min(fc->speed_map->speed[j][j],
self_id->p0.phy_speed);
}
if ((fc->irm == -1 || self_id->p0.phy_id > fc->irm) &&
(self_id->p0.link_active && self_id->p0.contender))
fc->irm = self_id->p0.phy_id;
if (self_id->p0.port0 >= 0x2)
c_port++;
if (self_id->p0.port1 >= 0x2)
c_port++;
if (self_id->p0.port2 >= 0x2)
c_port++;
}
if (c_port > 2)
i_branch += (c_port - 2);
sid += 2;
self_id++;
fc->topology_map->self_id_count++;
}
/* CRC */
fc->topology_map->crc = fw_crc16(
(uint32_t *)&fc->topology_map->generation,
fc->topology_map->crc_len * 4);
fc->speed_map->crc = fw_crc16(
(uint32_t *)&fc->speed_map->generation,
fc->speed_map->crc_len * 4);
/* byteswap and copy to CSR */
p = (uint32_t *)fc->topology_map;
for (i = 0; i <= fc->topology_map->crc_len; i++)
CSRARC(fc, TOPO_MAP + i * 4) = htonl(*p++);
p = (uint32_t *)fc->speed_map;
CSRARC(fc, SPED_MAP) = htonl(*p++);
CSRARC(fc, SPED_MAP + 4) = htonl(*p++);
/* don't byte-swap uint8_t array */
bcopy(p, &CSRARC(fc, SPED_MAP + 8), (fc->speed_map->crc_len - 1) * 4);
fc->max_hop = fc->max_node - i_branch;
device_printf(fc->bdev, "%d nodes, maxhop <= %d %s irm(%d) %s\n",
fc->max_node + 1, fc->max_hop,
(fc->irm == -1) ? "Not IRM capable" : "cable IRM",
fc->irm, (fc->irm == fc->nodeid) ? " (me) " : "");
if (try_bmr && (fc->irm != -1) && (CSRARC(fc, BUS_MGR_ID) == 0x3f)) {
if (fc->irm == fc->nodeid) {
fc->status = FWBUSMGRDONE;
CSRARC(fc, BUS_MGR_ID) = fc->set_bmr(fc, fc->irm);
fw_bmr(fc);
} else {
fc->status = FWBUSMGRELECT;
callout_reset(&fc->bmr_callout, hz / 8,
fw_try_bmr, fc);
}
} else
fc->status = FWBUSMGRDONE;
callout_reset(&fc->busprobe_callout, hz / 4, fw_bus_probe, fc);
}
/*
* To probe devices on the IEEE1394 bus.
*/
static void
fw_bus_probe(void *arg)
{
struct firewire_comm *fc;
struct fw_device *fwdev;
int s;
s = splfw();
fc = arg;
fc->status = FWBUSEXPLORE;
/* Invalidate all devices, just after bus reset. */
if (firewire_debug)
device_printf(fc->bdev, "%s:"
"iterate and invalidate all nodes\n",
__func__);
STAILQ_FOREACH(fwdev, &fc->devices, link)
if (fwdev->status != FWDEVINVAL) {
fwdev->status = FWDEVINVAL;
fwdev->rcnt = 0;
if (firewire_debug)
device_printf(fc->bdev, "%s:"
"Invalidate Dev ID: %08x%08x\n",
__func__, fwdev->eui.hi, fwdev->eui.lo);
} else {
if (firewire_debug)
device_printf(fc->bdev, "%s:"
"Dev ID: %08x%08x already invalid\n",
__func__, fwdev->eui.hi, fwdev->eui.lo);
}
splx(s);
wakeup(fc);
}
static int
fw_explore_read_quads(struct fw_device *fwdev, int offset,
uint32_t *quad, int length)
{
struct fw_xfer *xfer;
uint32_t tmp;
int i, error;
for (i = 0; i < length; i++, offset += sizeof(uint32_t)) {
xfer = fwmem_read_quad(fwdev, NULL, -1, 0xffff,
0xf0000000 | offset, &tmp, fw_xferwake);
if (xfer == NULL)
return (-1);
fw_xferwait(xfer);
if (xfer->resp == 0)
quad[i] = ntohl(tmp);
error = xfer->resp;
fw_xfer_free(xfer);
if (error)
return (error);
}
return (0);
}
static int
fw_explore_csrblock(struct fw_device *fwdev, int offset, int recur)
{
int err, i, off;
struct csrdirectory *dir;
struct csrreg *reg;
dir = (struct csrdirectory *)&fwdev->csrrom[offset / sizeof(uint32_t)];
