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Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1	//===-- MemorySanitizer.cpp - detector of uninitialized reads -------------===//
				2	//
				3	// The LLVM Compiler Infrastructure
				4	//
				5	// This file is distributed under the University of Illinois Open Source
				6	// License. See LICENSE.TXT for details.
				7	//
				8	//===----------------------------------------------------------------------===//
				9	/// \file
				10	/// This file is a part of MemorySanitizer, a detector of uninitialized
				11	/// reads.
				12	///
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	13	/// The algorithm of the tool is similar to Memcheck
				14	/// (http://goo.gl/QKbem). We associate a few shadow bits with every
				15	/// byte of the application memory, poison the shadow of the malloc-ed
				16	/// or alloca-ed memory, load the shadow bits on every memory read,
				17	/// propagate the shadow bits through some of the arithmetic
				18	/// instruction (including MOV), store the shadow bits on every memory
				19	/// write, report a bug on some other instructions (e.g. JMP) if the
				20	/// associated shadow is poisoned.
				21	///
				22	/// But there are differences too. The first and the major one:
				23	/// compiler instrumentation instead of binary instrumentation. This
				24	/// gives us much better register allocation, possible compiler
				25	/// optimizations and a fast start-up. But this brings the major issue
				26	/// as well: msan needs to see all program events, including system
				27	/// calls and reads/writes in system libraries, so we either need to
				28	/// compile everything with msan or use a binary translation
				29	/// component (e.g. DynamoRIO) to instrument pre-built libraries.
				30	/// Another difference from Memcheck is that we use 8 shadow bits per
				31	/// byte of application memory and use a direct shadow mapping. This
				32	/// greatly simplifies the instrumentation code and avoids races on
				33	/// shadow updates (Memcheck is single-threaded so races are not a
				34	/// concern there. Memcheck uses 2 shadow bits per byte with a slow
				35	/// path storage that uses 8 bits per byte).
				36	///
				37	/// The default value of shadow is 0, which means "clean" (not poisoned).
				38	///
				39	/// Every module initializer should call __msan_init to ensure that the
				40	/// shadow memory is ready. On error, __msan_warning is called. Since
				41	/// parameters and return values may be passed via registers, we have a
				42	/// specialized thread-local shadow for return values
				43	/// (__msan_retval_tls) and parameters (__msan_param_tls).
Evgeniy Stepanov	d8be0c5	2012-12-26 10:59:00 +0000	[diff] [blame]	44	///
				45	/// Origin tracking.
				46	///
				47	/// MemorySanitizer can track origins (allocation points) of all uninitialized
				48	/// values. This behavior is controlled with a flag (msan-track-origins) and is
				49	/// disabled by default.
				50	///
				51	/// Origins are 4-byte values created and interpreted by the runtime library.
				52	/// They are stored in a second shadow mapping, one 4-byte value for 4 bytes
				53	/// of application memory. Propagation of origins is basically a bunch of
				54	/// "select" instructions that pick the origin of a dirty argument, if an
				55	/// instruction has one.
				56	///
				57	/// Every 4 aligned, consecutive bytes of application memory have one origin
				58	/// value associated with them. If these bytes contain uninitialized data
				59	/// coming from 2 different allocations, the last store wins. Because of this,
				60	/// MemorySanitizer reports can show unrelated origins, but this is unlikely in
Alexey Samsonov	3efc87e	2012-12-28 09:30:44 +0000	[diff] [blame]	61	/// practice.
Evgeniy Stepanov	d8be0c5	2012-12-26 10:59:00 +0000	[diff] [blame]	62	///
				63	/// Origins are meaningless for fully initialized values, so MemorySanitizer
				64	/// avoids storing origin to memory when a fully initialized value is stored.
				65	/// This way it avoids needless overwritting origin of the 4-byte region on
				66	/// a short (i.e. 1 byte) clean store, and it is also good for performance.
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	67	///
				68	/// Atomic handling.
				69	///
				70	/// Ideally, every atomic store of application value should update the
				71	/// corresponding shadow location in an atomic way. Unfortunately, atomic store
				72	/// of two disjoint locations can not be done without severe slowdown.
				73	///
				74	/// Therefore, we implement an approximation that may err on the safe side.
				75	/// In this implementation, every atomically accessed location in the program
				76	/// may only change from (partially) uninitialized to fully initialized, but
				77	/// not the other way around. We load the shadow _after_ the application load,
				78	/// and we store the shadow _before_ the app store. Also, we always store clean
				79	/// shadow (if the application store is atomic). This way, if the store-load
				80	/// pair constitutes a happens-before arc, shadow store and load are correctly
				81	/// ordered such that the load will get either the value that was stored, or
				82	/// some later value (which is always clean).
				83	///
				84	/// This does not work very well with Compare-And-Swap (CAS) and
				85	/// Read-Modify-Write (RMW) operations. To follow the above logic, CAS and RMW
				86	/// must store the new shadow before the app operation, and load the shadow
				87	/// after the app operation. Computers don't work this way. Current
				88	/// implementation ignores the load aspect of CAS/RMW, always returning a clean
				89	/// value. It implements the store part as a simple atomic store by storing a
				90	/// clean shadow.
				91
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	92	//===----------------------------------------------------------------------===//
				93
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	94	#include "llvm/ADT/DepthFirstIterator.h"
				95	#include "llvm/ADT/SmallString.h"
				96	#include "llvm/ADT/SmallVector.h"
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	97	#include "llvm/ADT/StringExtras.h"
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	98	#include "llvm/ADT/Triple.h"
Chandler Carruth	9fb823b	2013-01-02 11:36:10 +0000	[diff] [blame]	99	#include "llvm/IR/DataLayout.h"
				100	#include "llvm/IR/Function.h"
				101	#include "llvm/IR/IRBuilder.h"
				102	#include "llvm/IR/InlineAsm.h"
Chandler Carruth	7da14f1	2014-03-06 03:23:41 +0000	[diff] [blame]	103	#include "llvm/IR/InstVisitor.h"
Chandler Carruth	9fb823b	2013-01-02 11:36:10 +0000	[diff] [blame]	104	#include "llvm/IR/IntrinsicInst.h"
				105	#include "llvm/IR/LLVMContext.h"
				106	#include "llvm/IR/MDBuilder.h"
				107	#include "llvm/IR/Module.h"
				108	#include "llvm/IR/Type.h"
Chandler Carruth	a4ea269	2014-03-04 11:26:31 +0000	[diff] [blame]	109	#include "llvm/IR/ValueMap.h"
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	110	#include "llvm/Support/CommandLine.h"
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	111	#include "llvm/Support/Debug.h"
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	112	#include "llvm/Support/raw_ostream.h"
Mehdi Amini	b550cb1	2016-04-18 09:17:29 +0000	[diff] [blame]	113	#include "llvm/Transforms/Instrumentation.h"
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	114	#include "llvm/Transforms/Utils/BasicBlockUtils.h"
Evgeniy Stepanov	4fbc0d08	2012-12-21 11:18:49 +0000	[diff] [blame]	115	#include "llvm/Transforms/Utils/Local.h"
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	116	#include "llvm/Transforms/Utils/ModuleUtils.h"
				117
				118	using namespace llvm;
				119
Chandler Carruth	964daaa	2014-04-22 02:55:47 +0000	[diff] [blame]	120	#define DEBUG_TYPE "msan"
				121
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	122	static const unsigned kOriginSize = 4;
Evgeniy Stepanov	5eb5bf8	2012-12-26 11:55:09 +0000	[diff] [blame]	123	static const unsigned kMinOriginAlignment = 4;
				124	static const unsigned kShadowTLSAlignment = 8;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	125
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	126	// These constants must be kept in sync with the ones in msan.h.
				127	static const unsigned kParamTLSSize = 800;
				128	static const unsigned kRetvalTLSSize = 800;
				129
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	130	// Accesses sizes are powers of two: 1, 2, 4, 8.
				131	static const size_t kNumberOfAccessSizes = 4;
				132
Evgeniy Stepanov	d8be0c5	2012-12-26 10:59:00 +0000	[diff] [blame]	133	/// \brief Track origins of uninitialized values.
Alexey Samsonov	3efc87e	2012-12-28 09:30:44 +0000	[diff] [blame]	134	///
Evgeniy Stepanov	d8be0c5	2012-12-26 10:59:00 +0000	[diff] [blame]	135	/// Adds a section to MemorySanitizer report that points to the allocation
				136	/// (stack or heap) the uninitialized bits came from originally.
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	137	static cl::opt<int> ClTrackOrigins("msan-track-origins",
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	138	cl::desc("Track origins (allocation sites) of poisoned memory"),
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	139	cl::Hidden, cl::init(0));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	140	static cl::opt<bool> ClKeepGoing("msan-keep-going",
				141	cl::desc("keep going after reporting a UMR"),
				142	cl::Hidden, cl::init(false));
				143	static cl::opt<bool> ClPoisonStack("msan-poison-stack",
				144	cl::desc("poison uninitialized stack variables"),
				145	cl::Hidden, cl::init(true));
				146	static cl::opt<bool> ClPoisonStackWithCall("msan-poison-stack-with-call",
				147	cl::desc("poison uninitialized stack variables with a call"),
				148	cl::Hidden, cl::init(false));
				149	static cl::opt<int> ClPoisonStackPattern("msan-poison-stack-pattern",
Evgeniy Stepanov	670abcf	2015-10-05 18:01:17 +0000	[diff] [blame]	150	cl::desc("poison uninitialized stack variables with the given pattern"),
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	151	cl::Hidden, cl::init(0xff));
Evgeniy Stepanov	a9a962c	2013-03-21 09:38:26 +0000	[diff] [blame]	152	static cl::opt<bool> ClPoisonUndef("msan-poison-undef",
				153	cl::desc("poison undef temps"),
				154	cl::Hidden, cl::init(true));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	155
				156	static cl::opt<bool> ClHandleICmp("msan-handle-icmp",
				157	cl::desc("propagate shadow through ICmpEQ and ICmpNE"),
				158	cl::Hidden, cl::init(true));
				159
Evgeniy Stepanov	fac8403	2013-01-25 15:31:10 +0000	[diff] [blame]	160	static cl::opt<bool> ClHandleICmpExact("msan-handle-icmp-exact",
				161	cl::desc("exact handling of relational integer ICmp"),
Evgeniy Stepanov	6f85ef3	2013-01-28 11:42:28 +0000	[diff] [blame]	162	cl::Hidden, cl::init(false));
Evgeniy Stepanov	fac8403	2013-01-25 15:31:10 +0000	[diff] [blame]	163
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	164	// This flag controls whether we check the shadow of the address
				165	// operand of load or store. Such bugs are very rare, since load from
				166	// a garbage address typically results in SEGV, but still happen
				167	// (e.g. only lower bits of address are garbage, or the access happens
				168	// early at program startup where malloc-ed memory is more likely to
				169	// be zeroed. As of 2012-08-28 this flag adds 20% slowdown.
