Commit Graph

107 Commits

Author SHA1 Message Date
Bill Paul
93a08226da Fix build: remove stale KASSERT() for mutex that no longer exists. 2005-10-11 21:31:23 +00:00
Bill Paul
31333e7fcb Grrr. Add one more missing NDIS_UNLOCK(). 2005-10-10 18:41:36 +00:00
Bill Paul
c4095c0551 Add missing NDIS_UNLOCK() in one of the failure cases in SIOCGPRIVATE_0. 2005-10-10 18:17:46 +00:00
Bill Paul
21628ddbd6 This commit makes a big round of updates and fixes many, many things.
First and most importantly, I threw out the thread priority-twiddling
implementation of KeRaiseIrql()/KeLowerIrq()/KeGetCurrentIrql() in
favor of a new scheme that uses sleep mutexes. The old scheme was
really very naughty and sought to provide the same behavior as
Windows spinlocks (i.e. blocking pre-emption) but in a way that
wouldn't raise the ire of WITNESS. The new scheme represents
'DISPATCH_LEVEL' as the acquisition of a per-cpu sleep mutex. If
a thread on cpu0 acquires the 'dispatcher mutex,' it will block
any other thread on the same processor that tries to acquire it,
in effect only allowing one thread on the processor to be at
'DISPATCH_LEVEL' at any given time. It can then do the 'atomic sit
and spin' routine on the spinlock variable itself. If a thread on
cpu1 wants to acquire the same spinlock, it acquires the 'dispatcher
mutex' for cpu1 and then it too does an atomic sit and spin to try
acquiring the spinlock.

Unlike real spinlocks, this does not disable pre-emption of all
threads on the CPU, but it does put any threads involved with
the NDISulator to sleep, which is just as good for our purposes.

This means I can now play nice with WITNESS, and I can safely do
things like call malloc() when I'm at 'DISPATCH_LEVEL,' which
you're allowed to do in Windows.

Next, I completely re-wrote most of the event/timer/mutex handling
and wait code. KeWaitForSingleObject() and KeWaitForMultipleObjects()
have been re-written to use condition variables instead of msleep().
This allows us to use the Windows convention whereby thread A can
tell thread B "wake up with a boosted priority." (With msleep(), you
instead have thread B saying "when I get woken up, I'll use this
priority here," and thread A can't tell it to do otherwise.) The
new KeWaitForMultipleObjects() has been better tested and better
duplicates the semantics of its Windows counterpart.

I also overhauled the IoQueueWorkItem() API and underlying code.
Like KeInsertQueueDpc(), IoQueueWorkItem() must insure that the
same work item isn't put on the queue twice. ExQueueWorkItem(),
which in my implementation is built on top of IoQueueWorkItem(),
was also modified to perform a similar test.

I renamed the doubly-linked list macros to give them the same names
as their Windows counterparts and fixed RemoveListTail() and
RemoveListHead() so they properly return the removed item.

I also corrected the list handling code in ntoskrnl_dpc_thread()
and ntoskrnl_workitem_thread(). I realized that the original logic
did not correctly handle the case where a DPC callout tries to
queue up another DPC. It works correctly now.

I implemented IoConnectInterrupt() and IoDisconnectInterrupt() and
modified NdisMRegisterInterrupt() and NdisMDisconnectInterrupt() to
use them. I also tried to duplicate the interrupt handling scheme
used in Windows. The interrupt handling is now internal to ndis.ko,
and the ndis_intr() function has been removed from if_ndis.c. (In
the USB case, interrupt handling isn't needed in if_ndis.c anyway.)

NdisMSleep() has been rewritten to use a KeWaitForSingleObject()
and a KeTimer, which is how it works in Windows. (This is mainly
to insure that the NDISulator uses the KeTimer API so I can spot
any problems with it that may arise.)

KeCancelTimer() has been changed so that it only cancels timers, and
does not attempt to cancel a DPC if the timer managed to fire and
queue one up before KeCancelTimer() was called. The Windows DDK
documentation seems to imply that KeCantelTimer() will also call
KeRemoveQueueDpc() if necessary, but it really doesn't.

The KeTimer implementation has been rewritten to use the callout API
directly instead of timeout()/untimeout(). I still cheat a little in
that I have to manage my own small callout timer wheel, but the timer
code works more smoothly now. I discovered a race condition using
timeout()/untimeout() with periodic timers where untimeout() fails
to actually cancel a timer. I don't quite understand where the race
is, using callout_init()/callout_reset()/callout_stop() directly
seems to fix it.

I also discovered and fixed a bug in winx32_wrap.S related to
translating _stdcall calls. There are a couple of routines
(i.e. the 64-bit arithmetic intrinsics in subr_ntoskrnl) that
return 64-bit quantities. On the x86 arch, 64-bit values are
returned in the %eax and %edx registers. However, it happens
that the ctxsw_utow() routine uses %edx as a scratch register,
and x86_stdcall_wrap() and x86_stdcall_call() were only preserving
%eax before branching to ctxsw_utow(). This means %edx was getting
clobbered in some cases. Curiously, the most noticeable effect of this
bug is that the driver for the TI AXC110 chipset would constantly drop
and reacquire its link for no apparent reason. Both %eax and %edx
are preserved on the stack now. The _fastcall and _regparm
wrappers already handled everything correctly.

I changed if_ndis to use IoAllocateWorkItem() and IoQueueWorkItem()
instead of the NdisScheduleWorkItem() API. This is to avoid possible
deadlocks with any drivers that use NdisScheduleWorkItem() themselves.

The unicode/ansi conversion handling code has been cleaned up. The
internal routines have been moved to subr_ntoskrnl and the
RtlXXX routines have been exported so that subr_ndis can call them.
This removes the incestuous relationship between the two modules
regarding this code and fixes the implementation so that it honors
the 'maxlen' fields correctly. (Previously it was possible for
NdisUnicodeStringToAnsiString() to possibly clobber memory it didn't
own, which was causing many mysterious crashes in the Marvell 8335
driver.)

The registry handling code (NdisOpen/Close/ReadConfiguration()) has
been fixed to allocate memory for all the parameters it hands out to
callers and delete whem when NdisCloseConfiguration() is called.
(Previously, it would secretly use a single static buffer.)