err = fw_explore_read_quads(fwdev, CSRROMOFF + offset,
(uint32_t *)dir, 1);
if (err)
return (-1);
offset += sizeof(uint32_t);
reg = (struct csrreg *)&fwdev->csrrom[offset / sizeof(uint32_t)];
err = fw_explore_read_quads(fwdev, CSRROMOFF + offset,
(uint32_t *)reg, dir->crc_len);
if (err)
return (-1);
/* XXX check CRC */
off = CSRROMOFF + offset + sizeof(uint32_t) * (dir->crc_len - 1);
if (fwdev->rommax < off)
fwdev->rommax = off;
if (recur == 0)
return (0);
for (i = 0; i < dir->crc_len; i++, offset += sizeof(uint32_t)) {
if ((reg[i].key & CSRTYPE_MASK) == CSRTYPE_D)
recur = 1;
else if ((reg[i].key & CSRTYPE_MASK) == CSRTYPE_L)
recur = 0;
else
continue;
off = offset + reg[i].val * sizeof(uint32_t);
if (off > CROMSIZE) {
printf("%s: invalid offset %d\n", __FUNCTION__, off);
return (-1);
}
err = fw_explore_csrblock(fwdev, off, recur);
if (err)
return (-1);
}
return (0);
}
static int
fw_explore_node(struct fw_device *dfwdev)
{
struct firewire_comm *fc;
struct fw_device *fwdev, *pfwdev, *tfwdev;
uint32_t *csr;
struct csrhdr *hdr;
struct bus_info *binfo;
int err, node;
uint32_t speed_test = 0;
fc = dfwdev->fc;
csr = dfwdev->csrrom;
node = dfwdev->dst;
/* First quad */
err = fw_explore_read_quads(dfwdev, CSRROMOFF, &csr[0], 1);
if (err) {
dfwdev->status = FWDEVINVAL;
return (-1);
}
hdr = (struct csrhdr *)&csr[0];
if (hdr->info_len != 4) {
if (firewire_debug)
device_printf(fc->bdev,
"%s: node%d: wrong bus info len(%d)\n",
__func__, node, hdr->info_len);
dfwdev->status = FWDEVINVAL;
return (-1);
}
/* bus info */
err = fw_explore_read_quads(dfwdev, CSRROMOFF + 0x04, &csr[1], 4);
if (err) {
dfwdev->status = FWDEVINVAL;
return (-1);
}
binfo = (struct bus_info *)&csr[1];
if (binfo->bus_name != CSR_BUS_NAME_IEEE1394) {
dfwdev->status = FWDEVINVAL;
return (-1);
}
if (firewire_debug)
device_printf(fc->bdev, "%s: node(%d) BUS INFO BLOCK:\n"
"irmc(%d) cmc(%d) isc(%d) bmc(%d) pmc(%d) "
"cyc_clk_acc(%d) max_rec(%d) max_rom(%d) "
"generation(%d) link_spd(%d)\n",
__func__, node,
binfo->irmc, binfo->cmc, binfo->isc,
binfo->bmc, binfo->pmc, binfo->cyc_clk_acc,
binfo->max_rec, binfo->max_rom,
binfo->generation, binfo->link_spd);
STAILQ_FOREACH(fwdev, &fc->devices, link)
if (FW_EUI64_EQUAL(fwdev->eui, binfo->eui64))
break;
if (fwdev == NULL) {
/* new device */
fwdev = malloc(sizeof(struct fw_device), M_FW,
M_NOWAIT | M_ZERO);
if (fwdev == NULL) {
device_printf(fc->bdev, "%s: node%d: no memory\n",
__func__, node);
return (-1);
}
fwdev->fc = fc;
fwdev->eui = binfo->eui64;
fwdev->dst = dfwdev->dst;
fwdev->maxrec = dfwdev->maxrec;
fwdev->status = dfwdev->status;
/*
* Pre-1394a-2000 didn't have link_spd in
* the Bus Info block, so try and use the
* speed map value.
* 1394a-2000 compliant devices only use
* the Bus Info Block link spd value, so
* ignore the speed map altogether. SWB
*/
if (binfo->link_spd == FWSPD_S100 /* 0 */) {
device_printf(fc->bdev, "%s: "
"Pre 1394a-2000 detected\n", __func__);
fwdev->speed = fc->speed_map->speed[fc->nodeid][node];
} else
fwdev->speed = binfo->link_spd;
/*
* Test this speed with a read to the CSRROM.
