[NTOS]: Add VDM debug spew to see why there's now an invalid opcode on Windows builds of VMWare and certain QEmu combinations. (Note: the double fault issue is fixed, this is a new issue).
svn path=/trunk/; revision=45057
[NTOS]: A trap can get us into a state where DS/ES are invalid, making any pointer dereference (on DS/ES segmented memory, not SS, the stack) crash (and probably double-fault). Therefore, we have to be careful to switch to a good DS/ES before touching the TrapFrame pointer, which we don't have in ESP like the ASM code, but in a DS/ES-segmented register. For V8086 traps we can switch to the good DS/ES immediately, but for other kinds of traps, we actually need to save the current (bad) segments first. So we save them on the stack now, then switch to the good ones, then store the stack values into the trap frame. This is what happens on a non-optimized (-O0) build. On an optimized build, the segments will end up in registers instead, which is fine too (they'll be direct values). The order of instructions is guaranteed since the segment macros are volatile.
[NTOS]: The GPF and Invalid Opcode handlers are performance critical when talking about V8086 traps, because they control the main flow of execution during that mode (GPFs will be issued for any privileged instruction we need to emulate, and invalid opcode might be generated for BOPs). Because of this, we employ a fast entry/exit macro into V8086 mode since we can make certain assumptions. We detect, and use, such scenarios when the V8086 flag is enabled in EFLAGS. However, because we can land in a GPF handler with an invalid DS/ES, as some V8086 code could trample this during BIOS calls for example, we must make sure that we are on a valid DS/ES before dereferencing any pointer. We fixup DS/ES either in KiEnterTrap (for normal entry/exit) or, for V86, in KiEnterV86Trap. Notice the problem: we need to detect which of these to use early on but we can't touch the EFLAGS in the frame because DS/ES could be invalid. Thankfully SS is always guaranteed valid, so stack dereferences are game! We therefore read the EFLAGS here, in assembly, where we can touch ESP as we please. We save this in EDX, which will be used as the second argument for the FASTCALL C trap entry. When we make the fast V86 check, we use the parameter instead of the trap frame, leading us to using the correct trap entry function, which fixes up DS/ES and lets us go on our merry way...
[NTOS]: Make appropriate changes to GENERATE_TRAP_HANDLERS macro.
[NTOS]: Switch to using well-known NT trap handler names (hex-based, double-zeroed) instead of decimal-based trap handler names which are confusing.
[NTOS]: Clean up some debug spew.
svn path=/trunk/; revision=45052
[NTOS]: Fix a logic bug in KiExitTrap: Always only restore segments if we came from user-mode (since they might be bogus on a kernel transition as they're not always saved), even if the caller wants segment restore.
[NTOS]: Small perf boot: do a JMP, not a CALL into C handling code.
[NTOS]: Make KiGetTickCount/KiCallbackReturn handled in C (as stubs).
[NTOS]: Implement KeSynchronizeExecution in C. Move Kei386SpinOnSpinLock to C stub.
[NTOS]: Implement overall architecture for handling hardware interrupts in C. Not used yet, since it needs C code in HAL.
svn path=/trunk/; revision=45045
- EhciDefferedRoutine: Fix late night brain fart by filling the members of the WorkItemData before queuing the work item.
svn path=/trunk/; revision=45043
- More movement to WND with updates to related files. Added new scroll and get/post message routines. In the mix we did moved to the MONITOR structure.
svn path=/trunk/; revision=45042
[NTOS]: Implement KiCoprocessorError in C.
[NTOS]: Make NMI handler fully C, now that the other parts are C too.
[NTOS]: Delete more ASM macros and code that are now unused.
svn path=/trunk/; revision=45040
[NTOS]: Implement GPF handler (trap 13) in C. This was by far the most complex one of them, since it also servces two complex purposes: to handle V86 emulation since the real-mode code will generate GPFs during privileged instructions, and it will detect an illegal IRET, check if it's the known V8086 Exit IRET, and then jump to V86 exit code.
[NTOS]: Get rid of even more V8086 assembly since the GPF handler is now C. Deleted the entire V8086 assembly file.
[NTOS]: Get rid of a bunch of helper ASM functions that nobody is using anymore since almost all the trap handlers are in C.
svn path=/trunk/; revision=45038
- When locking and unlocking regions, no need to use probe to check attribute space first before read or write access. The exception handling is a feature.
svn path=/trunk/; revision=45034
- DeviceArrivalWorkItem: Check the device object returned from IoGetAttachedDeviceReference. if its the PDO, deref and return.
- Pass upper attached device object pointer to the completion routine.
- ArrivalNotificationCompletion: Dereference the upper attached device object before returning.
svn path=/trunk/; revision=45023
- StartDevice: Remove ASSERT for unhanded resource types.