I also substantially updated if_ndis so that the source can now be
built on FreeBSD 7, 6 and 5 without any changes. On FreeBSD 5, only
WEP support is enabled. On FreeBSD 6 and 7, WPA-PSK support is enabled.

The original WPA code has been updated to fit in more cleanly with
the net80211 API, and to eleminate the use of magic numbers. The
ndis_80211_setstate() routine now sets a default authmode of OPEN
and initializes the RTS threshold and fragmentation threshold.
The WPA routines were changed so that the authentication mode is
always set first, followed by the cipher. Some drivers depend on
the operations being performed in this order.

I also added passthrough ioctls that allow application code to
directly call the MiniportSetInformation()/MiniportQueryInformation()
methods via ndis_set_info() and ndis_get_info(). The ndis_linksts()
routine also caches the last 4 events signalled by the driver via
NdisMIndicateStatus(), and they can be queried by an application via
a separate ioctl. This is done to allow wpa_supplicant to directly
program the various crypto and key management options in the driver,
allowing things like WPA2 support to work.

Whew.
2005-10-10 16:46:39 +00:00
Max Laier
b6de9e91bd Remove bridge(4) from the tree. if_bridge(4) is a full functional
replacement and has additional features which make it superior.

Discussed on:	-arch
Reviewed by:	thompsa
X-MFC-after:	never (RELENG_6 as transition period)
2005-09-27 18:10:43 +00:00
Warner Losh
ad4f426ef6 Make sure that we call if_free(ifp) after bus_teardown_intr. Since we
could get an interrupt after we free the ifp, and the interrupt
handler depended on the ifp being still alive, this could, in theory,
cause a crash.  Eliminate this possibility by moving the if_free to
after the bus_teardown_intr() call.
2005-09-19 03:10:21 +00:00
Robert Watson
13f4c340ae Propagate rename of IFF_OACTIVE and IFF_RUNNING to IFF_DRV_OACTIVE and
IFF_DRV_RUNNING, as well as the move from ifnet.if_flags to
ifnet.if_drv_flags.  Device drivers are now responsible for
synchronizing access to these flags, as they are in if_drv_flags.  This
helps prevent races between the network stack and device driver in
maintaining the interface flags field.

Many __FreeBSD__ and __FreeBSD_version checks maintained and continued;
some less so.

Reviewed by:	pjd, bz
MFC after:	7 days
2005-08-09 10:20:02 +00:00
Robert Watson
13b203d0d7 Modify device drivers supporting multicast addresses to lock if_addr_mtx
over iteration of their multicast address lists when synchronizing the
hardware address filter with the network stack-maintained list.

Problem reported by:	Ed Maste (emaste at phaedrus dot sandvine dot ca>
MFC after:		1 week
2005-08-03 00:18:35 +00:00
Brooks Davis
bc3552517b Move if_alloc() higher in the attach function so sc->ifp is populated
early.  I've moved it all the way to the top rather than part way up as
the submitter did.

Submitted by:	Jung-uk Kim <jkim at niksun dot com>
Reported by:	submitter, le, dougb
Approved by:	re (ifnet blanket)
2005-06-14 17:47:31 +00:00
Brooks Davis
fc74a9f93a Stop embedding struct ifnet at the top of driver softcs. Instead the
struct ifnet or the layer 2 common structure it was embedded in have
been replaced with a struct ifnet pointer to be filled by a call to the
new function, if_alloc(). The layer 2 common structure is also allocated
via if_alloc() based on the interface type. It is hung off the new
struct ifnet member, if_l2com.

This change removes the size of these structures from the kernel ABI and
will allow us to better manage them as interfaces come and go.

Other changes of note:
 - Struct arpcom is no longer referenced in normal interface code.
   Instead the Ethernet address is accessed via the IFP2ENADDR() macro.
   To enforce this ac_enaddr has been renamed to _ac_enaddr.
 - The second argument to ether_ifattach is now always the mac address
   from driver private storage rather than sometimes being ac_enaddr.

Reviewed by:	sobomax, sam
2005-06-10 16:49:24 +00:00
Yoshihiro Takahashi
d4fcf3cba5 Remove bus_{mem,p}io.h and related code for a micro-optimization on i386
and amd64.  The optimization is a trivial on recent machines.

Reviewed by:	-arch (imp, marcel, dfr)
2005-05-29 04:42:30 +00:00
Bill Paul
450a94af7a Deal with a few bootstrap issues:
We can't call KeFlushQueuedDpcs() during bootstrap (cold == 1), since
the flush operation sleeps to wait for completion, and we can't sleep
here (clowns will eat us).

On an i386 SMP system, if we're loaded/probed/attached during bootstrap,
smp_rendezvous() won't run us anywhere except CPU 0 (since the other CPUs
aren't launched until later), which means we won't be able to set up
the GDTs anywhere except CPU 0. To deal with this case, ctxsw_utow()
now checks to see if the TID for the current processor has been properly
initialized and sets up the GTD for the current CPU if not.

Lastly, in if_ndis.c:ndis_shutdown(), do an ndis_stop() to insure we
really halt the NIC and stop interrupts from happening.

Note that loading a driver during bootstrap is, unfortunately, kind of
a hit or miss sort of proposition. In Windows, the expectation is that
by the time a given driver's MiniportInitialize() method is called,
the system is already in 'multiuser' state, i.e. it's up and running
enough to support all the stuff specified in the NDIS API, which includes
the underlying OS-supplied facilities it implicitly depends on, such as
having all CPUs running, having the DPC queues initialized, WorkItem
threads running, etc. But in UNIX, a lot of that stuff won't work during
bootstrap. This causes a problem since we need to call MiniportInitialize()
at least once during ndis_attach() in order to find out what kind of NIC
we have and learn its station address.

What this means is that some cards just plain won't work right if
you try to pre-load the driver along with the kernel: they'll only be
probed/attach correctly if the driver is kldloaded _after_ the system
has reached multiuser. I can't really think of a way around this that
would still preserve the ability to use an NDIS device for diskless
booting.
2005-05-20 04:00:50 +00:00
Bill Paul
cebddbda3b In ndis_halt_nic(), invalidate the miniportadapterctx early to try and
prevent anything from making calls to the NIC while it's being shut down.
This is yet another attempt to stop things like mdnsd from trying to
poke at the card while it's not properly initialized and panicking
the system.