* If it fails, slow down the speed and retry.
*/
while (fwdev->speed > FWSPD_S100 /* 0 */) {
err = fw_explore_read_quads(fwdev, CSRROMOFF,
&speed_test, 1);
if (err) {
device_printf(fc->bdev,
"%s: fwdev->speed(%s) decremented due to negotiation\n",
__func__, linkspeed[fwdev->speed]);
fwdev->speed--;
} else
break;
}
/*
* If the fwdev is not found in the
* fc->devices TAILQ, then we will add it.
*/
pfwdev = NULL;
STAILQ_FOREACH(tfwdev, &fc->devices, link) {
if (tfwdev->eui.hi > fwdev->eui.hi ||
(tfwdev->eui.hi == fwdev->eui.hi &&
tfwdev->eui.lo > fwdev->eui.lo))
break;
pfwdev = tfwdev;
}
if (pfwdev == NULL)
STAILQ_INSERT_HEAD(&fc->devices, fwdev, link);
else
STAILQ_INSERT_AFTER(&fc->devices, pfwdev, fwdev, link);
} else {
fwdev->dst = node;
fwdev->status = FWDEVINIT;
/* unchanged ? */
if (bcmp(&csr[0], &fwdev->csrrom[0], sizeof(uint32_t) * 5) == 0) {
if (firewire_debug)
device_printf(fc->dev,
"node%d: crom unchanged\n", node);
return (0);
}
}
bzero(&fwdev->csrrom[0], CROMSIZE);
/* copy first quad and bus info block */
bcopy(&csr[0], &fwdev->csrrom[0], sizeof(uint32_t) * 5);
fwdev->rommax = CSRROMOFF + sizeof(uint32_t) * 4;
err = fw_explore_csrblock(fwdev, 0x14, 1); /* root directory */
if (err) {
if (firewire_debug)
device_printf(fc->dev, "%s: explore csrblock failed err(%d)\n",
__func__, err);
fwdev->status = FWDEVINVAL;
fwdev->csrrom[0] = 0;
}
return (err);
}
/*
* Find the self_id packet for a node, ignoring sequels.
*/
static union fw_self_id *
fw_find_self_id(struct firewire_comm *fc, int node)
{
uint32_t i;
union fw_self_id *s;
for (i = 0; i < fc->topology_map->self_id_count; i++) {
s = &fc->topology_map->self_id[i];
if (s->p0.sequel)
continue;
if (s->p0.phy_id == node)
return s;
}
return 0;
}
static void
fw_explore(struct firewire_comm *fc)
{
int node, err, s, i, todo, todo2, trys;
char nodes[63];
struct fw_device dfwdev;
union fw_self_id *fwsid;
todo = 0;
/* setup dummy fwdev */
dfwdev.fc = fc;
dfwdev.speed = 0;
dfwdev.maxrec = 8; /* 512 */
dfwdev.status = FWDEVINIT;
for (node = 0; node <= fc->max_node; node++) {
/* We don't probe myself and linkdown nodes */
if (node == fc->nodeid) {
if (firewire_debug)
device_printf(fc->bdev, "%s:"
"found myself node(%d) fc->nodeid(%d) fc->max_node(%d)\n",
__func__, node, fc->nodeid, fc->max_node);
continue;
} else if (firewire_debug) {
device_printf(fc->bdev, "%s:"
"node(%d) fc->max_node(%d) found\n",
__func__, node, fc->max_node);
}
fwsid = fw_find_self_id(fc, node);
if (!fwsid || !fwsid->p0.link_active) {
if (firewire_debug)
device_printf(fc->bdev,
"%s: node%d: link down\n",
__func__, node);
continue;
}
nodes[todo++] = node;
}
s = splfw();
for (trys = 0; todo > 0 && trys < 3; trys++) {
todo2 = 0;
for (i = 0; i < todo; i++) {
dfwdev.dst = nodes[i];
err = fw_explore_node(&dfwdev);
if (err)
nodes[todo2++] = nodes[i];
if (firewire_debug)
device_printf(fc->bdev,
"%s: node %d, err = %d\n",
__func__, node, err);
}
todo = todo2;
}
splx(s);
}
static void
fw_bus_probe_thread(void *arg)
{
struct firewire_comm *fc;
fc = arg;
mtx_lock(&fc->wait_lock);
while (fc->status != FWBUSDETACH) {
if (fc->status == FWBUSEXPLORE) {
mtx_unlock(&fc->wait_lock);
fw_explore(fc);
fc->status = FWBUSEXPDONE;
if (firewire_debug)
printf("bus_explore done\n");
fw_attach_dev(fc);
mtx_lock(&fc->wait_lock);
}
msleep((void *)fc, &fc->wait_lock, PWAIT|PCATCH, "-", 0);
}
mtx_unlock(&fc->wait_lock);
kproc_exit(0);
}
/*
* To attach sub-devices layer onto IEEE1394 bus.