				170	static cl::opt<bool> ClCheckAccessAddress("msan-check-access-address",
				171	cl::desc("report accesses through a pointer which has poisoned shadow"),
				172	cl::Hidden, cl::init(true));
				173
				174	static cl::opt<bool> ClDumpStrictInstructions("msan-dump-strict-instructions",
				175	cl::desc("print out instructions with default strict semantics"),
				176	cl::Hidden, cl::init(false));
				177
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	178	static cl::opt<int> ClInstrumentationWithCallThreshold(
				179	"msan-instrumentation-with-call-threshold",
				180	cl::desc(
				181	"If the function being instrumented requires more than "
				182	"this number of checks and origin stores, use callbacks instead of "
				183	"inline checks (-1 means never use callbacks)."),
Evgeniy Stepanov	3939f54	2014-04-21 15:04:05 +0000	[diff] [blame]	184	cl::Hidden, cl::init(3500));
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	185
Evgeniy Stepanov	7db296e	2014-10-23 01:05:46 +0000	[diff] [blame]	186	// This is an experiment to enable handling of cases where shadow is a non-zero
				187	// compile-time constant. For some unexplainable reason they were silently
				188	// ignored in the instrumentation.
				189	static cl::opt<bool> ClCheckConstantShadow("msan-check-constant-shadow",
				190	cl::desc("Insert checks for constant shadow values"),
				191	cl::Hidden, cl::init(false));
Evgeniy Stepanov	4b96ed6	2016-03-16 17:39:17 +0000	[diff] [blame]	192
				193	// This is off by default because of a bug in gold:
				194	// https://sourceware.org/bugzilla/show_bug.cgi?id=19002
Evgeniy Stepanov	d6e9136	2016-03-15 20:25:47 +0000	[diff] [blame]	195	static cl::opt<bool> ClWithComdat("msan-with-comdat",
				196	cl::desc("Place MSan constructors in comdat sections"),
				197	cl::Hidden, cl::init(false));
Evgeniy Stepanov	7db296e	2014-10-23 01:05:46 +0000	[diff] [blame]	198
Ismail Pazarbasi	e5048e1	2015-05-07 21:41:52 +0000	[diff] [blame]	199	static const char *const kMsanModuleCtorName = "msan.module_ctor";
				200	static const char *const kMsanInitName = "__msan_init";
				201
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	202	namespace {
				203
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	204	// Memory map parameters used in application-to-shadow address calculation.
				205	// Offset = (Addr & ~AndMask) ^ XorMask
				206	// Shadow = ShadowBase + Offset
				207	// Origin = OriginBase + Offset
				208	struct MemoryMapParams {
				209	uint64_t AndMask;
				210	uint64_t XorMask;
				211	uint64_t ShadowBase;
				212	uint64_t OriginBase;
				213	};
				214
				215	struct PlatformMemoryMapParams {
				216	const MemoryMapParams *bits32;
				217	const MemoryMapParams *bits64;
				218	};
				219
				220	// i386 Linux
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	221	static const MemoryMapParams Linux_I386_MemoryMapParams = {
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	222	0x000080000000, // AndMask
				223	0, // XorMask (not used)
				224	0, // ShadowBase (not used)
				225	0x000040000000, // OriginBase
				226	};
				227
				228	// x86_64 Linux
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	229	static const MemoryMapParams Linux_X86_64_MemoryMapParams = {
Evgeniy Stepanov	d12212b	2015-10-08 21:35:26 +0000	[diff] [blame]	230	#ifdef MSAN_LINUX_X86_64_OLD_MAPPING
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	231	0x400000000000, // AndMask
				232	0, // XorMask (not used)
				233	0, // ShadowBase (not used)
				234	0x200000000000, // OriginBase
Evgeniy Stepanov	d12212b	2015-10-08 21:35:26 +0000	[diff] [blame]	235	#else
				236	0, // AndMask (not used)
				237	0x500000000000, // XorMask
				238	0, // ShadowBase (not used)
				239	0x100000000000, // OriginBase
				240	#endif
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	241	};
				242
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	243	// mips64 Linux
				244	static const MemoryMapParams Linux_MIPS64_MemoryMapParams = {
				245	0x004000000000, // AndMask
				246	0, // XorMask (not used)
				247	0, // ShadowBase (not used)
				248	0x002000000000, // OriginBase
				249	};
				250
Jay Foad	7a28cdc	2015-06-25 10:34:29 +0000	[diff] [blame]	251	// ppc64 Linux
				252	static const MemoryMapParams Linux_PowerPC64_MemoryMapParams = {
				253	0x200000000000, // AndMask
				254	0x100000000000, // XorMask
				255	0x080000000000, // ShadowBase
				256	0x1C0000000000, // OriginBase
				257	};
				258
Adhemerval Zanella	f0c95bd	2015-09-16 15:10:27 +0000	[diff] [blame]	259	// aarch64 Linux
				260	static const MemoryMapParams Linux_AArch64_MemoryMapParams = {
Adhemerval Zanella	1edb084	2015-10-29 13:02:30 +0000	[diff] [blame]	261	0, // AndMask (not used)
				262	0x06000000000, // XorMask
				263	0, // ShadowBase (not used)
				264	0x01000000000, // OriginBase
Adhemerval Zanella	f0c95bd	2015-09-16 15:10:27 +0000	[diff] [blame]	265	};
				266
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	267	// i386 FreeBSD
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	268	static const MemoryMapParams FreeBSD_I386_MemoryMapParams = {
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	269	0x000180000000, // AndMask
				270	0x000040000000, // XorMask
				271	0x000020000000, // ShadowBase
				272	0x000700000000, // OriginBase
				273	};
				274
				275	// x86_64 FreeBSD
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	276	static const MemoryMapParams FreeBSD_X86_64_MemoryMapParams = {
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	277	0xc00000000000, // AndMask
				278	0x200000000000, // XorMask
				279	0x100000000000, // ShadowBase
				280	0x380000000000, // OriginBase
				281	};
				282
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	283	static const PlatformMemoryMapParams Linux_X86_MemoryMapParams = {
				284	&Linux_I386_MemoryMapParams,
				285	&Linux_X86_64_MemoryMapParams,
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	286	};
				287
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	288	static const PlatformMemoryMapParams Linux_MIPS_MemoryMapParams = {
Hans Wennborg	083ca9b	2015-10-06 23:24:35 +0000	[diff] [blame]	289	nullptr,
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	290	&Linux_MIPS64_MemoryMapParams,
				291	};
				292
Jay Foad	7a28cdc	2015-06-25 10:34:29 +0000	[diff] [blame]	293	static const PlatformMemoryMapParams Linux_PowerPC_MemoryMapParams = {
Hans Wennborg	083ca9b	2015-10-06 23:24:35 +0000	[diff] [blame]	294	nullptr,
Jay Foad	7a28cdc	2015-06-25 10:34:29 +0000	[diff] [blame]	295	&Linux_PowerPC64_MemoryMapParams,
				296	};
				297
Adhemerval Zanella	f0c95bd	2015-09-16 15:10:27 +0000	[diff] [blame]	298	static const PlatformMemoryMapParams Linux_ARM_MemoryMapParams = {
Hans Wennborg	083ca9b	2015-10-06 23:24:35 +0000	[diff] [blame]	299	nullptr,
Adhemerval Zanella	f0c95bd	2015-09-16 15:10:27 +0000	[diff] [blame]	300	&Linux_AArch64_MemoryMapParams,
				301	};
				302
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	303	static const PlatformMemoryMapParams FreeBSD_X86_MemoryMapParams = {
				304	&FreeBSD_I386_MemoryMapParams,
				305	&FreeBSD_X86_64_MemoryMapParams,
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	306	};
				307
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	308	/// \brief An instrumentation pass implementing detection of uninitialized
				309	/// reads.
				310	///
				311	/// MemorySanitizer: instrument the code in module to find
				312	/// uninitialized reads.
				313	class MemorySanitizer : public FunctionPass {
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	314	public:
Alexey Samsonov	6d8bab8	2014-06-02 18:08:27 +0000	[diff] [blame]	315	MemorySanitizer(int TrackOrigins = 0)
Evgeniy Stepanov	37b8645	2013-09-19 15:22:35 +0000	[diff] [blame]	316	: FunctionPass(ID),
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	317	TrackOrigins(std::max(TrackOrigins, (int)ClTrackOrigins)),
Evgeniy Stepanov	e402d9e	2014-11-27 14:54:02 +0000	[diff] [blame]	318	WarningFn(nullptr) {}
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	319	const char *getPassName() const override { return "MemorySanitizer"; }
Marcin Koscielnicki	3feda22	2016-06-18 10:10:37 +0000	[diff] [blame]	320	void getAnalysisUsage(AnalysisUsage &AU) const override {
				321	AU.addRequired<TargetLibraryInfoWrapperPass>();
				322	}
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	323	bool runOnFunction(Function &F) override;
				324	bool doInitialization(Module &M) override;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	325	static char ID; // Pass identification, replacement for typeid.