Also, remove unneeded debug message from if_ndis.c.
2005-05-20 02:35:43 +00:00
Bill Paul
02fa4220cd Correct type for workitem routines. 2005-05-16 16:50:52 +00:00
Bill Paul
433d61bb56 Add support for NdisMEthIndicateReceive() and MiniportTransferData().
The Ralink RT2500 driver uses this API instead of NdisMIndicateReceivePacket().

Drivers use NdisMEthIndicateReceive() when they know they support
802.3 media and expect to hand their packets only protocols that want
to deal with that particular media type. With this API, the driver does
not manage its own NDIS_PACKET/NDIS_BUFFER structures. Instead, it
lets bound protocols have a peek at the data, and then they supply
an NDIS_PACKET/NDIS_BUFFER combo to the miniport driver, into which
it copies the packet data.

Drivers use NdisMIndicateReceivePacket() to allow their packets to
be read by any protocol, not just those bound to 802.3 media devices.

To make this work, we need an internal pool of NDIS_PACKETS for
receives. Currently, we check to see if the driver exports a
MiniportTransferData() method in its characteristics structure,
and only allocate the pool for drivers that have this method.

This should allow the RT2500 driver to work correctly, though I
still have to fix ndiscvt(8) to parse its .inf file properly.

Also, change kern_ndis.c:ndis_halt_nic() to reap timers before
acquiring NDIS_LOCK(), since the reaping process might entail sleeping
briefly (and we can't sleep with a lock held).
2005-05-15 04:27:59 +00:00
Bill Paul
971aba5809 Avoid trying to queue up an interrupt handler DPC if the driver
hasn't called NdisMRegisterInterrupt() yet.
2005-05-08 09:36:16 +00:00
Bill Paul
eb31d50cc7 Avoid sleeping with mutex held in kern_ndis.c.
Remove unused fields from ndis_miniport_block.

Fix a bug in KeFlushQueuedDpcs() (we weren't calculating the kq pointer
correctly).

In if_ndis.c, clear the IFF_RUNNING flag before calling ndis_halt_nic().

Add some guards in kern_ndis.c to avoid letting anyone invoke ndis_get_info()
or ndis_set_info() if the NIC isn't fully initialized. Apparently, mdnsd
will sometimes try to invoke the ndis_ioctl() routine at exactly the
wrong moment (to futz with its multicast filters) when the interface
comes up, and can trigger a crash unless we guard against it.
2005-05-05 06:14:59 +00:00
Bill Paul
9b307fe2be This commit makes a bunch of changes, some big, some not so big.
- Remove the old task threads from kern_ndis.c and reimplement them in
  subr_ntoskrnl.c, in order to more properly emulate the Windows DPC
  API. Each CPU gets its own DPC queue/thread, and each queue can
  have low, medium and high importance DPCs. New APIs implemented:
  KeSetTargetProcessorDpc(), KeSetImportanceDpc() and KeFlushQueuedDpcs().
  (This is the biggest change.)

- Fix a bug in NdisMInitializeTimer(): the k_dpc pointer in the
  nmt_timer embedded in the ndis_miniport_timer struct must be set
  to point to the DPC, also embedded in the struct. Failing to do
  this breaks dequeueing of DPCs submitted via timers, and in turn
  breaks cancelling timers.

- Fix a bug in KeCancelTimer(): if the timer is interted in the timer
  queue (i.e. the timeout callback is still pending), we have to both
  untimeout() the timer _and_ call KeRemoveQueueDpc() to nuke the DPC
  that might be pending. Failing to do this breaks cancellation of
  periodic timers, which always appear to be inserted in the timer queue.

- Make use of the nmt_nexttimer field in ndis_miniport_timer: keep a
  queue of pending timers and cancel them all in ndis_halt_nic(), prior
  to calling MiniportHalt(). Also call KeFlushQueuedDpcs() to make sure
  any DPCs queued by the timers have expired.

- Modify NdisMAllocateSharedMemory() and NdisMFreeSharedMemory() to keep
  track of both the virtual and physical addresses of the shared memory
  buffers that get handed out. The AirGo MIMO driver appears to have a bug
  in it: for one of the segments is allocates, it returns the wrong
  virtual address. This would confuse NdisMFreeSharedMemory() and cause
  a crash. Why it doesn't crash Windows too I have no idea (from reading
  the documentation for NdisMFreeSharedMemory(), it appears to be a violation
  of the API).

- Implement strstr(), strchr() and MmIsAddressValid().

- Implement IoAllocateWorkItem(), IoFreeWorkItem(), IoQueueWorkItem() and
  ExQueueWorkItem(). (This is the second biggest change.)

- Make NdisScheduleWorkItem() call ExQueueWorkItem(). (Note that the
  ExQueueWorkItem() API is deprecated by Microsoft, but NDIS still uses
  it, since NdisScheduleWorkItem() is incompatible with the IoXXXWorkItem()
  API.)

- Change if_ndis.c to use the NdisScheduleWorkItem() interface for scheduling
  tasks.

With all these changes and fixes, the AirGo MIMO driver for the Belkin
F5D8010 Pre-N card now works. Special thanks to Paul Robinson
(paul dawt robinson at pwermedia dawt net) for the loan of a card
for testing.
2005-05-05 03:56:09 +00:00
Bill Paul
96b50ea387 Throw the switch on the new driver generation/loading mechanism. From
here on in, if_ndis.ko will be pre-built as a module, and can be built
into a static kernel (though it's not part of GENERIC). Drivers are
created using the new ndisgen(8) script, which uses ndiscvt(8) under
the covers, along with a few other tools. The result is a driver module
that can be kldloaded into the kernel.

A driver with foo.inf and foo.sys files will be converted into
foo_sys.ko (and foo_sys.o, for those who want/need to make static
kernels). This module contains all of the necessary info from the
.INF file and the driver binary image, converted into an ELF module.
You can kldload this module (or add it to /boot/loader.conf) to have
it loaded automatically. Any required firmware files can be bundled
into the module as well (or converted/loaded separately).