*/
static void
fw_attach_dev(struct firewire_comm *fc)
{
struct fw_device *fwdev, *next;
int i, err;
device_t *devlistp;
int devcnt;
struct firewire_dev_comm *fdc;
for (fwdev = STAILQ_FIRST(&fc->devices); fwdev != NULL; fwdev = next) {
next = STAILQ_NEXT(fwdev, link);
if (fwdev->status == FWDEVINIT) {
fwdev->status = FWDEVATTACHED;
} else if (fwdev->status == FWDEVINVAL) {
fwdev->rcnt++;
if (firewire_debug)
device_printf(fc->bdev, "%s:"
"fwdev->rcnt(%d), hold_count(%d)\n",
__func__, fwdev->rcnt, hold_count);
if (fwdev->rcnt > hold_count) {
/*
* Remove devices which have not been seen
* for a while.
*/
STAILQ_REMOVE(&fc->devices, fwdev, fw_device,
link);
free(fwdev, M_FW);
}
}
}
err = device_get_children(fc->bdev, &devlistp, &devcnt);
if (err == 0) {
for (i = 0; i < devcnt; i++) {
if (device_get_state(devlistp[i]) >= DS_ATTACHED) {
fdc = device_get_softc(devlistp[i]);
if (fdc->post_explore != NULL)
fdc->post_explore(fdc);
}
}
free(devlistp, M_TEMP);
}
return;
}
/*
* To allocate unique transaction label.
*/
static int
fw_get_tlabel(struct firewire_comm *fc, struct fw_xfer *xfer)
{
u_int dst, new_tlabel;
struct fw_xfer *txfer;
int s;
dst = xfer->send.hdr.mode.hdr.dst & 0x3f;
s = splfw();
mtx_lock(&fc->tlabel_lock);
new_tlabel = (fc->last_tlabel[dst] + 1) & 0x3f;
STAILQ_FOREACH(txfer, &fc->tlabels[new_tlabel], tlabel)
if ((txfer->send.hdr.mode.hdr.dst & 0x3f) == dst)
break;
if (txfer == NULL) {
fc->last_tlabel[dst] = new_tlabel;
STAILQ_INSERT_TAIL(&fc->tlabels[new_tlabel], xfer, tlabel);
mtx_unlock(&fc->tlabel_lock);
splx(s);
xfer->tl = new_tlabel;
xfer->send.hdr.mode.hdr.tlrt = new_tlabel << 2;
if (firewire_debug > 1)
printf("fw_get_tlabel: dst=%d tl=%d\n", dst, new_tlabel);
return (new_tlabel);
}
mtx_unlock(&fc->tlabel_lock);
splx(s);
if (firewire_debug > 1)
printf("fw_get_tlabel: no free tlabel\n");
return (-1);
}
static void
fw_rcv_copy(struct fw_rcv_buf *rb)
{
struct fw_pkt *pkt;
u_char *p;
struct tcode_info *tinfo;
u_int res, i, len, plen;
rb->xfer->recv.spd = rb->spd;
pkt = (struct fw_pkt *)rb->vec->iov_base;
tinfo = &rb->fc->tcode[pkt->mode.hdr.tcode];
/* Copy header */
p = (u_char *)&rb->xfer->recv.hdr;
bcopy(rb->vec->iov_base, p, tinfo->hdr_len);
rb->vec->iov_base = (u_char *)rb->vec->iov_base + tinfo->hdr_len;
rb->vec->iov_len -= tinfo->hdr_len;
/* Copy payload */
p = (u_char *)rb->xfer->recv.payload;
res = rb->xfer->recv.pay_len;
/* special handling for RRESQ */
if (pkt->mode.hdr.tcode == FWTCODE_RRESQ &&
p != NULL && res >= sizeof(uint32_t)) {
*(uint32_t *)p = pkt->mode.rresq.data;
rb->xfer->recv.pay_len = sizeof(uint32_t);
return;
}
if ((tinfo->flag & FWTI_BLOCK_ASY) == 0)
return;
plen = pkt->mode.rresb.len;
for (i = 0; i < rb->nvec; i++, rb->vec++) {
len = MIN(rb->vec->iov_len, plen);
if (res < len) {
device_printf(rb->fc->bdev, "%s:"
" rcv buffer(%d) is %d bytes short.\n",
__func__, rb->xfer->recv.pay_len, len - res);
len = res;
}
bcopy(rb->vec->iov_base, p, len);
p += len;
res -= len;
plen -= len;
if (res == 0 || plen == 0)
break;
}
rb->xfer->recv.pay_len -= res;
}
/*
* Generic packet receiving process.
