From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: from mail-in6.apple.com (mail-out6.apple.com [17.151.62.28]) (using TLSv1.2 with cipher ECDHE-RSA-AES256-GCM-SHA384 (256/256 bits)) (No client certificate requested) by ml01.01.org (Postfix) with ESMTPS id 34EA781EC8 for ; Fri, 18 Nov 2016 16:34:04 -0800 (PST) DKIM-Signature: v=1; a=rsa-sha256; d=apple.com; s=mailout2048s; c=relaxed/simple; q=dns/txt; i=@apple.com; t=1479515649; h=From:Sender:Reply-To:Subject:Date:Message-id:To:Cc:MIME-version:Content-type: Content-transfer-encoding:Content-ID:Content-Description:Resent-Date:Resent-From: Resent-Sender:Resent-To:Resent-Cc:Resent-Message-ID:In-reply-to:References:List-Id: List-Help:List-Unsubscribe:List-Subscribe:List-Post:List-Owner:List-Archive; bh=Z379QwYmuCJX4iFH1s/tWQFmIEwp1nzBKVQ0QbIoXkQ=; b=snK6rSNB8e6mnYtmjfCaW8pgeQDf6CyBNSGw2apsb44BfO2PkNvSxF7QHuykFMXh 6upbYu2SDCnhXIqLktm74YLmoTv9UkaWO4cpLzafJ1KGMOLre3J4qgOhqzUkhBp5 vtiWE82lmQ2ivmb5se/VZeI0Cht/C6XTTfJsD5MKQfc3eogUn0UiP1/x0S2mHTTT 4vuyFG9R1JxTdOca6vohRc75zdums6gAzP8MpD9U6Bh7E6Im7Wq+S/hbKZkDhV5g 3I4njPPWXBq19He4U7YqJ3GXQMGPeigANJS15r6rWyFt0xwgqWji15ItKE2yAVK5 cbBdNY8ADWHqhnMgceX7Og==; Received: from relay5.apple.com (relay5.apple.com [17.128.113.88]) by mail-in6.apple.com (Apple Secure Mail Relay) with SMTP id 7F.76.16908.10E9F285; Fri, 18 Nov 2016 16:34:09 -0800 (PST) X-AuditID: 11973e15-8ada39a00000420c-d8-582f9e018c5d Received: from nwk-mmpp-sz09.apple.com (nwk-mmpp-sz09.apple.com [17.128.115.80]) by relay5.apple.com (Apple SCV relay) with SMTP id E0.42.27929.10E9F285; Fri, 18 Nov 2016 16:34:09 -0800 (PST) MIME-version: 1.0 Received: from [17.153.45.106] by nwk-mmpp-sz09.apple.com (Oracle Communications Messaging Server 8.0.1.1.0 64bit (built Jun 15 2016)) with ESMTPSA id <0OGV00AVZ5KVBN10@nwk-mmpp-sz09.apple.com>; Fri, 18 Nov 2016 16:34:09 -0800 (PST) Sender: afish@apple.com From: Andrew Fish In-reply-to: Date: Fri, 18 Nov 2016 16:34:07 -0800 Cc: Laszlo Ersek , Paolo Bonzini , "edk2-devel@ml01.01.org" , "Tian, Feng" , "Yao, Jiewen" , "Fan, Jeff" Message-id: <15D14B79-925E-40AD-963C-42713837B1F2@apple.com> References: <20161115140809.5292-1-jeff.fan@intel.com> <605a5187-5b91-e0f8-5560-8a02ddad5057@redhat.com> <87503cca-0496-e78c-cc94-c27c1417901e@redhat.com> <512424A8-31F2-4333-9FAC-AD4D35C785AC@apple.com> To: Mike Kinney X-Mailer: Apple Mail (2.3226) X-Brightmail-Tracker: H4sIAAAAAAAAA+NgFrrOLMWRmVeSWpSXmKPExsUi2FAYocs4Tz/C4NV+CYt1e76xW0zazW5x cv0SRot1Hz0slh3bwWLR0fGPyWL/tn+sDuwei/e8ZPKYdOExs8f7fVfZApijuGxSUnMyy1KL 9O0SuDKmty5iKzg7mbHi15G97A2M+wq6GDk5JARMJCYdvMfYxcjFISSwl1Gi8fstdpjE3etz 2EBsIYGDjBLvPtSA2LwCghI/Jt9j6WLk4GAWkJc4eF4WJMwsoCXx/VErC8Scd4wSB2bOAJsj LCAu8e7MJmYI21ni3+TVYDPZBJQlVsz/AFbDKRAm0XtwFyuIzSKgKtE+5y8byCBmkEE7Ppxi h1hsI/Fw/yomiA1PmSTufFnKBHKFiICORPfKaBBTQkBWYvYvL5ASCYH7bBITV85hncAoPAvJ 3bMQ7p6F5O4FjMyrGIVyEzNzdDPzzPQSCwpyUvWS83M3MYJiYrqd6A7GM6usDjEKcDAq8fAW iutHCLEmlhVX5h5ilOZgURLnDTTXixASSE8sSc1OTS1ILYovKs1JLT7EyMTBKdXAODMzPYk5 TkjZvPrNh5l7mU/K73CscQn/HPCla1Yp184HWcuvbaiIepRdq/gsfI9r8qznTEax4g//+KmY Cjyp5Z0WsuMNY1Cpq5xNYcP8qFSnmxcuGEdJxdktO/FcjnElR4s9p0l0YtT/rU9dLf3+dj5b 9NNIfsGVh1ter407sEaY4df2rVf8lViKMxINtZiLihMB06LbIGoCAAA= X-Brightmail-Tracker: H4sIAAAAAAAAA+NgFprHIsWRmVeSWpSXmKPExsUi2FAcoMs4Tz/CYM0uXot1e76xW0zazW5x cv0SRot1Hz0slh3bwWLR0fGPyWL/tn+sDuwei/e8ZPKYdOExs8f7fVfZApijuGxSUnMyy1KL 9O0SuDKmty5iKzg7mbHi15G97A2M+wq6GDk5JARMJO5en8MGYYtJXLi3HswWEjjIKPHuQw2I zSsgKPFj8j2WLkYODmYBeYmD52VBwswCWhLfH7UChbmAyt8xShyYOYMdJCEsIC7x7swmZgjb