Also, add a workaround for a problem in NdisMSleep(). During system
bootstrap (cold == 1), msleep() always returns 0 without actually
sleeping. The Intel 2200BG driver uses NdisMSleep() to wait for
the NIC's firmware to come to life, and fails to load if NdisMSleep()
doesn't actually delay. As a workaround, if msleep() (and hence
ndis_thsuspend()) returns 0, use a hard DELAY() to sleep instead).
This is not really the right thing to do, but we can't really do much
else. At the very least, this makes the Intel driver happy.

There are probably other drivers that fail in this way during bootstrap.
Unfortunately, the only workaround for those is to avoid pre-loading
them and kldload them once the system is running instead.
2005-04-24 20:21:22 +00:00
Bill Paul
d365e2f833 Small cleanup of the WPA code additions. The SIOCG80211 and SIOCS80211
ioctls are now handled explicitly, but we can't really do anything
with them unless the NIC is up (trying to get/set a parameter when
the NDIS driver isn't running always yields an error). If something
invokes either of these ioctls and the NIC isn't initialized, punt
to the default ieee80211_ioctl() routine.
2005-04-20 02:17:53 +00:00
Bill Paul
c2ea1490f8 Add preliminary support for WPA-PSK using wpa_supplicant and the
net80211 code, graciously contributed by Arvind Srinivasan.

Submitted by:	Arvind Srinivasan arvind at celar daht us
2005-04-19 15:30:44 +00:00
Bill Paul
d02239a3af Create new i386 windows/bsd thunking layer, similar to the amd64 thunking
layer, but with a twist.

The twist has to do with the fact that Microsoft supports structured
exception handling in kernel mode. On the i386 arch, exception handling
is implemented by hanging an exception registration list off the
Thread Environment Block (TEB), and the TEB is accessed via the %fs
register. The problem is, we use %fs as a pointer to the pcpu stucture,
which means any driver that tries to write through %fs:0 will overwrite
the curthread pointer and make a serious mess of things.

To get around this, Project Evil now creates a special entry in
the GDT on each processor. When we call into Windows code, a context
switch routine will fix up %fs so it points to our new descriptor,
which in turn points to a fake TEB. When the Windows code returns,
or calls out to an external routine, we swap %fs back again. Currently,
Project Evil makes use of GDT slot 7, which is all 0s by default.
I fully expect someone to jump up and say I can't do that, but I
couldn't find any code that makes use of this entry anywhere. Sadly,
this was the only method I could come up with that worked on both
UP and SMP. (Modifying the LDT works on UP, but becomes incredibly
complicated on SMP.) If necessary, the context switching stuff can
be yanked out while preserving the convention calling wrappers.

(Fortunately, it looks like Microsoft uses some special epilog/prolog
code on amd64 to implement exception handling, so the same nastiness
won't be necessary on that arch.)

The advantages are:

- Any driver that uses %fs as though it were a TEB pointer won't
  clobber pcpu.
- All the __stdcall/__fastcall/__regparm stuff that's specific to
  gcc goes away.

Also, while I'm here, switch NdisGetSystemUpTime() back to using
nanouptime() again. It turns out nanouptime() is way more accurate
than just using ticks(). On slower machines, the Atheros drivers
I tested seem to take a long time to associate due to the loss
in accuracy.
2005-04-11 02:02:35 +00:00
Bill Paul
00df63a690 Remove the last vestiges of the "wait for link down event" hack. 2005-03-28 21:48:15 +00:00
Bill Paul
7c1968ad82 Finally bring an end to the great "make the Atheros NDIS driver
work on SMP" saga. After several weeks and much gnashing of teeth,
I have finally tracked down all the problems, despite their best
efforts to confound and annoy me.

Problem nunmber one: the Atheros windows driver is _NOT_ a de-serialized
miniport! It used to be that NDIS drivers relied on the NDIS library
itself for all their locking and serialization needs. Transmit packet
queues were all handled internally by NDIS, and all calls to
MiniportXXX() routines were guaranteed to be appropriately serialized.
This proved to be a performance problem however, and Microsoft
introduced de-serialized miniports with the NDIS 5.x spec. Microsoft
still supports serialized miniports, but recommends that all new drivers
written for Windows XP and later be deserialized. Apparently Atheros
wasn't listening when they said this.

This means (among other things) that we have to serialize calls to
MiniportSendPackets(). We also have to serialize calls to MiniportTimer()
that are triggered via the NdisMInitializeTimer() routine. It finally
dawned on me why NdisMInitializeTimer() takes a special
NDIS_MINIPORT_TIMER structure and a pointer to the miniport block:
the timer callback must be serialized, and it's only by saving the
miniport block handle that we can get access to the serialization
lock during the timer callback.

Problem number two: haunted hardware. The thing that was _really_
driving me absolutely bonkers for the longest time is that, for some
reason I couldn't understand, my test machine would occasionally freeze
or more frustratingly, reset completely. That's reset and in *pow!*
back to the BIOS startup. No panic, no crashdump, just a reset. This
appeared to happen most often when MiniportReset() was called. (As
to why MiniportReset() was being called, see problem three below.)
I thought maybe I had created some sort of horrible deadlock
condition in the process of adding the serialization, but after three
weeks, at least 6 different locking implementations and heroic efforts
to debug the spinlock code, the machine still kept resetting. Finally,
I started single stepping through the MiniportReset() routine in
the driver using the kernel debugger, and this ultimately led me to
the source of the problem.

One of the last things the Atheros MiniportReset() routine does is
call NdisReadPciSlotInformation() several times to inspect a portion
of the device's PCI config space. It reads the same chunk of config
space repeatedly, in rapid succession. Presumeably, it's polling
the hardware for some sort of event. The reset occurs partway through
this process. I discovered that when I single-stepped through this
portion of the routine, the reset didn't occur. So I inserted a 1
microsecond delay into the read loop in NdisReadPciSlotInformation().
Suddenly, the reset was gone!!

I'm still very puzzled by the whole thing. What I suspect is happening
is that reading the PCI config space so quickly is causing a severe
PCI bus error. My test system is a Sun w2100z dual Opteron system,
and the NIC is a miniPCI card mounted in a miniPCI-to-PCI carrier card,
plugged into a 100Mhz PCI slot. It's possible that this combination of
hardware causes a bus protocol violation in this scenario which leads
to a fatal machine check. This is pure speculation though. Really all I
know for sure is that inserting the delay makes the problem go away.
(To quote Homer Simpson: "I don't know how it works, but fire makes
it good!")