*/
void
fw_rcv(struct fw_rcv_buf *rb)
{
struct fw_pkt *fp, *resfp;
struct fw_bind *bind;
int tcode;
int i, len, oldstate;
#if 0
{
uint32_t *qld;
int i;
qld = (uint32_t *)buf;
printf("spd %d len:%d\n", spd, len);
for (i = 0; i <= len && i < 32; i+= 4) {
printf("0x%08x ", ntohl(qld[i/4]));
if ((i % 16) == 15) printf("\n");
}
if ((i % 16) != 15) printf("\n");
}
#endif
fp = (struct fw_pkt *)rb->vec[0].iov_base;
tcode = fp->mode.common.tcode;
switch (tcode) {
case FWTCODE_WRES:
case FWTCODE_RRESQ:
case FWTCODE_RRESB:
case FWTCODE_LRES:
rb->xfer = fw_tl2xfer(rb->fc, fp->mode.hdr.src,
fp->mode.hdr.tlrt >> 2, fp->mode.hdr.tcode);
if (rb->xfer == NULL) {
device_printf(rb->fc->bdev, "%s: unknown response "
"%s(%x) src=0x%x tl=0x%x rt=%d data=0x%x\n",
__func__,
tcode_str[tcode], tcode,
fp->mode.hdr.src,
fp->mode.hdr.tlrt >> 2,
fp->mode.hdr.tlrt & 3,
fp->mode.rresq.data);
#if 0
printf("try ad-hoc work around!!\n");
rb->xfer = fw_tl2xfer(rb->fc, fp->mode.hdr.src,
(fp->mode.hdr.tlrt >> 2)^3);
if (rb->xfer == NULL) {
printf("no use...\n");
return;
}
#else
return;
#endif
}
fw_rcv_copy(rb);
if (rb->xfer->recv.hdr.mode.wres.rtcode != RESP_CMP)
rb->xfer->resp = EIO;
else
rb->xfer->resp = 0;
/* make sure the packet is drained in AT queue */
oldstate = rb->xfer->flag;
rb->xfer->flag = FWXF_RCVD;
switch (oldstate) {
case FWXF_SENT:
fw_xfer_done(rb->xfer);
break;
case FWXF_START:
#if 0
if (firewire_debug)
printf("not sent yet tl=%x\n", rb->xfer->tl);
#endif
break;
default:
device_printf(rb->fc->bdev, "%s: "
"unexpected flag 0x%02x\n", __func__,
rb->xfer->flag);
}
return;
case FWTCODE_WREQQ:
case FWTCODE_WREQB:
case FWTCODE_RREQQ:
case FWTCODE_RREQB:
case FWTCODE_LREQ:
bind = fw_bindlookup(rb->fc, fp->mode.rreqq.dest_hi,
fp->mode.rreqq.dest_lo);
if (bind == NULL) {
device_printf(rb->fc->bdev, "%s: "
"Unknown service addr 0x%04x:0x%08x %s(%x)"
" src=0x%x data=%x\n",
__func__,
fp->mode.wreqq.dest_hi,
fp->mode.wreqq.dest_lo,
tcode_str[tcode], tcode,
fp->mode.hdr.src,
ntohl(fp->mode.wreqq.data));
if (rb->fc->status == FWBUSINIT) {
device_printf(rb->fc->bdev,
"%s: cannot respond(bus reset)!\n",
__func__);
return;
}
rb->xfer = fw_xfer_alloc(M_FWXFER);
if (rb->xfer == NULL) {
return;
}
rb->xfer->send.spd = rb->spd;
rb->xfer->send.pay_len = 0;
resfp = &rb->xfer->send.hdr;
switch (tcode) {
case FWTCODE_WREQQ:
case FWTCODE_WREQB:
resfp->mode.hdr.tcode = FWTCODE_WRES;
break;
case FWTCODE_RREQQ:
