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| H A D | ndis_var.h | diff 144174 Sun Mar 27 08:14:36 MST 2005 wpaul 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. |
| H A D | subr_ndis.c | diff 144174 Sun Mar 27 08:14:36 MST 2005 wpaul 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. |
| H A D | subr_ntoskrnl.c | diff 144174 Sun Mar 27 08:14:36 MST 2005 wpaul 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. |
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