				326
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	327	private:
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	328	void initializeCallbacks(Module &M);
				329
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	330	/// \brief Track origins (allocation points) of uninitialized values.
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	331	int TrackOrigins;
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	332
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	333	LLVMContext *C;
				334	Type *IntptrTy;
				335	Type *OriginTy;
				336	/// \brief Thread-local shadow storage for function parameters.
				337	GlobalVariable *ParamTLS;
				338	/// \brief Thread-local origin storage for function parameters.
				339	GlobalVariable *ParamOriginTLS;
				340	/// \brief Thread-local shadow storage for function return value.
				341	GlobalVariable *RetvalTLS;
				342	/// \brief Thread-local origin storage for function return value.
				343	GlobalVariable *RetvalOriginTLS;
				344	/// \brief Thread-local shadow storage for in-register va_arg function
				345	/// parameters (x86_64-specific).
				346	GlobalVariable *VAArgTLS;
				347	/// \brief Thread-local shadow storage for va_arg overflow area
				348	/// (x86_64-specific).
				349	GlobalVariable *VAArgOverflowSizeTLS;
				350	/// \brief Thread-local space used to pass origin value to the UMR reporting
				351	/// function.
				352	GlobalVariable *OriginTLS;
				353
				354	/// \brief The run-time callback to print a warning.
				355	Value *WarningFn;
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	356	// These arrays are indexed by log2(AccessSize).
				357	Value *MaybeWarningFn[kNumberOfAccessSizes];
				358	Value *MaybeStoreOriginFn[kNumberOfAccessSizes];
				359
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	360	/// \brief Run-time helper that generates a new origin value for a stack
				361	/// allocation.
Evgeniy Stepanov	0435ecd	2013-09-13 12:54:49 +0000	[diff] [blame]	362	Value *MsanSetAllocaOrigin4Fn;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	363	/// \brief Run-time helper that poisons stack on function entry.
				364	Value *MsanPoisonStackFn;
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	365	/// \brief Run-time helper that records a store (or any event) of an
				366	/// uninitialized value and returns an updated origin id encoding this info.
				367	Value *MsanChainOriginFn;
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	368	/// \brief MSan runtime replacements for memmove, memcpy and memset.
				369	Value MemmoveFn, MemcpyFn, *MemsetFn;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	370
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	371	/// \brief Memory map parameters used in application-to-shadow calculation.
				372	const MemoryMapParams *MapParams;
				373
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	374	MDNode *ColdCallWeights;
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	375	/// \brief Branch weights for origin store.
				376	MDNode *OriginStoreWeights;
Evgeniy Stepanov	1d2da65	2012-11-29 12:30:18 +0000	[diff] [blame]	377	/// \brief An empty volatile inline asm that prevents callback merge.
				378	InlineAsm *EmptyAsm;
Ismail Pazarbasi	e5048e1	2015-05-07 21:41:52 +0000	[diff] [blame]	379	Function *MsanCtorFunction;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	380
Evgeniy Stepanov	da0072b	2012-11-29 13:12:03 +0000	[diff] [blame]	381	friend struct MemorySanitizerVisitor;
				382	friend struct VarArgAMD64Helper;
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	383	friend struct VarArgMIPS64Helper;
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	384	friend struct VarArgAArch64Helper;
Marcin Koscielnicki	a4fcd36	2016-05-13 23:55:33 +0000	[diff] [blame]	385	friend struct VarArgPowerPC64Helper;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	386	};
Hans Wennborg	083ca9b	2015-10-06 23:24:35 +0000	[diff] [blame]	387	} // anonymous namespace
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	388
				389	char MemorySanitizer::ID = 0;
Marcin Koscielnicki	3feda22	2016-06-18 10:10:37 +0000	[diff] [blame]	390	INITIALIZE_PASS_BEGIN(
				391	MemorySanitizer, "msan",
				392	"MemorySanitizer: detects uninitialized reads.", false, false)
				393	INITIALIZE_PASS_DEPENDENCY(TargetLibraryInfoWrapperPass)
				394	INITIALIZE_PASS_END(
				395	MemorySanitizer, "msan",
				396	"MemorySanitizer: detects uninitialized reads.", false, false)
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	397
Alexey Samsonov	6d8bab8	2014-06-02 18:08:27 +0000	[diff] [blame]	398	FunctionPass *llvm::createMemorySanitizerPass(int TrackOrigins) {
				399	return new MemorySanitizer(TrackOrigins);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	400	}
				401
				402	/// \brief Create a non-const global initialized with the given string.
				403	///
				404	/// Creates a writable global for Str so that we can pass it to the
				405	/// run-time lib. Runtime uses first 4 bytes of the string to store the
				406	/// frame ID, so the string needs to be mutable.
				407	static GlobalVariable *createPrivateNonConstGlobalForString(Module &M,
				408	StringRef Str) {
				409	Constant *StrConst = ConstantDataArray::getString(M.getContext(), Str);
				410	return new GlobalVariable(M, StrConst->getType(), /isConstant=/false,
				411	GlobalValue::PrivateLinkage, StrConst, "");
				412	}
				413
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	414	/// \brief Insert extern declaration of runtime-provided functions and globals.
				415	void MemorySanitizer::initializeCallbacks(Module &M) {
				416	// Only do this once.
				417	if (WarningFn)
				418	return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	419
				420	IRBuilder<> IRB(*C);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	421	// Create the callback.
				422	// FIXME: this function should have "Cold" calling conv,
				423	// which is not yet implemented.
				424	StringRef WarningFnName = ClKeepGoing ? "__msan_warning"
				425	: "__msan_warning_noreturn";
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	426	WarningFn = M.getOrInsertFunction(WarningFnName, IRB.getVoidTy(), nullptr);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	427
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	428	for (size_t AccessSizeIndex = 0; AccessSizeIndex < kNumberOfAccessSizes;
				429	AccessSizeIndex++) {
				430	unsigned AccessSize = 1 << AccessSizeIndex;
				431	std::string FunctionName = "__msan_maybe_warning_" + itostr(AccessSize);
				432	MaybeWarningFn[AccessSizeIndex] = M.getOrInsertFunction(
				433	FunctionName, IRB.getVoidTy(), IRB.getIntNTy(AccessSize * 8),
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	434	IRB.getInt32Ty(), nullptr);
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	435
				436	FunctionName = "__msan_maybe_store_origin_" + itostr(AccessSize);
				437	MaybeStoreOriginFn[AccessSizeIndex] = M.getOrInsertFunction(
				438	FunctionName, IRB.getVoidTy(), IRB.getIntNTy(AccessSize * 8),
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	439	IRB.getInt8PtrTy(), IRB.getInt32Ty(), nullptr);
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	440	}
				441
Evgeniy Stepanov	0435ecd	2013-09-13 12:54:49 +0000	[diff] [blame]	442	MsanSetAllocaOrigin4Fn = M.getOrInsertFunction(
				443	"__msan_set_alloca_origin4", IRB.getVoidTy(), IRB.getInt8PtrTy(), IntptrTy,
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	444	IRB.getInt8PtrTy(), IntptrTy, nullptr);
David Blaikie	a92765c	2014-11-14 00:41:42 +0000	[diff] [blame]	445	MsanPoisonStackFn =
				446	M.getOrInsertFunction("__msan_poison_stack", IRB.getVoidTy(),
				447	IRB.getInt8PtrTy(), IntptrTy, nullptr);
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	448	MsanChainOriginFn = M.getOrInsertFunction(
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	449	"__msan_chain_origin", IRB.getInt32Ty(), IRB.getInt32Ty(), nullptr);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	450	MemmoveFn = M.getOrInsertFunction(
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	451	"__msan_memmove", IRB.getInt8PtrTy(), IRB.getInt8PtrTy(),
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	452	IRB.getInt8PtrTy(), IntptrTy, nullptr);
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	453	MemcpyFn = M.getOrInsertFunction(
				454	"__msan_memcpy", IRB.getInt8PtrTy(), IRB.getInt8PtrTy(), IRB.getInt8PtrTy(),
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	455	IntptrTy, nullptr);
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	456	MemsetFn = M.getOrInsertFunction(
				457	"__msan_memset", IRB.getInt8PtrTy(), IRB.getInt8PtrTy(), IRB.getInt32Ty(),
Reid Kleckner	971c3ea	2014-11-13 22:55:19 +0000	[diff] [blame]	458	IntptrTy, nullptr);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	459
				460	// Create globals.