- Add case for CmResourceTypeDevicePrivate, and do nothing for it for now, will fix later if needed.
- Fixes crash on windows.
svn path=/trunk/; revision=45022
- Added numerous structures required for Asynchronous Lists used to communicate with controller. Needs much more work.
- Implement initial retrieving Device and String Descriptors from USB devices.
- Fixed improper handling of Queued IRPs that was causing crashes.
- For now, always queue the Irp if the request is a Urb of type Get Descriptor.
- Reorganized code to trim down source files.
svn path=/trunk/; revision=45017
[NTOS]: Implement Trap 7 and 16 in C. These are the last two FPU/NPX traps. Not really good with x86 FPU stuff, so there might be some mistakes to look over later.
[NTOS]: Fixed a bug in Trap 19 handler (forgot to write CR0 back).
svn path=/trunk/; revision=45014
- Add corrected behavior for SetWindowRgn, delete region object after setting windows region. See bug 4980.
- After a successful call to SetWindowRgn, the system owns the region specified by the region handle hRgn. The system does not make a copy of the region. Thus, you should not make any further function calls with this region handle. In particular, do not delete this region handle. The system deletes the region handle when it no longer needed.
- References : http://msdn.microsoft.com/en-us/library/dd145102(VS.85).aspx
svn path=/trunk/; revision=45013
[NTOS]: Fix a bug in the assertion handler.
[NTOS]: Implement page fault trap (14) in C instead of ASM.
[NTOS]: Implement V8086 trap entry/exit, we were hitting these during page faults in Ke386CallBios for video reset during GUI boot.
svn path=/trunk/; revision=45005
[NTOS]: Convert Trap 0, 1, 3, 4, 5, 8, 10, 11, 12, 15, 17, 2C (Assertion) and 2D (Debug) to C. Tested INT3 and still works as expected, and obviously DbgPrint is still functionning (0x2D). The other traps are mainly programming errors such as bound overflow or integer overflow, so we need some test cases, but they should work. Note the 3-4 lines of C for what used to be dozens of ASM lines.
[NTOS]: Fix infinite loop in KiCheckForApcDelivery.
Stefan Ginsberg: Could you please implement the relevant Extended GCC ASM into MSVC?
svn path=/trunk/; revision=45002
[NTOS]: The kernel normally does not save FPU state during Ring 0 transitions since the FPU should not be used. The one exception is when a kernel debugger is attached. Unfortunately, the latter check in ReactOS results in even "print on the serial line" to count as "debugger attached", and thus FPU state was almost always saved, slowing down traps significantly.
[NTOS]: The kernel also does not typically save DRx (debug) registers unless they were in use. During an exception dispatch, they are zeroed out, and later during trap exit, if any debug register is set, DR7 is updated to enable that hardware breakpoint. Unfortunately, the code to clear the debug registers had a bug: DR2 was never cleared. Because DR2 ended up being a random stack value during trap frame generation, this caused a bogus address to be added to DR2, and DR7 would then enable the 2nd hardware breakpoint. This caused the kernel to always save DRx state, which is slow, and worse, could cause random hardware breakpoints to fire.
[NTOS]: Start implementing trap handling in C. ASM trap handlers will now only be 5 lines of assembly including a function call to a C handler. All C handling code uses maximum two arguments and is all FASTCALL for efficiency.
[NTOS]: Implement C versions of TRAP_PROLOG and TRAP_EPILOG. Implement C version of Ki386EoiHelper. Implement C version of CommonDispatchException (and helper) and KiFatalSystemException. Implement C version of CHECK_FOR_APC_DELIVER. Implement trap debugging checks as a separate entity instead of always doing them.
[NTOS]: Add missing intrinsics for DS/ES/GS segment query.
The kernel is now ready for some trap handling to be done in C. Due to the FPU/Debug fixes and relaxation of paranoid debug checks, the C code will likely be faster than the original assembly.
svn path=/trunk/; revision=45000
- Initial implementation of usbehci, aka USB 2.0.
- Implement AddDevice, StartDevice, InterruptService and DPC Routines.
- Implement basic IRP queuing and handling.
- Implement starting, stopping of EHCI controller and querying port capabilities.
- Implement PNP for Query Relations, Query ID, Query BusInfo.
- Implement finding the active ports when USB devices are attached and releasing control to companion controller if devices is not a high speed devices.
- Implement reporting devices connects to upper Pdo (hub) driver.
- Hub driver attaches successfully and sends URBs to query descriptors from USB devices on Windows.
- Currently not build enabled as it will cause problems with current UsbDriver in trunk.
- Code heavily based on current PCI drivers and UsbDriver from trunk.
svn path=/trunk/; revision=44993