resfp->mode.hdr.tcode = FWTCODE_RRESQ;
break;
case FWTCODE_RREQB:
resfp->mode.hdr.tcode = FWTCODE_RRESB;
break;
case FWTCODE_LREQ:
resfp->mode.hdr.tcode = FWTCODE_LRES;
break;
}
resfp->mode.hdr.dst = fp->mode.hdr.src;
resfp->mode.hdr.tlrt = fp->mode.hdr.tlrt;
resfp->mode.hdr.pri = fp->mode.hdr.pri;
resfp->mode.rresb.rtcode = RESP_ADDRESS_ERROR;
resfp->mode.rresb.extcode = 0;
resfp->mode.rresb.len = 0;
/*
rb->xfer->hand = fw_xferwake;
*/
rb->xfer->hand = fw_xfer_free;
if (fw_asyreq(rb->fc, -1, rb->xfer))
fw_xfer_free(rb->xfer);
return;
}
len = 0;
for (i = 0; i < rb->nvec; i++)
len += rb->vec[i].iov_len;
rb->xfer = STAILQ_FIRST(&bind->xferlist);
if (rb->xfer == NULL) {
device_printf(rb->fc->bdev, "%s: "
"Discard a packet for this bind.\n", __func__);
return;
}
STAILQ_REMOVE_HEAD(&bind->xferlist, link);
fw_rcv_copy(rb);
rb->xfer->hand(rb->xfer);
return;
#if 0 /* shouldn't happen ?? or for GASP */
case FWTCODE_STREAM:
{
struct fw_xferq *xferq;
xferq = rb->fc->ir[sub];
#if 0
printf("stream rcv dma %d len %d off %d spd %d\n",
sub, len, off, spd);
#endif
if (xferq->queued >= xferq->maxq) {
printf("receive queue is full\n");
return;
}
/* XXX get xfer from xfer queue, we don't need copy for
per packet mode */
rb->xfer = fw_xfer_alloc_buf(M_FWXFER, 0, /* XXX */
vec[0].iov_len);
if (rb->xfer == NULL)
return;
fw_rcv_copy(rb)
s = splfw();
xferq->queued++;
STAILQ_INSERT_TAIL(&xferq->q, rb->xfer, link);
splx(s);
sc = device_get_softc(rb->fc->bdev);
if (SEL_WAITING(&xferq->rsel))
selwakeuppri(&xferq->rsel, FWPRI);
if (xferq->flag & FWXFERQ_WAKEUP) {
xferq->flag &= ~FWXFERQ_WAKEUP;
wakeup((caddr_t)xferq);
}
if (xferq->flag & FWXFERQ_HANDLER) {
xferq->hand(xferq);
}
return;
break;
}
#endif
default:
device_printf(rb->fc->bdev,"%s: unknown tcode %d\n",
__func__, tcode);
break;
}
}
/*
* Post process for Bus Manager election process.
*/
static void
fw_try_bmr_callback(struct fw_xfer *xfer)
{
struct firewire_comm *fc;
int bmr;
if (xfer == NULL)
return;
fc = xfer->fc;
if (xfer->resp != 0)
goto error;
if (xfer->recv.payload == NULL)
goto error;
if (xfer->recv.hdr.mode.lres.rtcode != FWRCODE_COMPLETE)
goto error;
bmr = ntohl(xfer->recv.payload[0]);
if (bmr == 0x3f)
bmr = fc->nodeid;
CSRARC(fc, BUS_MGR_ID) = fc->set_bmr(fc, bmr & 0x3f);
fw_xfer_free_buf(xfer);
fw_bmr(fc);
return;
error:
device_printf(fc->bdev, "bus manager election failed\n");
fw_xfer_free_buf(xfer);
}
/*
* To candidate Bus Manager election process.