Problem number three: NdisAllocatePacket() needs to make sure to
initialize the npp_validcounts field in the 'private' section of
the NDIS_PACKET structure. The reason if_ndis was calling the
MiniportReset() routine in the first place is that packet transmits
were sometimes hanging. When sending a packet, an NDIS driver will
call NdisQueryPacket() to learn how many physical buffers the packet
resides in. NdisQueryPacket() is actually a macro, which traverses
the NDIS_BUFFER list attached to the NDIS_PACKET and stashes some
of the results in the 'private' section of the NDIS_PACKET. It also
sets the npp_validcounts field to TRUE To indicate that the results are
now valid. The problem is, now that if_ndis creates a pool of transmit
packets via NdisAllocatePacketPool(), it's important that each time
a new packet is allocated via NdisAllocatePacket() that validcounts
be initialized to FALSE. If it isn't, and a previously transmitted
NDIS_PACKET is pulled out of the pool, it may contain stale data
from a previous transmission which won't get updated by NdisQueryPacket().
This would cause the driver to miscompute the number of fragments
for a given packet, and botch the transmission.

Fixing these three problems seems to make the Atheros driver happy
on SMP, which hopefully means other serialized miniports will be
happy too.

And there was much rejoicing.

Other stuff fixed along the way:

- Modified ndis_thsuspend() to take a mutex as an argument. This
  allows KeWaitForSingleObject() and KeWaitForMultipleObjects() to
  avoid any possible race conditions with other routines that
  use the dispatcher lock.

- Fixed KeCancelTimer() so that it returns the correct value for
  'pending' according to the Microsoft documentation

- Modfied NdisGetSystemUpTime() to use ticks and hz rather than
  calling nanouptime(). Also added comment that this routine wraps
  after 49.7 days.

- Added macros for KeAcquireSpinLock()/KeReleaseSpinLock() to hide
  all the MSCALL() goop.

- For x86, KeAcquireSpinLockRaiseToDpc() needs to be a separate
  function. This is because it's supposed to be _stdcall on the x86
  arch, whereas KeAcquireSpinLock() is supposed to be _fastcall.
  On amd64, all routines use the same calling convention so we can
  just map KeAcquireSpinLockRaiseToDpc() directly to KfAcquireSpinLock()
  and it will work. (The _fastcall attribute is a no-op on amd64.)

- Implement and use IoInitializeDpcRequest() and IoRequestDpc() (they're
  just macros) and use them for interrupt handling. This allows us to
  move the ndis_intrtask() routine from if_ndis.c to kern_ndis.c.

- Fix the MmInitializeMdl() macro so that is uses sizeof(vm_offset_t)
  when computing mdl_size instead of uint32_t, so that it matches the
  MmSizeOfMdl() routine.

- Change a could of M_WAITOKs to M_NOWAITs in the unicode routines in
  subr_ndis.c.

- Use the dispatcher lock a little more consistently in subr_ntoskrnl.c.

- Get rid of the "wait for link event" hack in ndis_init(). Now that
  I fixed NdisReadPciSlotInformation(), it seems I don't need it anymore.
  This should fix the witness panic a couple of people have reported.

- Use MSCALL1() when calling the MiniportHangCheck() function in
  ndis_ticktask(). I accidentally missed this one when adding the
  wrapping for amd64.
2005-03-27 10:14:36 +00:00
Bill Paul
58a6edd121 When you call MiniportInitialize() for an 802.11 driver, it will
at some point result in a status event being triggered (it should
be a link down event: the Microsoft driver design guide says you
should generate one when the NIC is initialized). Some drivers
generate the event during MiniportInitialize(), such that by the
time MiniportInitialize() completes, the NIC is ready to go. But
some drivers, in particular the ones for Atheros wireless NICs,
don't generate the event until after a device interrupt occurs
at some point after MiniportInitialize() has completed.

The gotcha is that you have to wait until the link status event
occurs one way or the other before you try to fiddle with any
settings (ssid, channel, etc...). For the drivers that set the
event sycnhronously this isn't a problem, but for the others
we have to pause after calling ndis_init_nic() and wait for the event
to arrive before continuing. Failing to wait can cause big trouble:
on my SMP system, calling ndis_setstate_80211() after ndis_init_nic()
completes, but _before_ the link event arrives, will lock up or
reset the system.

What we do now is check to see if a link event arrived while
ndis_init_nic() was running, and if it didn't we msleep() until
it does.

Along the way, I discovered a few other problems:

- Defered procedure calls run at PASSIVE_LEVEL, not DISPATCH_LEVEL.
  ntoskrnl_run_dpc() has been fixed accordingly. (I read the documentation
  wrong.)

- Similarly, the NDIS interrupt handler, which is essentially a
  DPC, also doesn't need to run at DISPATCH_LEVEL. ndis_intrtask()
  has been fixed accordingly.

- MiniportQueryInformation() and MiniportSetInformation() run at
  DISPATCH_LEVEL, and each request must complete before another
  can be submitted. ndis_get_info() and ndis_set_info() have been
  fixed accordingly.

- Turned the sleep lock that guards the NDIS thread job list into
  a spin lock. We never do anything with this lock held except manage
  the job list (no other locks are held), so it's safe to do this,
  and it's possible that ndis_sched() and ndis_unsched() can be
  called from DISPATCH_LEVEL, so using a sleep lock here is
  semantically incorrect. Also updated subr_witness.c to add the
  lock to the order list.
2005-03-07 03:05:31 +00:00
Bill Paul
55fc1315ca Use 0 instead if NULL for vm_offset_t argument to windrv_lookup() to
silence compiler warnings.
2005-02-28 16:47:54 +00:00
Bill Paul
d80e940c3c Apparently, the probe routine in if_ndis_usb.c can be called twice
for a given device in some circumstances, so move the PDO creation
to the attach routine so we don't end up creating two PDOs.

Also, when we skip the call to ndis_convert_res() in if_ndis.c:ndis_attach(),
initialize sc->ndis_block->nmb_rlist to NULL. We don't explicitly zero
the miniport block, so this will make sure ndis_unload_driver() does
the right thing.
2005-02-24 22:54:15 +00:00
Bill Paul
63ba67b69c - Correct one aspect of the driver_object/device_object/IRP framework:
when we create a PDO, the driver_object associated with it is that
  of the parent driver, not the driver we're trying to attach. For
  example, if we attach a PCI device, the PDO we pass to the NdisAddDevice()
  function should contain a pointer to fake_pci_driver, not to the NDIS
  driver itself. For PCI or PCMCIA devices this doesn't matter because
  the child never needs to talk to the parent bus driver, but for USB,
  the child needs to be able to send IRPs to the parent USB bus driver, and
  for that to work the parent USB bus driver has to be hung off the PDO.