WeLf5NVgM9kElCVWzP8AVsMpECbRe3AXK4jNIqAq0T7nLxvIIGaQQTs+nGKHWGwj8XD/KiaI DU+ZJO58WcoEcoWIgI5E98poEFNCQFZi9i+vCYyCs5CcOgvh1FlITl3AyLyKUaAoNSex0lQv saAgJ1UvOT93EyM4tAsjdjD+X2Z1iFGAg1GJh7dAXD9CiDWxrLgy9xCjBAezkgjvmW6gEG9K YmVValF+fFFpTmrxIcZkoPsnMkuJJucD4y6vJN7QxMTAxNjYzNjY3MScNGElcd7gZKAVAumJ JanZqakFqUUwW5g4OKUaGA1swrcI5nWZXNe3VHXW+HBlTnOmcpjwMYV9OasfVb5Qzt49pXA1 n96LlRvfuL9n9Xm28+n7hdNWz7tefDBWbvYTFvlFghmh7w6q79+9743ihc69m54+31nwVGtO 5MnoLxcW7YiazDGvMulGbQV3k8Qiwdot+s1con8rOxy1JvOffNmuPaVmUZsSS3FGoqEWc1Fx IgCm+OaWsQIAAA== Subject: Re: [PATCH v2 0/2] Add volatile for mNumberToFinish X-BeenThere: edk2-devel@lists.01.org X-Mailman-Version: 2.1.21 Precedence: list List-Id: EDK II Development List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , X-List-Received-Date: Sat, 19 Nov 2016 00:34:04 -0000 Content-transfer-encoding: 7BIT Content-type: text/plain; CHARSET=US-ASCII > On Nov 16, 2016, at 5:10 PM, Kinney, Michael D wrote: > > Hi Andrew, > > Thanks for all the examples! > Mike, Thanks for driving the fixes. I find the examples make it more clear what is going on, and make the language make more sense. It will be good to have these examples on the mailing list for future reference. Thanks, Andrew Fish > I have done a more detailed review of the BaseSynchronizationLib. I do not think there are any missing memory barriers in the implementation. > > I have also experimented with adding volatile qualifier to parameters in the Interlocked*() functions, and for the builds I have done so far, that appears to be a compatible change. I did have to update the internal functions in that lib to also consistently use volatile, but that makes sense based on the ANSI C spec items that Laszlo quoted. > > I have also been looking at Jeff's patch to CpuS3.c to add volatile to the mNumberToFinish global variable, and I have a slightly different patch I have evaluated to avoid the type case from a volatile variable to a non-volatile variable in all cases. It does require that the calls to SwitchStack() and DisablePaging64() treat the parameter as a UINTN address of the semaphore, instead of a volatile pointer to the semaphore. > > I will send some patches soon for review. > > Mike > > From: afish@apple.com [mailto:afish@apple.com] > Sent: Wednesday, November 16, 2016 1:14 PM > To: Laszlo Ersek > Cc: Kinney, Michael D ; Fan, Jeff ; edk2-devel@ml01.01.org; Paolo Bonzini ; Tian, Feng ; Yao, Jiewen > Subject: Re: [edk2] [PATCH v2 0/2] Add volatile for mNumberToFinish > > > On Nov 16, 2016, at 11:21 AM, Laszlo Ersek > wrote: > > On 11/16/16 19:18, Kinney, Michael D wrote: > > Laszlo, > > Thanks for the details from and ANSI C spec. > > For this compiler issue, are there more details on the > assembly code generated by the GCC 5.4 compiler in the > failing mode? > > Unfortunately, I have little first-hand experience with this kind of > failure, I've just read different accounts of it. Perhaps Paolo can > comment -- my experience with contacting GCC maintainers directly hasn't > been stellar. > > > If it reproduces in clang I've had a lot of luck getting help from those folks. > > In general the best thing to do if you think you have a compiler bug it to write a small command line program that reproduces the issues. If it is a code generation issue, you don't even need to make the code link or run, you can just compile the code directly to assembler and write up in the bug report why you think the code generation is in