*/
static void
fw_try_bmr(void *arg)
{
struct fw_xfer *xfer;
struct firewire_comm *fc = arg;
struct fw_pkt *fp;
int err = 0;
xfer = fw_xfer_alloc_buf(M_FWXFER, 8, 4);
if (xfer == NULL)
return;
xfer->send.spd = 0;
fc->status = FWBUSMGRELECT;
fp = &xfer->send.hdr;
fp->mode.lreq.dest_hi = 0xffff;
fp->mode.lreq.tlrt = 0;
fp->mode.lreq.tcode = FWTCODE_LREQ;
fp->mode.lreq.pri = 0;
fp->mode.lreq.src = 0;
fp->mode.lreq.len = 8;
fp->mode.lreq.extcode = EXTCODE_CMP_SWAP;
fp->mode.lreq.dst = FWLOCALBUS | fc->irm;
fp->mode.lreq.dest_lo = 0xf0000000 | BUS_MGR_ID;
xfer->send.payload[0] = htonl(0x3f);
xfer->send.payload[1] = htonl(fc->nodeid);
xfer->hand = fw_try_bmr_callback;
err = fw_asyreq(fc, -1, xfer);
if (err) {
fw_xfer_free_buf(xfer);
return;
}
return;
}
#ifdef FW_VMACCESS
/*
* Software implementation for physical memory block access.
* XXX:Too slow, useful for debug purpose only.
*/
static void
fw_vmaccess(struct fw_xfer *xfer)
{
struct fw_pkt *rfp, *sfp = NULL;
uint32_t *ld = (uint32_t *)xfer->recv.buf;
printf("vmaccess spd:%2x len:%03x data:%08x %08x %08x %08x\n",
xfer->spd, xfer->recv.len, ntohl(ld[0]), ntohl(ld[1]), ntohl(ld[2]),
ntohl(ld[3]));
printf("vmaccess data:%08x %08x %08x %08x\n", ntohl(ld[4]),
ntohl(ld[5]), ntohl(ld[6]), ntohl(ld[7]));
if (xfer->resp != 0) {
fw_xfer_free(xfer);
return;
}
if (xfer->recv.buf == NULL) {
fw_xfer_free(xfer);
return;
}
rfp = (struct fw_pkt *)xfer->recv.buf;
switch (rfp->mode.hdr.tcode) {
/* XXX need fix for 64bit arch */
case FWTCODE_WREQB:
xfer->send.buf = malloc(12, M_FW, M_NOWAIT);
xfer->send.len = 12;
sfp = (struct fw_pkt *)xfer->send.buf;
bcopy(rfp->mode.wreqb.payload,
(caddr_t)ntohl(rfp->mode.wreqb.dest_lo),s
ntohs(rfp->mode.wreqb.len));
sfp->mode.wres.tcode = FWTCODE_WRES;
sfp->mode.wres.rtcode = 0;
break;
case FWTCODE_WREQQ:
xfer->send.buf = malloc(12, M_FW, M_NOWAIT);
xfer->send.len = 12;
sfp->mode.wres.tcode = FWTCODE_WRES;
*((uint32_t *)(ntohl(rfp->mode.wreqb.dest_lo))) =
rfp->mode.wreqq.data;
sfp->mode.wres.rtcode = 0;
break;
case FWTCODE_RREQB:
xfer->send.buf = malloc(16 + rfp->mode.rreqb.len,
M_FW, M_NOWAIT);
xfer->send.len = 16 + ntohs(rfp->mode.rreqb.len);
sfp = (struct fw_pkt *)xfer->send.buf;
bcopy((caddr_t)ntohl(rfp->mode.rreqb.dest_lo),
sfp->mode.rresb.payload,
ntohs(rfp->mode.rreqb.len));
sfp->mode.rresb.tcode = FWTCODE_RRESB;
sfp->mode.rresb.len = rfp->mode.rreqb.len;
sfp->mode.rresb.rtcode = 0;
sfp->mode.rresb.extcode = 0;
break;
case FWTCODE_RREQQ:
xfer->send.buf = malloc(16, M_FW, M_NOWAIT);
xfer->send.len = 16;
sfp = (struct fw_pkt *)xfer->send.buf;
sfp->mode.rresq.data =
*(uint32_t *)(ntohl(rfp->mode.rreqq.dest_lo));
sfp->mode.wres.tcode = FWTCODE_RRESQ;
sfp->mode.rresb.rtcode = 0;
break;
default:
fw_xfer_free(xfer);
return;
}
sfp->mode.hdr.dst = rfp->mode.hdr.src;
xfer->dst = ntohs(rfp->mode.hdr.src);
xfer->hand = fw_xfer_free;
sfp->mode.hdr.tlrt = rfp->mode.hdr.tlrt;
sfp->mode.hdr.pri = 0;
fw_asyreq(xfer->fc, -1, xfer);
/**/
return;
}
#endif
/*
* CRC16 check-sum for IEEE1394 register blocks.