  This involves modifying windrv_lookup() so that we can search for
  bus drivers by name, if necessary. Our fake bus drivers attach themselves
  as "PCI Bus," "PCCARD Bus" and "USB Bus," so we can search for them
  using those names.

  The individual attachment stubs now create and attach PDOs to the
  parent bus drivers instead of hanging them off the NDIS driver's
  object, and in if_ndis.c, we now search for the correct driver
  object depending on the bus type, and use that to find the correct PDO.

  With this fix, I can get my sample USB ethernet driver to deliver
  an IRP to my fake parent USB bus driver's dispatch routines.

- Add stub modules for USB support: subr_usbd.c, usbd_var.h and
  if_ndis_usb.c. The subr_usbd.c module is hooked up the build
  but currently doesn't do very much. It provides the stub USB
  parent driver object and a dispatch routine for
  IRM_MJ_INTERNAL_DEVICE_CONTROL. The only exported function at
  the moment is USBD_GetUSBDIVersion(). The if_ndis_usb.c stub
  compiles, but is not hooked up to the build yet. I'm putting
  these here so I can keep them under source code control as I
  flesh them out.
2005-02-24 21:49:14 +00:00
Bill Paul
d8f2dda739 Add support for Windows/x86-64 binaries to Project Evil.
Ville-Pertti Keinonen (will at exomi dot comohmygodnospampleasekthx)
deserves a big thanks for submitting initial patches to make it
work. I have mangled his contributions appropriately.

The main gotcha with Windows/x86-64 is that Microsoft uses a different
calling convention than everyone else. The standard ABI requires using
6 registers for argument passing, with other arguments on the stack.
Microsoft uses only 4 registers, and requires the caller to leave room
on the stack for the register arguments incase the callee needs to
spill them. Unlike x86, where Microsoft uses a mix of _cdecl, _stdcall
and _fastcall, all routines on Windows/x86-64 uses the same convention.
This unfortunately means that all the functions we export to the
driver require an intermediate translation wrapper. Similarly, we have
to wrap all calls back into the driver binary itself.

The original patches provided macros to wrap every single routine at
compile time, providing a secondary jump table with a customized
wrapper for each exported routine. I decided to use a different approach:
the call wrapper for each function is created from a template at
runtime, and the routine to jump to is patched into the wrapper as
it is created. The subr_pe module has been modified to patch in the
wrapped function instead of the original. (On x86, the wrapping
routine is a no-op.)

There are some minor API differences that had to be accounted for:

- KeAcquireSpinLock() is a real function on amd64, not a macro wrapper
  around KfAcquireSpinLock()
- NdisFreeBuffer() is actually IoFreeMdl(). I had to change the whole
  NDIS_BUFFER API a bit to accomodate this.

Bugs fixed along the way:
- IoAllocateMdl() always returned NULL
- kern_windrv.c:windrv_unload() wasn't releasing private driver object
  extensions correctly (found thanks to memguard)

This has only been tested with the driver for the Broadcom 802.11g
chipset, which was the only Windows/x86-64 driver I could find.
2005-02-16 05:41:18 +00:00
Bill Paul
88d8970dea Merge in patch to support AP scanning via ifconfig and the new
net80211 API.

Submitted by: Stephane E. Potvin sepotvin at videotron dot ca
2005-02-11 02:13:12 +00:00
Bill Paul
b545a3b822 Next step on the road to IRPs: create and use an imitation of the
Windows DRIVER_OBJECT and DEVICE_OBJECT mechanism so that we can
simulate driver stacking.

In Windows, each loaded driver image is attached to a DRIVER_OBJECT
structure. Windows uses the registry to match up a given vendor/device
ID combination with a corresponding DRIVER_OBJECT. When a driver image
is first loaded, its DriverEntry() routine is invoked, which sets up
the AddDevice() function pointer in the DRIVER_OBJECT and creates
a dispatch table (based on IRP major codes). When a Windows bus driver
detects a new device, it creates a Physical Device Object (PDO) for
it. This is a DEVICE_OBJECT structure, with semantics analagous to
that of a device_t in FreeBSD. The Windows PNP manager will invoke
the driver's AddDevice() function and pass it pointers to the DRIVER_OBJECT
and the PDO.

The AddDevice() function then creates a new DRIVER_OBJECT structure of
its own. This is known as the Functional Device Object (FDO) and
corresponds roughly to a private softc instance. The driver uses
IoAttachDeviceToDeviceStack() to add this device object to the
driver stack for this PDO. Subsequent drivers (called filter drivers
in Windows-speak) can be loaded which add themselves to the stack.
When someone issues an IRP to a device, it travel along the stack
passing through several possible filter drivers until it reaches
the functional driver (which actually knows how to talk to the hardware)
at which point it will be completed. This is how Windows achieves
driver layering.

Project Evil now simulates most of this. if_ndis now has a modevent
handler which will use MOD_LOAD and MOD_UNLOAD events to drive the
creation and destruction of DRIVER_OBJECTs. (The load event also
does the relocation/dynalinking of the image.) We don't have a registry,
so the DRIVER_OBJECTS are stored in a linked list for now. Eventually,
the list entry will contain the vendor/device ID list extracted from
the .INF file. When ndis_probe() is called and detectes a supported
device, it will create a PDO for the device instance and attach it
to the DRIVER_OBJECT just as in Windows. ndis_attach() will then call
our NdisAddDevice() handler to create the FDO. The NDIS miniport block
is now a device extension hung off the FDO, just as it is in Windows.
The miniport characteristics table is now an extension hung off the
DRIVER_OBJECT as well (the characteristics are the same for all devices
handled by a given driver, so they don't need to be per-instance.)
We also do an IoAttachDeviceToDeviceStack() to put the FDO on the
stack for the PDO. There are a couple of fake bus drivers created
for the PCI and pccard buses. Eventually, there will be one for USB,
which will actually accept USB IRP.s

Things should still work just as before, only now we do things in
the proper order and maintain the correct framework to support passing
IRPs between drivers.