				461	RetvalTLS = new GlobalVariable(
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	462	M, ArrayType::get(IRB.getInt64Ty(), kRetvalTLSSize / 8), false,
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	463	GlobalVariable::ExternalLinkage, nullptr, "__msan_retval_tls", nullptr,
Evgeniy Stepanov	1e76432	2013-05-16 09:14:05 +0000	[diff] [blame]	464	GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	465	RetvalOriginTLS = new GlobalVariable(
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	466	M, OriginTy, false, GlobalVariable::ExternalLinkage, nullptr,
				467	"__msan_retval_origin_tls", nullptr, GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	468
				469	ParamTLS = new GlobalVariable(
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	470	M, ArrayType::get(IRB.getInt64Ty(), kParamTLSSize / 8), false,
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	471	GlobalVariable::ExternalLinkage, nullptr, "__msan_param_tls", nullptr,
Evgeniy Stepanov	1e76432	2013-05-16 09:14:05 +0000	[diff] [blame]	472	GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	473	ParamOriginTLS = new GlobalVariable(
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	474	M, ArrayType::get(OriginTy, kParamTLSSize / 4), false,
				475	GlobalVariable::ExternalLinkage, nullptr, "__msan_param_origin_tls",
				476	nullptr, GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	477
				478	VAArgTLS = new GlobalVariable(
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	479	M, ArrayType::get(IRB.getInt64Ty(), kParamTLSSize / 8), false,
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	480	GlobalVariable::ExternalLinkage, nullptr, "__msan_va_arg_tls", nullptr,
Evgeniy Stepanov	1e76432	2013-05-16 09:14:05 +0000	[diff] [blame]	481	GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	482	VAArgOverflowSizeTLS = new GlobalVariable(
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	483	M, IRB.getInt64Ty(), false, GlobalVariable::ExternalLinkage, nullptr,
				484	"__msan_va_arg_overflow_size_tls", nullptr,
Evgeniy Stepanov	1e76432	2013-05-16 09:14:05 +0000	[diff] [blame]	485	GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	486	OriginTLS = new GlobalVariable(
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	487	M, IRB.getInt32Ty(), false, GlobalVariable::ExternalLinkage, nullptr,
				488	"__msan_origin_tls", nullptr, GlobalVariable::InitialExecTLSModel);
Evgeniy Stepanov	1d2da65	2012-11-29 12:30:18 +0000	[diff] [blame]	489
				490	// We insert an empty inline asm after __msan_report* to avoid callback merge.
				491	EmptyAsm = InlineAsm::get(FunctionType::get(IRB.getVoidTy(), false),
				492	StringRef(""), StringRef(""),
				493	/hasSideEffects=/true);
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	494	}
				495
				496	/// \brief Module-level initialization.
				497	///
				498	/// inserts a call to __msan_init to the module's constructor list.
				499	bool MemorySanitizer::doInitialization(Module &M) {
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	500	auto &DL = M.getDataLayout();
Rafael Espindola	9351251	2014-02-25 17:30:31 +0000	[diff] [blame]	501
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	502	Triple TargetTriple(M.getTargetTriple());
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	503	switch (TargetTriple.getOS()) {
				504	case Triple::FreeBSD:
				505	switch (TargetTriple.getArch()) {
				506	case Triple::x86_64:
				507	MapParams = FreeBSD_X86_MemoryMapParams.bits64;
				508	break;
				509	case Triple::x86:
				510	MapParams = FreeBSD_X86_MemoryMapParams.bits32;
				511	break;
				512	default:
				513	report_fatal_error("unsupported architecture");
				514	}
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	515	break;
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	516	case Triple::Linux:
				517	switch (TargetTriple.getArch()) {
				518	case Triple::x86_64:
				519	MapParams = Linux_X86_MemoryMapParams.bits64;
				520	break;
				521	case Triple::x86:
				522	MapParams = Linux_X86_MemoryMapParams.bits32;
				523	break;
				524	case Triple::mips64:
				525	case Triple::mips64el:
				526	MapParams = Linux_MIPS_MemoryMapParams.bits64;
				527	break;
Jay Foad	7a28cdc	2015-06-25 10:34:29 +0000	[diff] [blame]	528	case Triple::ppc64:
				529	case Triple::ppc64le:
				530	MapParams = Linux_PowerPC_MemoryMapParams.bits64;
				531	break;
Adhemerval Zanella	f0c95bd	2015-09-16 15:10:27 +0000	[diff] [blame]	532	case Triple::aarch64:
				533	case Triple::aarch64_be:
				534	MapParams = Linux_ARM_MemoryMapParams.bits64;
				535	break;
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	536	default:
				537	report_fatal_error("unsupported architecture");
				538	}
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	539	break;
				540	default:
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	541	report_fatal_error("unsupported operating system");
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	542	}
				543
Mohit K. Bhakkad	46ad7f7	2015-01-20 13:05:42 +0000	[diff] [blame]	544	C = &(M.getContext());
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	545	IRBuilder<> IRB(*C);
Rafael Espindola	37dc9e1	2014-02-21 00:06:31 +0000	[diff] [blame]	546	IntptrTy = IRB.getIntPtrTy(DL);
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	547	OriginTy = IRB.getInt32Ty();
				548
				549	ColdCallWeights = MDBuilder(*C).createBranchWeights(1, 1000);
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	550	OriginStoreWeights = MDBuilder(*C).createBranchWeights(1, 1000);
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	551
Ismail Pazarbasi	e5048e1	2015-05-07 21:41:52 +0000	[diff] [blame]	552	std::tie(MsanCtorFunction, std::ignore) =
				553	createSanitizerCtorAndInitFunctions(M, kMsanModuleCtorName, kMsanInitName,
				554	/InitArgTypes=/{},
				555	/InitArgs=/{});
Evgeniy Stepanov	d6e9136	2016-03-15 20:25:47 +0000	[diff] [blame]	556	if (ClWithComdat) {
				557	Comdat *MsanCtorComdat = M.getOrInsertComdat(kMsanModuleCtorName);
				558	MsanCtorFunction->setComdat(MsanCtorComdat);
				559	appendToGlobalCtors(M, MsanCtorFunction, 0, MsanCtorFunction);
				560	} else {
				561	appendToGlobalCtors(M, MsanCtorFunction, 0);
				562	}
Ismail Pazarbasi	e5048e1	2015-05-07 21:41:52 +0000	[diff] [blame]	563
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	564
Evgeniy Stepanov	888385e	2013-05-31 12:04:29 +0000	[diff] [blame]	565	if (TrackOrigins)
				566	new GlobalVariable(M, IRB.getInt32Ty(), true, GlobalValue::WeakODRLinkage,
				567	IRB.getInt32(TrackOrigins), "__msan_track_origins");
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	568
Evgeniy Stepanov	888385e	2013-05-31 12:04:29 +0000	[diff] [blame]	569	if (ClKeepGoing)
				570	new GlobalVariable(M, IRB.getInt32Ty(), true, GlobalValue::WeakODRLinkage,
				571	IRB.getInt32(ClKeepGoing), "__msan_keep_going");
Evgeniy Stepanov	dcf6bcb	2013-01-22 13:26:53 +0000	[diff] [blame]	572
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	573	return true;
				574	}
				575
				576	namespace {
				577
				578	/// \brief A helper class that handles instrumentation of VarArg
				579	/// functions on a particular platform.
				580	///
				581	/// Implementations are expected to insert the instrumentation
				582	/// necessary to propagate argument shadow through VarArg function
				583	/// calls. Visit* methods are called during an InstVisitor pass over
				584	/// the function, and should avoid creating new basic blocks. A new
				585	/// instance of this class is created for each instrumented function.
				586	struct VarArgHelper {
				587	/// \brief Visit a CallSite.
				588	virtual void visitCallSite(CallSite &CS, IRBuilder<> &IRB) = 0;
				589
				590	/// \brief Visit a va_start call.
				591	virtual void visitVAStartInst(VAStartInst &I) = 0;
				592
				593	/// \brief Visit a va_copy call.
				594	virtual void visitVACopyInst(VACopyInst &I) = 0;
				595
				596	/// \brief Finalize function instrumentation.
				597	///
				598	/// This method is called after visiting all interesting (see above)
				599	/// instructions in a function.
				600	virtual void finalizeInstrumentation() = 0;
Evgeniy Stepanov	da0072b	2012-11-29 13:12:03 +0000	[diff] [blame]	601
				602	virtual ~VarArgHelper() {}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	603	};
				604
				605	struct MemorySanitizerVisitor;
				606
				607	VarArgHelper*
				608	CreateVarArgHelper(Function &Func, MemorySanitizer &Msan,
				609	MemorySanitizerVisitor &Visitor);
				610
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	611	unsigned TypeSizeToSizeIndex(unsigned TypeSize) {
				612	if (TypeSize <= 8) return 0;
Evgeniy Stepanov	b736335	2016-07-01 22:49:59 +0000	[diff] [blame^]	613	return Log2_32_Ceil((TypeSize + 7) / 8);
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	614	}
				615
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	616	/// This class does all the work for a given function. Store and Load
				617	/// instructions store and load corresponding shadow and origin
				618	/// values. Most instructions propagate shadow from arguments to their
				619	/// return values. Certain instructions (most importantly, BranchInst)
				620	/// test their argument shadow and print reports (with a runtime call) if it's
				621	/// non-zero.
				622	struct MemorySanitizerVisitor : public InstVisitor<MemorySanitizerVisitor> {
				623	Function &F;
				624	MemorySanitizer &MS;
				625	SmallVector<PHINode *, 16> ShadowPHINodes, OriginPHINodes;
				626	ValueMap<Value, Value> ShadowMap, OriginMap;
Ahmed Charles	56440fd	2014-03-06 05:51:42 +0000	[diff] [blame]	627	std::unique_ptr<VarArgHelper> VAHelper;
Marcin Koscielnicki	3feda22	2016-06-18 10:10:37 +0000	[diff] [blame]	628	const TargetLibraryInfo *TLI;
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	629
				630	// The following flags disable parts of MSan instrumentation based on
				631	// blacklist contents and command-line options.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	632	bool InsertChecks;
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	633	bool PropagateShadow;
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	634	bool PoisonStack;
				635	bool PoisonUndef;
Evgeniy Stepanov	604293f	2013-09-16 13:24:32 +0000	[diff] [blame]	636	bool CheckReturnValue;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	637
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	638	struct ShadowOriginAndInsertPoint {
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	639	Value *Shadow;
				640	Value *Origin;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	641	Instruction *OrigIns;
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	642	ShadowOriginAndInsertPoint(Value S, Value O, Instruction *I)
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	643	: Shadow(S), Origin(O), OrigIns(I) { }
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	644	};
				645	SmallVector<ShadowOriginAndInsertPoint, 16> InstrumentationList;
Benjamin Kramer	4c137db	2016-06-27 12:25:23 +0000	[diff] [blame]	646	SmallVector<StoreInst *, 16> StoreList;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	647
				648	MemorySanitizerVisitor(Function &F, MemorySanitizer &MS)
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	649	: F(F), MS(MS), VAHelper(CreateVarArgHelper(F, MS, *this)) {
Duncan P. N. Exon Smith	2c79ad9	2015-02-14 01:11:29 +0000	[diff] [blame]	650	bool SanitizeFunction = F.hasFnAttribute(Attribute::SanitizeMemory);
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	651	InsertChecks = SanitizeFunction;
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	652	PropagateShadow = SanitizeFunction;
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	653	PoisonStack = SanitizeFunction && ClPoisonStack;
				654	PoisonUndef = SanitizeFunction && ClPoisonUndef;
Evgeniy Stepanov	604293f	2013-09-16 13:24:32 +0000	[diff] [blame]	655	// FIXME: Consider using SpecialCaseList to specify a list of functions that
				656	// must always return fully initialized values. For now, we hardcode "main".