error. Basically like the examples I post to this list from time to time. Well unless it is a link time optimization issue... > > > I also see Liming's observation that the internal > implementation of the SynchronizationLib adds volatile > in some internal worker functions. Other implementation > artifacts include the use of a read/write memory barrier > to prevent the optimizing compiler from optimizing > across a boundary. These read/write barriers are used > in the spin lock functions, but not the Interlocked*() > functions. > > I want to make sure we have studied the code generation > to see if the issue is related to volatile or a read/write > memory barrier. It could be adding volatile forced the > compiler to internally add read/write barrier. > > In my understanding, MemoryFence() > [MdePkg/Library/BaseLib/X64/GccInline.c] is just a compiler-level > barrier, not a processor level barrier. > > __asm__ __volatile__ ("":::"memory"); > > Processor level barriers shouldn't be a problem here; as far as I recall > from the SDM from a few days ago, the XCHG instruction "engages the > CPU's locking protocol even without the LOCK prefix", plus I see an > explicit LOCK in InternalSyncDecrement() > [MdePkg/Library/BaseSynchronizationLib/X64/GccInline.c] for example. > > I'm pretty sure the compiler opimized away the access because it saw no > intervening access (it doesn't know about the code running on other > CPUs). I think "volatile" and MemoryFence() -- with the latter telling > GCC that all memory should be considered clobbered -- should fix the > issue just the same, in this situation. > > > There is a good chance it is similar to my example from my previous email when the return value is a constant since the compiler wrote the value and remember the value it wrote. You will need to make the global volatile or place a barrier between the write and the read to tell the compiler what optimizations are legal. > > There can also be other insidious things in place that hide bugs. For example in this code: > > mNumberToFinish = mAcpiCpuData.NumberOfCpus - 1; > mExchangeInfo->ApFunction = (VOID *) (UINTN) EarlyMPRendezvousProcedure; > > // > // Send INIT IPI - SIPI to all APs > // > SendInitSipiSipiAllExcludingSelf ((UINT32)mAcpiCpuData.StartupVector); > > while (mNumberToFinish > 0) { > CpuPause (); > } > > What if some versions of SendInitSipiSipiAllExcludingSelf() have side effects that make it hard to optimize and some do not. You could get a different result... > > Anyway I think this optimization is more subtle than my previous examples. If you just compile this code to assembler it looks correct (you see a loop). But if you do link time optimization the compiler will make more assumptions about how mNumberToFinish is used globally and be more aggressive about optimizing it out. You can get the same behavior from the assembler generation if you make mNumberToFinish a static local. > > ~/work/Compiler>cat barriers.c > > #define _ReadWriteBarrier() do { __asm__ __volatile__ ("": : : "memory"); } while(0) > > unsigned int mNumberToFinish = 0; > > void SendInit2() > { > *(int *)0x12345678 = 0; > } > > int main() > { > mNumberToFinish = 3; > > SendInit2(); > while (mNumberToFinish > 0) { > ; > } > > return 0; > } > > > ~/work/Compiler>clang -Os -flto -g barriers.c > ~/work/Compiler>lldb a.out > (lldb) target create "a.out" > Current executable set to 'a.out' (x86_64). > (lldb) dis -n main -b > a.out`main: > a.out[0x100000fa7] <+0>: 