Various changes:

- corrected the comments about IRQL handling in subr_hal.c to more
  accurately reflect reality
- update ndiscvt to make the drv_data symbol in ndis_driver_data.h a
  global so that if_ndis_pci.o and/or if_ndis_pccard.o can see it.
- Obtain the softc pointer from the miniport block by referencing
  the PDO rather than a private pointer of our own (nmb_ifp is no
  longer used)
- implement IoAttachDeviceToDeviceStack(), IoDetachDevice(),
  IoGetAttachedDevice(), IoAllocateDriverObjectExtension(),
  IoGetDriverObjectExtension(), IoCreateDevice(), IoDeleteDevice(),
  IoAllocateIrp(), IoReuseIrp(), IoMakeAssociatedIrp(), IoFreeIrp(),
  IoInitializeIrp()
- fix a few mistakes in the driver_object and device_object definitions
- add a new module, kern_windrv.c, to handle the driver registration
  and relocation/dynalinkign duties (which don't really belong in
  kern_ndis.c).
- made ndis_block and ndis_chars in the ndis_softc stucture pointers
  and modified all references to it
- fixed NdisMRegisterMiniport() and NdisInitializeWrapper() so they
  work correctly with the new driver_object mechanism
- changed ndis_attach() to call NdisAddDevice() instead of ndis_load_driver()
  (which is now deprecated)
- used ExAllocatePoolWithTag()/ExFreePool() in lookaside list routines
  instead of kludged up alloc/free routines
- added kern_windrv.c to sys/modules/ndis/Makefile and files.i386.
2005-02-08 17:23:25 +00:00
Bill Paul
df7b7cf4c3 Begin the first phase of trying to add IRP support (and ultimately
USB device support):

- Convert all of my locally chosen function names to their actual
  Windows equivalents, where applicable. This is a big no-op change
  since it doesn't affect functionality, but it helps avoid a bit
  of confusion (it's now a lot easier to see which functions are
  emulated Windows API routines and which are just locally defined).

- Turn ndis_buffer into an mdl, like it should have been. The structure
  is the same, but now it belongs to the subr_ntoskrnl module.

- Implement a bunch of MDL handling macros from Windows and use them where
  applicable.

- Correct the implementation of IoFreeMdl().

- Properly implement IoAllocateMdl() and MmBuildMdlForNonPagedPool().

- Add the definitions for struct irp and struct driver_object.

- Add IMPORT_FUNC() and IMPORT_FUNC_MAP() macros to make formatting
  the module function tables a little cleaner. (Should also help
  with AMD64 support later on.)

- Fix if_ndis.c to use KeRaiseIrql() and KeLowerIrql() instead of
  the previous calls to hal_raise_irql() and hal_lower_irql() which
  have been renamed.

The function renaming generated a lot of churn here, but there should
be very little operational effect.
2005-01-24 18:18:12 +00:00
Warner Losh
098ca2bda9 Start each of the license/copyright comments with /*-, minor shuffle of lines 2005-01-06 01:43:34 +00:00
Sam Leffler
a2eafa5bcd record the bssid for an association
Tested by:	Daniel O'Connor
2004-12-12 07:45:42 +00:00
Sam Leffler
2bd0e96db9 Fix compilation and correct mapping from struct ifnet to
struct ieee80211com after net80211 import.

Submitted by:	Tor Egge
2004-12-10 00:59:27 +00:00
Sam Leffler
db1d51f3c7 Update for net80211 changes. 2004-12-08 17:36:51 +00:00
Lukas Ertl
60110adc64 Drop the NDIS lock before returning from ndis_start().
PR:             i386/72795
Submitted by:   Frank Mayhar <frank@exit.com>
MFC in:         3 days
2004-10-18 21:33:56 +00:00
Max Laier
22d0ab2ef8 Fix sis, bfe and ndis in the same way dc was fixed:
Do not tell the hardware to send when there were no packets enqueued.

Found and reviewed by:	green
MFC after:		1 days
2004-10-08 16:14:42 +00:00
Bill Paul
64823e73c5 Minor cleanups:
- Fix typo in comment
- Remember to free() sc->ndis_txarray on detach
- Remember to do an ifmedia_removeall() for ethernet devices
2004-08-03 17:00:39 +00:00
Max Laier
154b8df2ed Second part of ALTQ driver modifications, covering:
an(4), ath(4), hme(4), ndis(4), vr(4) and wi(4)

Please help testing: http://people.freebsd.org/~mlaier/ALTQ_driver/

Tested by:	Vaidas Damosevicius (an, ath, wi)
		Roman Divacky (vr)
Submitted by:	yongari (hme)
2004-08-01 23:58:04 +00:00
Bill Paul
8ea534a9c0 The watchdog callout executes with the (non-sleepable) ifnet lock held
now, but it's possible for ndis_reset_nic() to sleep (sometimes the
MiniportReset() method returns NDIS_STATUS_PENDING and we have
to wait for completion). To get around this, execute the ndis_reset_nic()
routine in the NDIS_TASKQUEUE thread.
2004-08-01 22:25:12 +00:00
Bill Paul
dde913e3ca Add some minor changes related to PCMCIA attribute memory mapping
(which I apparently forgot to commit earlier).

Acquire NDIS_LOCK() in ndis_linksts_done().
2004-08-01 06:42:44 +00:00
Bill Paul
06794990cb Fix two problems:
- In subr_ndis.c:ndis_allocate_sharemem(), create the busdma tags
  used for shared memory allocations with a lowaddr of 0x3E7FFFFF.
  This forces the buffers to be mapped to physical/bus addresses within
  the first 1GB of physical memory. It seems that at least one card
  (Linksys Instant Wireless PCI V2.7) depends on this behavior. I
  don't know if this is a hardware restriction, or if the NDIS
  driver for this card is truncating the addresses itself, but using
  physical/bus addresses beyong the 1GB limit causes initialization
  failures.