				657	CheckReturnValue = SanitizeFunction && (F.getName() == "main");
Marcin Koscielnicki	3feda22	2016-06-18 10:10:37 +0000	[diff] [blame]	658	TLI = &MS.getAnalysis<TargetLibraryInfoWrapperPass>().getTLI();
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	659
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	660	DEBUG(if (!InsertChecks)
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	661	dbgs() << "MemorySanitizer is not inserting checks into '"
				662	<< F.getName() << "'\n");
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	663	}
				664
Evgeniy Stepanov	302964e	2014-03-18 13:30:56 +0000	[diff] [blame]	665	Value updateOrigin(Value V, IRBuilder<> &IRB) {
				666	if (MS.TrackOrigins <= 1) return V;
				667	return IRB.CreateCall(MS.MsanChainOriginFn, V);
				668	}
				669
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	670	Value originToIntptr(IRBuilder<> &IRB, Value Origin) {
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	671	const DataLayout &DL = F.getParent()->getDataLayout();
				672	unsigned IntptrSize = DL.getTypeStoreSize(MS.IntptrTy);
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	673	if (IntptrSize == kOriginSize) return Origin;
				674	assert(IntptrSize == kOriginSize * 2);
				675	Origin = IRB.CreateIntCast(Origin, MS.IntptrTy, /* isSigned */ false);
				676	return IRB.CreateOr(Origin, IRB.CreateShl(Origin, kOriginSize * 8));
				677	}
				678
				679	/// \brief Fill memory range with the given origin value.
				680	void paintOrigin(IRBuilder<> &IRB, Value Origin, Value OriginPtr,
				681	unsigned Size, unsigned Alignment) {
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	682	const DataLayout &DL = F.getParent()->getDataLayout();
				683	unsigned IntptrAlignment = DL.getABITypeAlignment(MS.IntptrTy);
				684	unsigned IntptrSize = DL.getTypeStoreSize(MS.IntptrTy);
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	685	assert(IntptrAlignment >= kMinOriginAlignment);
				686	assert(IntptrSize >= kOriginSize);
				687
				688	unsigned Ofs = 0;
				689	unsigned CurrentAlignment = Alignment;
				690	if (Alignment >= IntptrAlignment && IntptrSize > kOriginSize) {
				691	Value *IntptrOrigin = originToIntptr(IRB, Origin);
				692	Value *IntptrOriginPtr =
				693	IRB.CreatePointerCast(OriginPtr, PointerType::get(MS.IntptrTy, 0));
				694	for (unsigned i = 0; i < Size / IntptrSize; ++i) {
David Blaikie	95d3e53	2015-04-03 23:03:54 +0000	[diff] [blame]	695	Value *Ptr = i ? IRB.CreateConstGEP1_32(MS.IntptrTy, IntptrOriginPtr, i)
				696	: IntptrOriginPtr;
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	697	IRB.CreateAlignedStore(IntptrOrigin, Ptr, CurrentAlignment);
				698	Ofs += IntptrSize / kOriginSize;
				699	CurrentAlignment = IntptrAlignment;
				700	}
				701	}
				702
				703	for (unsigned i = Ofs; i < (Size + kOriginSize - 1) / kOriginSize; ++i) {
David Blaikie	95d3e53	2015-04-03 23:03:54 +0000	[diff] [blame]	704	Value *GEP =
				705	i ? IRB.CreateConstGEP1_32(nullptr, OriginPtr, i) : OriginPtr;
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	706	IRB.CreateAlignedStore(Origin, GEP, CurrentAlignment);
				707	CurrentAlignment = kMinOriginAlignment;
				708	}
				709	}
				710
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	711	void storeOrigin(IRBuilder<> &IRB, Value Addr, Value Shadow, Value *Origin,
				712	unsigned Alignment, bool AsCall) {
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	713	const DataLayout &DL = F.getParent()->getDataLayout();
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	714	unsigned OriginAlignment = std::max(kMinOriginAlignment, Alignment);
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	715	unsigned StoreSize = DL.getTypeStoreSize(Shadow->getType());
Adhemerval Zanella	e600c99	2016-01-11 19:55:27 +0000	[diff] [blame]	716	if (Shadow->getType()->isAggregateType()) {
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	717	paintOrigin(IRB, updateOrigin(Origin, IRB),
				718	getOriginPtr(Addr, IRB, Alignment), StoreSize,
				719	OriginAlignment);
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	720	} else {
				721	Value *ConvertedShadow = convertToShadowTyNoVec(Shadow, IRB);
Evgeniy Stepanov	c5b974e	2015-01-20 15:21:35 +0000	[diff] [blame]	722	Constant *ConstantShadow = dyn_cast_or_null<Constant>(ConvertedShadow);
				723	if (ConstantShadow) {
				724	if (ClCheckConstantShadow && !ConstantShadow->isZeroValue())
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	725	paintOrigin(IRB, updateOrigin(Origin, IRB),
				726	getOriginPtr(Addr, IRB, Alignment), StoreSize,
				727	OriginAlignment);
Evgeniy Stepanov	c5b974e	2015-01-20 15:21:35 +0000	[diff] [blame]	728	return;
				729	}
				730
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	731	unsigned TypeSizeInBits =
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	732	DL.getTypeSizeInBits(ConvertedShadow->getType());
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	733	unsigned SizeIndex = TypeSizeToSizeIndex(TypeSizeInBits);
				734	if (AsCall && SizeIndex < kNumberOfAccessSizes) {
				735	Value *Fn = MS.MaybeStoreOriginFn[SizeIndex];
				736	Value *ConvertedShadow2 = IRB.CreateZExt(
				737	ConvertedShadow, IRB.getIntNTy(8 * (1 << SizeIndex)));
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	738	IRB.CreateCall(Fn, {ConvertedShadow2,
				739	IRB.CreatePointerCast(Addr, IRB.getInt8PtrTy()),
				740	Origin});
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	741	} else {
				742	Value *Cmp = IRB.CreateICmpNE(
				743	ConvertedShadow, getCleanShadow(ConvertedShadow), "_mscmp");
				744	Instruction *CheckTerm = SplitBlockAndInsertIfThen(
Duncan P. N. Exon Smith	e82c286	2015-10-13 17:39:10 +0000	[diff] [blame]	745	Cmp, &*IRB.GetInsertPoint(), false, MS.OriginStoreWeights);
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	746	IRBuilder<> IRBNew(CheckTerm);
Evgeniy Stepanov	79ca0fd	2015-01-21 13:21:31 +0000	[diff] [blame]	747	paintOrigin(IRBNew, updateOrigin(Origin, IRBNew),
				748	getOriginPtr(Addr, IRBNew, Alignment), StoreSize,
				749	OriginAlignment);
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	750	}
				751	}
				752	}
				753
				754	void materializeStores(bool InstrumentWithCalls) {
Benjamin Kramer	4c137db	2016-06-27 12:25:23 +0000	[diff] [blame]	755	for (StoreInst *SI : StoreList) {
				756	IRBuilder<> IRB(SI);
				757	Value *Val = SI->getValueOperand();
				758	Value *Addr = SI->getPointerOperand();
				759	Value *Shadow = SI->isAtomic() ? getCleanShadow(Val) : getShadow(Val);
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	760	Value *ShadowPtr = getShadowPtr(Addr, Shadow->getType(), IRB);
				761
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	762	StoreInst *NewSI =
Benjamin Kramer	4c137db	2016-06-27 12:25:23 +0000	[diff] [blame]	763	IRB.CreateAlignedStore(Shadow, ShadowPtr, SI->getAlignment());
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	764	DEBUG(dbgs() << " STORE: " << *NewSI << "\n");
NAKAMURA Takumi	e0b1b46	2012-12-06 13:38:00 +0000	[diff] [blame]	765	(void)NewSI;
Evgeniy Stepanov	c441559	2013-01-22 12:30:52 +0000	[diff] [blame]	766
Benjamin Kramer	4c137db	2016-06-27 12:25:23 +0000	[diff] [blame]	767	if (ClCheckAccessAddress)
				768	insertShadowCheck(Addr, SI);
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	769
Benjamin Kramer	4c137db	2016-06-27 12:25:23 +0000	[diff] [blame]	770	if (SI->isAtomic())
				771	SI->setOrdering(addReleaseOrdering(SI->getOrdering()));
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	772
Benjamin Kramer	4c137db	2016-06-27 12:25:23 +0000	[diff] [blame]	773	if (MS.TrackOrigins && !SI->isAtomic())
				774	storeOrigin(IRB, Addr, Shadow, getOrigin(Val), SI->getAlignment(),
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	775	InstrumentWithCalls);
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	776	}
				777	}
				778
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	779	void materializeOneCheck(Instruction OrigIns, Value Shadow, Value *Origin,
				780	bool AsCall) {
				781	IRBuilder<> IRB(OrigIns);
				782	DEBUG(dbgs() << " SHAD0 : " << *Shadow << "\n");
				783	Value *ConvertedShadow = convertToShadowTyNoVec(Shadow, IRB);
				784	DEBUG(dbgs() << " SHAD1 : " << *ConvertedShadow << "\n");
Evgeniy Stepanov	c5b974e	2015-01-20 15:21:35 +0000	[diff] [blame]	785
				786	Constant *ConstantShadow = dyn_cast_or_null<Constant>(ConvertedShadow);
				787	if (ConstantShadow) {
				788	if (ClCheckConstantShadow && !ConstantShadow->isZeroValue()) {
				789	if (MS.TrackOrigins) {
				790	IRB.CreateStore(Origin ? (Value )Origin : (Value )IRB.getInt32(0),
				791	MS.OriginTLS);
				792	}
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	793	IRB.CreateCall(MS.WarningFn, {});
				794	IRB.CreateCall(MS.EmptyAsm, {});
Evgeniy Stepanov	c5b974e	2015-01-20 15:21:35 +0000	[diff] [blame]	795	// FIXME: Insert UnreachableInst if !ClKeepGoing?