55 pushq %rbp > a.out[0x100000fa8] <+1>: 48 89 e5 movq %rsp, %rbp > a.out[0x100000fab] <+4>: c7 04 25 78 56 34 12 00 00 00 00 movl $0x0, 0x12345678 > a.out[0x100000fb6] <+15>: eb fe jmp 0x100000fb6 ; <+15> at barriers.c:16 > > > ~/work/Compiler>clang -Os -S barriers.c > ~/work/Compiler>cat barriers.s > > .globl _SendInit2 > _SendInit2: ## @SendInit2 > pushq %rbp > movq %rsp, %rbp > movl $0, 305419896 > popq %rbp > retq > > > .globl _main > _main: ## @main > pushq %rbp > movq %rsp, %rbp > movl $3, _mNumberToFinish(%rip) > xorl %eax, %eax > movl %eax, 305419896 > cmpl %eax, _mNumberToFinish(%rip) > je LBB1_2 > LBB1_1: ## =>This Inner Loop Header: Depth=1 > jmp LBB1_1 > LBB1_2: > xorl %eax, %eax > popq %rbp > retq > > .globl _mNumberToFinish ## @mNumberToFinish > .zerofill __DATA,__common,_mNumberToFinish,4,2 > > > Live in fear of the optimizer as it is getting smarter every day. Sorry if I picked the wrong bit of code as the example. > > Thanks, > > Andrew Fish > > PS This is a good example of how barriers don't do what you may think. Notice how the barrier only adds a single read and then a return or an infinite loop. It makes sense if you think about it.... After the barrier the compiler is clueless as to what is going on so it reads the global. Given the global can't change it decides to return or fall into the infinite loop. This is really good example of the difference between a barrier and a volatile variable. This really highlights that barrier is a one shot vs. the volatile is a property for the variable. > > ~/work/Compiler>cat barriers.c > > #define _ReadWriteBarrier() do { __asm__ __volatile__ ("": : : "memory"); } while(0) > > unsigned int mNumberToFinish = 0; > > void SendInit2() > { > *(int *)0x12345678 = 0; > } > > int main() > { > mNumberToFinish = 3; > > SendInit2(); > _ReadWriteBarrier(); > while (mNumberToFinish > 0) { > ; > } > > return 0; > } > > > ~/work/Compiler>clang -Os -flto -g barriers.c > ~/work/Compiler>lldb a.out > (lldb) target create "a.out" > Current executable set to 'a.out' (x86_64). > (lldb) dis -n main -b > a.out`main: > a.out[0x100000f8d] <+0>: 55 pushq %rbp > a.out[0x100000f8e] <+1>: 48 89 e5 movq %rsp, %rbp > a.out[0x100000f91] <+4>: c6 05 68 00 00 00 01 movb $0x1, 0x68(%rip) > a.out[0x100000f98] <+11>: c7 04 25 78 56 34 12 00 00 00 00 movl $0x0, 0x12345678 > a.out[0x100000fa3] <+22>: 0f b6 05 56 00 00 00 movzbl 0x56(%rip), %eax ; mNumberToFinish > a.out[0x100000faa] <+29>: 83 e0 01 andl $0x1, %eax > a.out[0x100000fad] <+32>: 83 f8 01 cmpl $0x1, %eax > a.out[0x100000fb0] <+35>: 75 02 jne 0x100000fb4 ; <+39> at barriers.c:21 > a.out[0x100000fb2] <+37>: eb fe jmp 0x100000fb2 ; <+37> at barriers.c:17 > a.out[0x100000fb4] <+39>: 31 c0 xorl %eax, %eax > a.out[0x100000fb6] <+41>: 5d popq %rbp > a.out[0x100000fb7] <+42>: c3 retq > > > > > > Also, given the implementation I see in the SynchronizationLib > I am not sure the cast to (UINT32 *) is required in the > proposed patch. Do we get compiler warnings/errors if those > casts are not included? > > Yes. > > Passing an argument to a function whose prototype is visible invokes > type conversion just like in assignment: > > 6.5.2.2 Function calls > > 7 If the expression that denotes the called function has a type that > does include a prototype, the arguments are implicitly converted, > as if by assignment, to the types of the corresponding parameters, > taking the type of each parameter to be the unqualified version > of its declared type. [...] > > (IMPORTANT: the de-qualification mentioned above refers to the pointer > object itself, not to the pointed-to object! It just means if you have a > function parameter "const long x", and pass the argument 5 (which has > type int), then it is converted to "long", and not "const long".) > > So, passing a (volatile UINT32 *) argument to a (UINT32 *) parameter is > the same as the similar assignment > > volatile UINT32 *x; > UINT32 *y; > y = x; > > Then, regarding assignment, we have > > 6.5.16.1 Simple assignment > > Constraints > > 1 One of the following shall hold: > > [...] > - both operands are pointers to qualified or unqualified versions > of compatible types, and the type pointed to by the left has all > the qualifiers of the type pointed to by the right; > [...] > > Finally we have diagnostics, > > 5.1.1.3 Diagnostics > > 1 A conforming implementation shall produce at least one diagnostic > message (identified in an implementation-defined manner) if a > preprocessing translation unit or translation unit contains a > violation of any syntax rule or constraint, even if the behavior is > also explicitly specified as undefined or implementation-defined. > [...] > > In summary, without adding the explicit cast, we break the constraint on > simple assignment, which requires the compiler to emit a diagnostic message. > > (In turn if we add the explicit cast, we break other requirements, as > discussed in my other email -- and here we should investigate whether we > care about breaking that exact rule.) > > > The second topic is what the SynchronizationLib API interfaces > should have been from the beginning. In retrospect, I think > they should have been defined with volatile pointers. > > I agree! > > > The spin > lock APIs do use volatile pointers, but that is embedded in the > typedef for SPIN_LOCK, so it is not as obvious. > > Thanks > Laszlo > > > -----Original Message----- > From: Laszlo Ersek [mailto:lersek@redhat.com] > Sent: Tuesday, November 15, 2016 8:10 AM > To: Fan, Jeff >; edk2-devel@ml01.01.org > Cc: Paolo Bonzini >; Yao, Jiewen >; Tian, > Feng >; Kinney, Michael D > > Subject: Re: [PATCH v2 0/2] Add volatile for mNumberToFinish > > Jeff, > > On 11/15/16 15:08, Jeff Fan wrote: > > v2: > Add patch #1 per Laszlo's comments > at https://lists.01.org/pipermail/edk2-devel/2016-November/004697.html > > About the comments updated SynchronizationLib to add volatile for > input parameter, I will send in another serial patches. > > Cc: Paolo Bonzini > > Cc: Laszlo Ersek > > Cc: Jiewen Yao > > Cc: Feng Tian > > Cc: Michael D Kinney > > Contributed-under: TianoCore Contribution Agreement 1.0 > Signed-off-by: Jeff Fan > > > Jeff Fan (2): > UefiCpuPkg/PiSmmCpuDxeSmm: Add volatile for parameter NumberToFinish > UefiCpuPkg/PiSmmCpuDxeSmm: Add volatile for mNumberToFinish > > UefiCpuPkg/PiSmmCpuDxeSmm/CpuS3.c | 4 ++-- > UefiCpuPkg/PiSmmCpuDxeSmm/Ia32/SmmFuncsArch.c | 4 ++-- > UefiCpuPkg/PiSmmCpuDxeSmm/PiSmmCpuDxeSmm.h | 2 +- > UefiCpuPkg/PiSmmCpuDxeSmm/X64/SmmFuncsArch.c | 2 +- > 4 files changed, 6 insertions(+), 6 deletions(-) > > if you want to keep GCC5.4 from optimizing away the access, the > synchronization object itself, and all pointers to it must remain > volatile. Wherever you cast away the volatile qualifier, for example in > a function call, GCC can break code on the next level, even if you don't > actually access the object through that pointer (i.e., if you cast the > pointer back to volatile just in time for the access). > > So, the safe way to go about this is to change function prototypes from > callee towards callers -- first change the callee (because both volatile > and non-volatile can be accepted as volatile), then change the caller > (make sure what you pass in is volatile, and propagate it outwards). > > It is also okay to convert the original volatile pointer to UINTN, and > to pass it to assembly code like that, or to convert it back to a > volatile pointer from UINTN before use. > > From the C99 standard: > > 6.3 Conversions > 6.3.2.3 Pointers > > 2 For any qualifier q, a pointer to a non-q-qualified type may be > converted to a pointer to the q-qualified version of the type; the > values stored in the original and converted pointers shall compare > equal. > > 5 An integer may be converted to any pointer type. Except as > previously specified, the result is implementation-defined, might > not be correctly aligned, might not point to an entity of the > referenced type, and might be a trap representation. > > 6 Any pointer type may be converted to an integer type. Except as > previously specified, the result is implementation-defined. If the > result cannot be represented in the integer type, the behavior is > undefined. The result need not be in the range of values of any > integer type. > > 6.7.3 Type qualifiers, paragraph 5: > > If an attempt is made to modify an object defined with a > const-qualified type through use of an lvalue with > non-const-qualified type, the behavior is undefined. If an attempt > is made to refer to an object defined with a volatile-qualified > type through use of an lvalue with non-volatile-qualified type, the > behavior is undefined. > > In summary: > > - casting away "volatile" even just temporarily (without actual > accesses) may give gcc license to break the code (6.3.2.3 p2) > > - accessing without volatile is known to break the code (6.7.3 p5) > > - you can always cast from non-volatile to volatile (6.3.2.3 p2), > but not the other way around! > > - you can cast from (volatile VOID *) to UINTN and back as much as > you want (6.3.2.3 p5 p6), because our execution environment makes > that safe ("implementation-defined") > > We might want to play loose with 6.3.2.3 p2 -- that is, cast away > volatile from the pointer only temporarily, and cast it back just before > accessing the object through the pointer --, but that could be unsafe in > the long term. The *really* safe method is to cast it to UINTN, and then > back the same way. > > Yes, this would affect functions like SwitchStack() too -- the Context1 > and Context2 parameters would have to change their types to UINTN. > > I think what we should discuss at this point is whether we'd like to > care about 6.3.2.3 p2; that is, whether we consider casting away > volatile temporarily. > > The direction I've been experiencing with GCC is that its optimization > methods are becoming more aggressive. For some optimizations, there are > flags that disable them; I'm not sure they provide a specific flag for > preventing GCC from exploiting violations of 6.3.2.3 p2. > > Thanks > Laszlo > > _______________________________________________ > edk2-devel mailing list > edk2-devel@lists.01.org > https://lists.01.org/mailman/listinfo/edk2-devel > > _______________________________________________ > edk2-devel mailing list > edk2-devel@lists.01.org > https://lists.01.org/mailman/listinfo/edk2-devel