- Create am NDIS_INITIALIZED() macro in if_ndisvar.h and use it in
  if_ndis.c to test whether the device has been initialized rather
  than checking for the presence of the IFF_UP flag in if_flags.
  While debugging the previous problem, I noticed that bringing
  up the device would always produce failures from ndis_setmulti().
  It turns out that the following steps now occur during device
  initialization:

	- IFF_UP flag is set in if_flags
	- ifp->if_ioctl() called with SIOCSIFADDR (which we don't handle)
	- ifp->if_ioctl() called with SIOCADDMULTI
	- ifp->if_ioctl() called with SIOCADDMULTI (again)
	- ifp->if_ioctl() called with SIOCADDMULTI (yet again)
	- ifp->if_ioctl() called with SIOCSIFFLAGS

  Setting the receive filter and multicast filters can only be done
  when the underlying NDIS driver has been initialized, which is done
  by ifp->if_init(). However, we don't call ifp->if_init() until
  ifp->if_ioctl() is called with SIOCSIFFLAGS and IFF_UP has been
  set. It appears that now, the network stack tries to add multicast
  addresses to interface's filter before those steps occur. Normally,
  ndis_setmulti() would trap this condition by checking for the IFF_UP
  flag, but the network code has in fact set this flag already, so
  ndis_setmulti() is fooled into thinking the interface has been
  initialized when it really hasn't.

  It turns out this is usually harmless because the ifp->if_init()
  routine (in this case ndis_init()) will set up the multicast
  filter when it initializes the hardware anyway, and the underlying
  routines (ndis_get_info()/ndis_set_info()) know that the driver/NIC
  haven't been initialized yet, but you end up spurious error messages
  on the console all the time.

Something tells me this new behavior isn't really correct. I think
the intention was to fix it so that ifp->if_init() is only called
once when we ifconfig an interface up, but the end result seems a
little bogus: the change of the IFF_UP flag should be propagated
down to the driver before calling any other ioctl() that might actually
require the hardware to be up and running.
2004-07-07 17:46:30 +00:00
Dag-Erling Smørgrav
63eaecc921 Take advantage of the dev sysctl tree.
Approved by:	wpaul
2004-06-04 22:24:46 +00:00
Bill Paul
55cfa737d7 Unbreak the Intel 2100 Centrino wireless driver (and probably others):
- In subr_ndis.c, my_strcasecmp() actually behaved like my_strncasecmp():
  we really need it to behave like the former, not the latter. (It was
  falsely matching "RadioEnable", which defaults to 1 with "RadioEnableHW"
  which the driver creates itself and to 0, because we were using
  strlen("RadioEnable") as the length to test. This caused the radio to
  always be turned off. :( )

- In if_ndis.c, only set IEEE80211_CHAN_A for channels if we actually
  set any IEEE80211_MODE_11A rates. (ieee80211_attach() will "helpfully"
  add IEEE80211_MODE_11A to ic_modecaps for you if you initialize any
  802.11a channels. This caused "ndis0: 11a rates:" to erroneously be
  displayed during driver load.)

- Also in if_ndis.c, when using TESTSETRATE() to add in any missing 802.11b
  rates, remember to OR the rates with IEEE80211_RATE_BASIC, otherwise
  comparing against existing basic rates won't match. (1, 2, 5.5 and
  11Mbps are basic rates, according to the 802.11b spec.) This erroneously
  cause 11Mbps to be added to the 11b rate list twice.
2004-06-04 04:43:36 +00:00
Bill Paul
d1a5f43855 In subr_ndis.c, when searching for keys in our make-pretend registry,
make the key name matching case-insensitive. There are some drivers
and .inf files that have mismatched cases, e.g. the driver will look
for "AdhocBand" whereas the .inf file specifies a registry key to be
created called "AdHocBand." The mismatch is probably a typo that went
undetected (so much for QA), but since Windows seems to be case-insensitive,
we should be too.

In if_ndis.c, initialize rates and channels correctly so that specify
frequences correctly when trying to set channels in the 5Ghz band, and
so that 802.11b rates show up for some a/b/g cards (which otherwise
appear to have no 802.11b modes).

Also, when setting OID_802_11_CONFIGURATION in ndis_80211_setstate(),
provide default values for the beacon interval, ATIM window and dwelltime.
The Atheros "Aries" driver will crash if you try to select ad-hoc mode
and leave the beacon interval set to 0: it blindly uses this value and
does a division by 0 in the interrupt handler, causing an integer
divide trap.
2004-05-29 06:41:17 +00:00
Bill Paul
dc9d837079 Restore source code compatibility with 5.2-RELEASE. 2004-05-12 15:58:42 +00:00
Andre Oppermann
c8d5cfbd81 Link state change notification of ethernet media to the routing socket.
o The ndis_ticktask() function updates the ifi_link_state field and
  calls rt_ifmsg() to notify listeners on the routing socket.

Approved by:	wpaul
2004-05-06 13:17:02 +00:00
Bill Paul
a1788fb41e Small timer cleanups:
- Use the dh_inserted member of the dispatch header in the Windows
  timer structure to indicate that the timer has been "inserted into
  the timer queue" (i.e. armed via timeout()). Use this as the value
  to return to the caller in KeCancelTimer(). Previously, I was using
  callout_pending(), but you can't use that with timeout()/untimeout()
  without creating a potential race condition.

- Make ntoskrnl_init_timer() just a wrapper around ntoskrnl_init_timer_ex()
  (reduces some code duplication).

- Drop Giant when entering if_ndis.c:ndis_tick() and
  subr_ntorkrnl.c:ntoskrnl_timercall(). At the moment, I'm forced to
  use system callwheel via timeout()/untimeout() to handle timers rather
  than the callout API (struct callout is too big to fit inside the
  Windows struct KTIMER, so I'm kind of hosed). Unfortunately, all
  the callouts in the callwhere are not marked as MPSAFE, so when
  one of them fires, it implicitly acquires Giant before invoking the
  callback routine (and releases it when it returns). I don't need to
  hold Giant, but there's no way to stop the callout code from acquiring
  it as long as I'm using timeout()/untimeout(), so for now we cheat
  by just dropping Giant right away (and re-acquiring it right before
  the routine returns so keep the callout code happy). At some point,
  I will need to solve this better, but for now this should be a suitable
  workaround.
2004-04-30 20:51:55 +00:00
Bill Paul
0584cf1978 Remove code that fiddles with Giant in ndis_ticktask() that snuck in
during previous commit.
2004-04-28 17:06:18 +00:00