				796	// This may invalidate some of the following checks and needs to be done
				797	// at the very end.
				798	}
				799	return;
				800	}
				801
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	802	const DataLayout &DL = OrigIns->getModule()->getDataLayout();
				803
				804	unsigned TypeSizeInBits = DL.getTypeSizeInBits(ConvertedShadow->getType());
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	805	unsigned SizeIndex = TypeSizeToSizeIndex(TypeSizeInBits);
				806	if (AsCall && SizeIndex < kNumberOfAccessSizes) {
				807	Value *Fn = MS.MaybeWarningFn[SizeIndex];
				808	Value *ConvertedShadow2 =
				809	IRB.CreateZExt(ConvertedShadow, IRB.getIntNTy(8 * (1 << SizeIndex)));
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	810	IRB.CreateCall(Fn, {ConvertedShadow2, MS.TrackOrigins && Origin
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	811	? Origin
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	812	: (Value *)IRB.getInt32(0)});
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	813	} else {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	814	Value *Cmp = IRB.CreateICmpNE(ConvertedShadow,
				815	getCleanShadow(ConvertedShadow), "_mscmp");
Evgeniy Stepanov	a9164e9	2013-12-19 13:29:56 +0000	[diff] [blame]	816	Instruction *CheckTerm = SplitBlockAndInsertIfThen(
				817	Cmp, OrigIns,
				818	/* Unreachable */ !ClKeepGoing, MS.ColdCallWeights);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	819
				820	IRB.SetInsertPoint(CheckTerm);
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	821	if (MS.TrackOrigins) {
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	822	IRB.CreateStore(Origin ? (Value )Origin : (Value )IRB.getInt32(0),
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	823	MS.OriginTLS);
				824	}
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	825	IRB.CreateCall(MS.WarningFn, {});
				826	IRB.CreateCall(MS.EmptyAsm, {});
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	827	DEBUG(dbgs() << " CHECK: " << *Cmp << "\n");
				828	}
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	829	}
				830
				831	void materializeChecks(bool InstrumentWithCalls) {
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	832	for (const auto &ShadowData : InstrumentationList) {
				833	Instruction *OrigIns = ShadowData.OrigIns;
				834	Value *Shadow = ShadowData.Shadow;
				835	Value *Origin = ShadowData.Origin;
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	836	materializeOneCheck(OrigIns, Shadow, Origin, InstrumentWithCalls);
				837	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	838	DEBUG(dbgs() << "DONE:\n" << F);
				839	}
				840
				841	/// \brief Add MemorySanitizer instrumentation to a function.
				842	bool runOnFunction() {
Evgeniy Stepanov	94b257d	2012-12-05 13:14:33 +0000	[diff] [blame]	843	MS.initializeCallbacks(*F.getParent());
Evgeniy Stepanov	4fbc0d08	2012-12-21 11:18:49 +0000	[diff] [blame]	844
				845	// In the presence of unreachable blocks, we may see Phi nodes with
				846	// incoming nodes from such blocks. Since InstVisitor skips unreachable
				847	// blocks, such nodes will not have any shadow value associated with them.
				848	// It's easier to remove unreachable blocks than deal with missing shadow.
				849	removeUnreachableBlocks(F);
				850
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	851	// Iterate all BBs in depth-first order and create shadow instructions
				852	// for all instructions (where applicable).
				853	// For PHI nodes we create dummy shadow PHIs which will be finalized later.
David Blaikie	ceec2bd	2014-04-11 01:50:01 +0000	[diff] [blame]	854	for (BasicBlock *BB : depth_first(&F.getEntryBlock()))
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	855	visit(*BB);
David Blaikie	ceec2bd	2014-04-11 01:50:01 +0000	[diff] [blame]	856
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	857
				858	// Finalize PHI nodes.
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	859	for (PHINode *PN : ShadowPHINodes) {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	860	PHINode *PNS = cast<PHINode>(getShadow(PN));
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	861	PHINode *PNO = MS.TrackOrigins ? cast<PHINode>(getOrigin(PN)) : nullptr;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	862	size_t NumValues = PN->getNumIncomingValues();
				863	for (size_t v = 0; v < NumValues; v++) {
				864	PNS->addIncoming(getShadow(PN, v), PN->getIncomingBlock(v));
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	865	if (PNO) PNO->addIncoming(getOrigin(PN, v), PN->getIncomingBlock(v));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	866	}
				867	}
				868
				869	VAHelper->finalizeInstrumentation();
				870
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	871	bool InstrumentWithCalls = ClInstrumentationWithCallThreshold >= 0 &&
				872	InstrumentationList.size() + StoreList.size() >
				873	(unsigned)ClInstrumentationWithCallThreshold;
				874
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	875	// Delayed instrumentation of StoreInst.
Evgeniy Stepanov	47ac9ba	2012-12-06 11:58:59 +0000	[diff] [blame]	876	// This may add new checks to be inserted later.
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	877	materializeStores(InstrumentWithCalls);
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	878
				879	// Insert shadow value checks.
Evgeniy Stepanov	65120ec	2014-04-18 12:17:20 +0000	[diff] [blame]	880	materializeChecks(InstrumentWithCalls);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	881
				882	return true;
				883	}
				884
				885	/// \brief Compute the shadow type that corresponds to a given Value.
				886	Type getShadowTy(Value V) {
				887	return getShadowTy(V->getType());
				888	}
				889
				890	/// \brief Compute the shadow type that corresponds to a given Type.
				891	Type getShadowTy(Type OrigTy) {
				892	if (!OrigTy->isSized()) {
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	893	return nullptr;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	894	}
				895	// For integer type, shadow is the same as the original type.
				896	// This may return weird-sized types like i1.
				897	if (IntegerType *IT = dyn_cast<IntegerType>(OrigTy))
				898	return IT;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	899	const DataLayout &DL = F.getParent()->getDataLayout();
Evgeniy Stepanov	f19c086	2012-12-25 16:04:38 +0000	[diff] [blame]	900	if (VectorType *VT = dyn_cast<VectorType>(OrigTy)) {
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	901	uint32_t EltSize = DL.getTypeSizeInBits(VT->getElementType());
Evgeniy Stepanov	f19c086	2012-12-25 16:04:38 +0000	[diff] [blame]	902	return VectorType::get(IntegerType::get(*MS.C, EltSize),
				903	VT->getNumElements());
				904	}
Evgeniy Stepanov	5997feb	2014-07-31 11:02:27 +0000	[diff] [blame]	905	if (ArrayType *AT = dyn_cast<ArrayType>(OrigTy)) {
				906	return ArrayType::get(getShadowTy(AT->getElementType()),
				907	AT->getNumElements());
				908	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	909	if (StructType *ST = dyn_cast<StructType>(OrigTy)) {
				910	SmallVector<Type*, 4> Elements;
				911	for (unsigned i = 0, n = ST->getNumElements(); i < n; i++)
				912	Elements.push_back(getShadowTy(ST->getElementType(i)));
				913	StructType Res = StructType::get(MS.C, Elements, ST->isPacked());
				914	DEBUG(dbgs() << "getShadowTy: " << ST << " ===> " << Res << "\n");
				915	return Res;
				916	}
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	917	uint32_t TypeSize = DL.getTypeSizeInBits(OrigTy);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	918	return IntegerType::get(*MS.C, TypeSize);
				919	}
				920
				921	/// \brief Flatten a vector type.
				922	Type getShadowTyNoVec(Type ty) {
				923	if (VectorType *vt = dyn_cast<VectorType>(ty))
				924	return IntegerType::get(*MS.C, vt->getBitWidth());
				925	return ty;
				926	}
				927
				928	/// \brief Convert a shadow value to it's flattened variant.
				929	Value convertToShadowTyNoVec(Value V, IRBuilder<> &IRB) {
				930	Type *Ty = V->getType();
				931	Type *NoVecTy = getShadowTyNoVec(Ty);
				932	if (Ty == NoVecTy) return V;
				933	return IRB.CreateBitCast(V, NoVecTy);
				934	}
				935
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	936	/// \brief Compute the integer shadow offset that corresponds to a given
				937	/// application address.