*/
uint16_t
fw_crc16(uint32_t *ptr, uint32_t len)
{
uint32_t i, sum, crc = 0;
int shift;
len = (len + 3) & ~3;
for (i = 0; i < len; i += 4) {
for (shift = 28; shift >= 0; shift -= 4) {
sum = ((crc >> 12) ^ (ptr[i/4] >> shift)) & 0xf;
crc = (crc << 4) ^ (sum << 12) ^ (sum << 5) ^ sum;
}
crc &= 0xffff;
}
return ((uint16_t) crc);
}
/*
* Find the root node, if it is not
* Cycle Master Capable, then we should
* override this and become the Cycle
* Master
*/
static int
fw_bmr(struct firewire_comm *fc)
{
struct fw_device fwdev;
union fw_self_id *self_id;
int cmstr;
uint32_t quad;
/* Check to see if the current root node is cycle master capable */
self_id = fw_find_self_id(fc, fc->max_node);
if (fc->max_node > 0) {
/* XXX check cmc bit of businfo block rather than contender */
if (self_id->p0.link_active && self_id->p0.contender)
cmstr = fc->max_node;
else {
device_printf(fc->bdev,
"root node is not cycle master capable\n");
/* XXX shall we be the cycle master? */
cmstr = fc->nodeid;
/* XXX need bus reset */
}
} else
cmstr = -1;
device_printf(fc->bdev, "bus manager %d %s\n",
CSRARC(fc, BUS_MGR_ID),
(CSRARC(fc, BUS_MGR_ID) != fc->nodeid) ? "(me)" : "");
if (CSRARC(fc, BUS_MGR_ID) != fc->nodeid) {
/* We are not the bus manager */
return (0);
}
/* Optimize gapcount */
if (fc->max_hop <= MAX_GAPHOP)
fw_phy_config(fc, cmstr, gap_cnt[fc->max_hop]);
/* If we are the cycle master, nothing to do */
if (cmstr == fc->nodeid || cmstr == -1)
return 0;
/* Bus probe has not finished, make dummy fwdev for cmstr */
bzero(&fwdev, sizeof(fwdev));
fwdev.fc = fc;
fwdev.dst = cmstr;
fwdev.speed = 0;
fwdev.maxrec = 8; /* 512 */
fwdev.status = FWDEVINIT;
/* Set cmstr bit on the cycle master */
quad = htonl(1 << 8);
fwmem_write_quad(&fwdev, NULL, 0/*spd*/,
0xffff, 0xf0000000 | STATE_SET, &quad, fw_asy_callback_free);
return 0;
}
int
fw_open_isodma(struct firewire_comm *fc, int tx)
{
struct fw_xferq **xferqa;
struct fw_xferq *xferq;
int i;
if (tx)
xferqa = &fc->it[0];
else
xferqa = &fc->ir[0];
FW_GLOCK(fc);
for (i = 0; i < fc->nisodma; i++) {
xferq = xferqa[i];
if ((xferq->flag & FWXFERQ_OPEN) == 0) {
xferq->flag |= FWXFERQ_OPEN;
break;
}
}
if (i == fc->nisodma) {
printf("no free dma channel (tx=%d)\n", tx);
i = -1;
}
FW_GUNLOCK(fc);
return (i);
}
static int
fw_modevent(module_t mode, int type, void *data)
{
int err = 0;
static eventhandler_tag fwdev_ehtag = NULL;
switch (type) {
case MOD_LOAD:
fwdev_ehtag = EVENTHANDLER_REGISTER(dev_clone,
fwdev_clone, 0, 1000);
break;
case MOD_UNLOAD:
if (fwdev_ehtag != NULL)
EVENTHANDLER_DEREGISTER(dev_clone, fwdev_ehtag);
break;
case MOD_SHUTDOWN:
break;
default:
return (EOPNOTSUPP);
}
return (err);
}
DRIVER_MODULE(firewire, fwohci, firewire_driver, firewire_devclass,
fw_modevent,0);
MODULE_VERSION(firewire, 1);
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