				938	///
				939	/// Offset = (Addr & ~AndMask) ^ XorMask
				940	Value getShadowPtrOffset(Value Addr, IRBuilder<> &IRB) {
Evgeniy Stepanov	d12212b	2015-10-08 21:35:26 +0000	[diff] [blame]	941	Value *OffsetLong = IRB.CreatePointerCast(Addr, MS.IntptrTy);
				942
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	943	uint64_t AndMask = MS.MapParams->AndMask;
Evgeniy Stepanov	d12212b	2015-10-08 21:35:26 +0000	[diff] [blame]	944	if (AndMask)
				945	OffsetLong =
				946	IRB.CreateAnd(OffsetLong, ConstantInt::get(MS.IntptrTy, ~AndMask));
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	947
				948	uint64_t XorMask = MS.MapParams->XorMask;
Evgeniy Stepanov	d12212b	2015-10-08 21:35:26 +0000	[diff] [blame]	949	if (XorMask)
				950	OffsetLong =
				951	IRB.CreateXor(OffsetLong, ConstantInt::get(MS.IntptrTy, XorMask));
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	952	return OffsetLong;
				953	}
				954
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	955	/// \brief Compute the shadow address that corresponds to a given application
				956	/// address.
				957	///
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	958	/// Shadow = ShadowBase + Offset
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	959	Value getShadowPtr(Value Addr, Type *ShadowTy,
				960	IRBuilder<> &IRB) {
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	961	Value *ShadowLong = getShadowPtrOffset(Addr, IRB);
				962	uint64_t ShadowBase = MS.MapParams->ShadowBase;
				963	if (ShadowBase != 0)
				964	ShadowLong =
				965	IRB.CreateAdd(ShadowLong,
				966	ConstantInt::get(MS.IntptrTy, ShadowBase));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	967	return IRB.CreateIntToPtr(ShadowLong, PointerType::get(ShadowTy, 0));
				968	}
				969
				970	/// \brief Compute the origin address that corresponds to a given application
				971	/// address.
				972	///
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	973	/// OriginAddr = (OriginBase + Offset) & ~3ULL
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	974	Value getOriginPtr(Value Addr, IRBuilder<> &IRB, unsigned Alignment) {
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	975	Value *OriginLong = getShadowPtrOffset(Addr, IRB);
				976	uint64_t OriginBase = MS.MapParams->OriginBase;
				977	if (OriginBase != 0)
				978	OriginLong =
				979	IRB.CreateAdd(OriginLong,
				980	ConstantInt::get(MS.IntptrTy, OriginBase));
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	981	if (Alignment < kMinOriginAlignment) {
				982	uint64_t Mask = kMinOriginAlignment - 1;
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	983	OriginLong = IRB.CreateAnd(OriginLong,
				984	ConstantInt::get(MS.IntptrTy, ~Mask));
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	985	}
Viktor Kutuzov	b4ffb5d	2014-12-18 12:12:59 +0000	[diff] [blame]	986	return IRB.CreateIntToPtr(OriginLong,
				987	PointerType::get(IRB.getInt32Ty(), 0));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	988	}
				989
				990	/// \brief Compute the shadow address for a given function argument.
				991	///
				992	/// Shadow = ParamTLS+ArgOffset.
				993	Value getShadowPtrForArgument(Value A, IRBuilder<> &IRB,
				994	int ArgOffset) {
				995	Value *Base = IRB.CreatePointerCast(MS.ParamTLS, MS.IntptrTy);
				996	Base = IRB.CreateAdd(Base, ConstantInt::get(MS.IntptrTy, ArgOffset));
				997	return IRB.CreateIntToPtr(Base, PointerType::get(getShadowTy(A), 0),
				998	"_msarg");
				999	}
				1000
				1001	/// \brief Compute the origin address for a given function argument.
				1002	Value getOriginPtrForArgument(Value A, IRBuilder<> &IRB,
				1003	int ArgOffset) {
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	1004	if (!MS.TrackOrigins) return nullptr;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1005	Value *Base = IRB.CreatePointerCast(MS.ParamOriginTLS, MS.IntptrTy);
				1006	Base = IRB.CreateAdd(Base, ConstantInt::get(MS.IntptrTy, ArgOffset));
				1007	return IRB.CreateIntToPtr(Base, PointerType::get(MS.OriginTy, 0),
				1008	"_msarg_o");
				1009	}
				1010
				1011	/// \brief Compute the shadow address for a retval.
				1012	Value getShadowPtrForRetval(Value A, IRBuilder<> &IRB) {
				1013	Value *Base = IRB.CreatePointerCast(MS.RetvalTLS, MS.IntptrTy);
				1014	return IRB.CreateIntToPtr(Base, PointerType::get(getShadowTy(A), 0),
				1015	"_msret");
				1016	}
				1017
				1018	/// \brief Compute the origin address for a retval.
				1019	Value *getOriginPtrForRetval(IRBuilder<> &IRB) {
				1020	// We keep a single origin for the entire retval. Might be too optimistic.
				1021	return MS.RetvalOriginTLS;
				1022	}
				1023
				1024	/// \brief Set SV to be the shadow value for V.
				1025	void setShadow(Value V, Value SV) {
				1026	assert(!ShadowMap.count(V) && "Values may only have one shadow");
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	1027	ShadowMap[V] = PropagateShadow ? SV : getCleanShadow(V);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1028	}
				1029
				1030	/// \brief Set Origin to be the origin value for V.
				1031	void setOrigin(Value V, Value Origin) {
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	1032	if (!MS.TrackOrigins) return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1033	assert(!OriginMap.count(V) && "Values may only have one origin");
				1034	DEBUG(dbgs() << "ORIGIN: " << V << " ==> " << Origin << "\n");
				1035	OriginMap[V] = Origin;
				1036	}
				1037
				1038	/// \brief Create a clean shadow value for a given value.
				1039	///
				1040	/// Clean shadow (all zeroes) means all bits of the value are defined
				1041	/// (initialized).
Evgeniy Stepanov	a9a962c	2013-03-21 09:38:26 +0000	[diff] [blame]	1042	Constant getCleanShadow(Value V) {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1043	Type *ShadowTy = getShadowTy(V);
				1044	if (!ShadowTy)
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	1045	return nullptr;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1046	return Constant::getNullValue(ShadowTy);
				1047	}
				1048
				1049	/// \brief Create a dirty shadow of a given shadow type.
				1050	Constant getPoisonedShadow(Type ShadowTy) {
				1051	assert(ShadowTy);
				1052	if (isa<IntegerType>(ShadowTy) \|\| isa<VectorType>(ShadowTy))
				1053	return Constant::getAllOnesValue(ShadowTy);
Evgeniy Stepanov	5997feb	2014-07-31 11:02:27 +0000	[diff] [blame]	1054	if (ArrayType *AT = dyn_cast<ArrayType>(ShadowTy)) {
				1055	SmallVector<Constant *, 4> Vals(AT->getNumElements(),
				1056	getPoisonedShadow(AT->getElementType()));
				1057	return ConstantArray::get(AT, Vals);
				1058	}
				1059	if (StructType *ST = dyn_cast<StructType>(ShadowTy)) {
				1060	SmallVector<Constant *, 4> Vals;
				1061	for (unsigned i = 0, n = ST->getNumElements(); i < n; i++)
				1062	Vals.push_back(getPoisonedShadow(ST->getElementType(i)));
				1063	return ConstantStruct::get(ST, Vals);
				1064	}
				1065	llvm_unreachable("Unexpected shadow type");
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1066	}
				1067
Evgeniy Stepanov	a9a962c	2013-03-21 09:38:26 +0000	[diff] [blame]	1068	/// \brief Create a dirty shadow for a given value.
				1069	Constant getPoisonedShadow(Value V) {
				1070	Type *ShadowTy = getShadowTy(V);
				1071	if (!ShadowTy)
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	1072	return nullptr;
Evgeniy Stepanov	a9a962c	2013-03-21 09:38:26 +0000	[diff] [blame]	1073	return getPoisonedShadow(ShadowTy);
				1074	}
				1075
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1076	/// \brief Create a clean (zero) origin.
				1077	Value *getCleanOrigin() {
				1078	return Constant::getNullValue(MS.OriginTy);
				1079	}
				1080
				1081	/// \brief Get the shadow value for a given Value.
				1082	///
				1083	/// This function either returns the value set earlier with setShadow,
				1084	/// or extracts if from ParamTLS (for function arguments).
				1085	Value getShadow(Value V) {
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	1086	if (!PropagateShadow) return getCleanShadow(V);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1087	if (Instruction *I = dyn_cast<Instruction>(V)) {
				1088	// For instructions the shadow is already stored in the map.
				1089	Value *Shadow = ShadowMap[V];
				1090	if (!Shadow) {
				1091	DEBUG(dbgs() << "No shadow: " << V << "\n" << (I->getParent()));
Matt Beaumont-Gay	c76536f	2012-11-29 18:15:49 +0000	[diff] [blame]	1092	(void)I;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1093	assert(Shadow && "No shadow for a value");
				1094	}
				1095	return Shadow;
				1096	}
				1097	if (UndefValue *U = dyn_cast<UndefValue>(V)) {
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	1098	Value *AllOnes = PoisonUndef ? getPoisonedShadow(V) : getCleanShadow(V);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1099	DEBUG(dbgs() << "Undef: " << U << " ==> " << AllOnes << "\n");
Matt Beaumont-Gay	c76536f	2012-11-29 18:15:49 +0000	[diff] [blame]	1100	(void)U;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1101	return AllOnes;
				1102	}
				1103	if (Argument *A = dyn_cast<Argument>(V)) {
				1104	// For arguments we compute the shadow on demand and store it in the map.
				1105	Value **ShadowPtr = &ShadowMap[V];
				1106	if (*ShadowPtr)
				1107	return *ShadowPtr;
				1108	Function *F = A->getParent();
				1109	IRBuilder<> EntryIRB(F->getEntryBlock().getFirstNonPHI());
				1110	unsigned ArgOffset = 0;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	1111	const DataLayout &DL = F->getParent()->getDataLayout();
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	1112	for (auto &FArg : F->args()) {
				1113	if (!FArg.getType()->isSized()) {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1114	DEBUG(dbgs() << "Arg is not sized\n");
				1115	continue;
				1116	}
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	1117	unsigned Size =
				1118	FArg.hasByValAttr()
				1119	? DL.getTypeAllocSize(FArg.getType()->getPointerElementType())
				1120	: DL.getTypeAllocSize(FArg.getType());
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	1121	if (A == &FArg) {
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	1122	bool Overflow = ArgOffset + Size > kParamTLSSize;
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	1123	Value *Base = getShadowPtrForArgument(&FArg, EntryIRB, ArgOffset);
				1124	if (FArg.hasByValAttr()) {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1125	// ByVal pointer itself has clean shadow. We copy the actual
				1126	// argument shadow to the underlying memory.
Evgeniy Stepanov	fca0123	2013-05-28 13:07:43 +0000	[diff] [blame]	1127	// Figure out maximal valid memcpy alignment.
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	1128	unsigned ArgAlign = FArg.getParamAlignment();
Evgeniy Stepanov	fca0123	2013-05-28 13:07:43 +0000	[diff] [blame]	1129	if (ArgAlign == 0) {
				1130	Type *EltType = A->getType()->getPointerElementType();
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	1131	ArgAlign = DL.getABITypeAlignment(EltType);
Evgeniy Stepanov	fca0123	2013-05-28 13:07:43 +0000	[diff] [blame]	1132	}
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	1133	if (Overflow) {
				1134	// ParamTLS overflow.
				1135	EntryIRB.CreateMemSet(
				1136	getShadowPtr(V, EntryIRB.getInt8Ty(), EntryIRB),
				1137	Constant::getNullValue(EntryIRB.getInt8Ty()), Size, ArgAlign);
				1138	} else {
				1139	unsigned CopyAlign = std::min(ArgAlign, kShadowTLSAlignment);
				1140	Value *Cpy = EntryIRB.CreateMemCpy(
				1141	getShadowPtr(V, EntryIRB.getInt8Ty(), EntryIRB), Base, Size,
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	1142	CopyAlign);
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	1143	DEBUG(dbgs() << " ByValCpy: " << *Cpy << "\n");
				1144	(void)Cpy;
				1145	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1146	*ShadowPtr = getCleanShadow(V);
				1147	} else {
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	1148	if (Overflow) {
				1149	// ParamTLS overflow.
				1150	*ShadowPtr = getCleanShadow(V);
				1151	} else {
				1152	*ShadowPtr =
				1153	EntryIRB.CreateAlignedLoad(Base, kShadowTLSAlignment);
				1154	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1155	}
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	1156	DEBUG(dbgs() << " ARG: " << FArg << " ==> " <<
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1157	**ShadowPtr << "\n");
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	1158	if (MS.TrackOrigins && !Overflow) {
Alexey Samsonov	a02e664	2014-05-29 18:40:48 +0000	[diff] [blame]	1159	Value *OriginPtr =
				1160	getOriginPtrForArgument(&FArg, EntryIRB, ArgOffset);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1161	setOrigin(A, EntryIRB.CreateLoad(OriginPtr));
Evgeniy Stepanov	2e5a1f1	2014-12-03 14:15:53 +0000	[diff] [blame]	1162	} else {
				1163	setOrigin(A, getCleanOrigin());
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1164	}
				1165	}
Rui Ueyama	da00f2f	2016-01-14 21:06:47 +0000	[diff] [blame]	1166	ArgOffset += alignTo(Size, kShadowTLSAlignment);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1167	}
				1168	assert(*ShadowPtr && "Could not find shadow for an argument");
				1169	return *ShadowPtr;
				1170	}
				1171	// For everything else the shadow is zero.
				1172	return getCleanShadow(V);
				1173	}
				1174
				1175	/// \brief Get the shadow for i-th argument of the instruction I.
				1176	Value getShadow(Instruction I, int i) {
				1177	return getShadow(I->getOperand(i));
				1178	}
				1179
				1180	/// \brief Get the origin for a value.
				1181	Value getOrigin(Value V) {
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	1182	if (!MS.TrackOrigins) return nullptr;
Evgeniy Stepanov	2e5a1f1	2014-12-03 14:15:53 +0000	[diff] [blame]	1183	if (!PropagateShadow) return getCleanOrigin();
				1184	if (isa<Constant>(V)) return getCleanOrigin();
				1185	assert((isa<Instruction>(V) \|\| isa<Argument>(V)) &&
				1186	"Unexpected value type in getOrigin()");
				1187	Value *Origin = OriginMap[V];
				1188	assert(Origin && "Missing origin");
				1189	return Origin;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1190	}
				1191
				1192	/// \brief Get the origin for i-th argument of the instruction I.
				1193	Value getOrigin(Instruction I, int i) {
				1194	return getOrigin(I->getOperand(i));
				1195	}
				1196
				1197	/// \brief Remember the place where a shadow check should be inserted.
				1198	///
				1199	/// This location will be later instrumented with a check that will print a
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1200	/// UMR warning in runtime if the shadow value is not 0.
				1201	void insertShadowCheck(Value Shadow, Value Origin, Instruction *OrigIns) {
				1202	assert(Shadow);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1203	if (!InsertChecks) return;
Matt Beaumont-Gay	c76536f	2012-11-29 18:15:49 +0000	[diff] [blame]	1204	#ifndef NDEBUG
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1205	Type *ShadowTy = Shadow->getType();
				1206	assert((isa<IntegerType>(ShadowTy) \|\| isa<VectorType>(ShadowTy)) &&
				1207	"Can only insert checks for integer and vector shadow types");
Matt Beaumont-Gay	c76536f	2012-11-29 18:15:49 +0000	[diff] [blame]	1208	#endif
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1209	InstrumentationList.push_back(
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1210	ShadowOriginAndInsertPoint(Shadow, Origin, OrigIns));
				1211	}
				1212
				1213	/// \brief Remember the place where a shadow check should be inserted.
				1214	///
				1215	/// This location will be later instrumented with a check that will print a
				1216	/// UMR warning in runtime if the value is not fully defined.
				1217	void insertShadowCheck(Value Val, Instruction OrigIns) {
				1218	assert(Val);
Evgeniy Stepanov	d337a59	2014-10-24 23:34:15 +0000	[diff] [blame]	1219	Value Shadow, Origin;
				1220	if (ClCheckConstantShadow) {
				1221	Shadow = getShadow(Val);
				1222	if (!Shadow) return;
				1223	Origin = getOrigin(Val);
				1224	} else {
				1225	Shadow = dyn_cast_or_null<Instruction>(getShadow(Val));
				1226	if (!Shadow) return;
				1227	Origin = dyn_cast_or_null<Instruction>(getOrigin(Val));
				1228	}
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1229	insertShadowCheck(Shadow, Origin, OrigIns);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1230	}
				1231
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1232	AtomicOrdering addReleaseOrdering(AtomicOrdering a) {
				1233	switch (a) {
JF Bastien	800f87a	2016-04-06 21:19:33 +0000	[diff] [blame]	1234	case AtomicOrdering::NotAtomic:
				1235	return AtomicOrdering::NotAtomic;
				1236	case AtomicOrdering::Unordered:
				1237	case AtomicOrdering::Monotonic:
				1238	case AtomicOrdering::Release:
				1239	return AtomicOrdering::Release;
				1240	case AtomicOrdering::Acquire:
				1241	case AtomicOrdering::AcquireRelease:
				1242	return AtomicOrdering::AcquireRelease;
				1243	case AtomicOrdering::SequentiallyConsistent:
				1244	return AtomicOrdering::SequentiallyConsistent;
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1245	}
Evgeniy Stepanov	32be034	2013-09-25 08:56:00 +0000	[diff] [blame]	1246	llvm_unreachable("Unknown ordering");
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1247	}
				1248
				1249	AtomicOrdering addAcquireOrdering(AtomicOrdering a) {
				1250	switch (a) {
JF Bastien	800f87a	2016-04-06 21:19:33 +0000	[diff] [blame]	1251	case AtomicOrdering::NotAtomic:
				1252	return AtomicOrdering::NotAtomic;
				1253	case AtomicOrdering::Unordered:
				1254	case AtomicOrdering::Monotonic:
				1255	case AtomicOrdering::Acquire:
				1256	return AtomicOrdering::Acquire;
				1257	case AtomicOrdering::Release:
				1258	case AtomicOrdering::AcquireRelease:
				1259	return AtomicOrdering::AcquireRelease;
				1260	case AtomicOrdering::SequentiallyConsistent:
				1261	return AtomicOrdering::SequentiallyConsistent;
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1262	}
Evgeniy Stepanov	32be034	2013-09-25 08:56:00 +0000	[diff] [blame]	1263	llvm_unreachable("Unknown ordering");
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1264	}
				1265
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	1266	// ------------------- Visitors.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1267
				1268	/// \brief Instrument LoadInst
				1269	///
				1270	/// Loads the corresponding shadow and (optionally) origin.
				1271	/// Optionally, checks that the load address is fully defined.
				1272	void visitLoadInst(LoadInst &I) {
Matt Beaumont-Gay	c76536f	2012-11-29 18:15:49 +0000	[diff] [blame]	1273	assert(I.getType()->isSized() && "Load type must have size");
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1274	IRBuilder<> IRB(I.getNextNode());
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1275	Type *ShadowTy = getShadowTy(&I);
				1276	Value *Addr = I.getPointerOperand();
Kostya Serebryany	543f3db	2014-12-03 23:28:26 +0000	[diff] [blame]	1277	if (PropagateShadow && !I.getMetadata("nosanitize")) {
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	1278	Value *ShadowPtr = getShadowPtr(Addr, ShadowTy, IRB);
				1279	setShadow(&I,
				1280	IRB.CreateAlignedLoad(ShadowPtr, I.getAlignment(), "_msld"));
				1281	} else {
				1282	setShadow(&I, getCleanShadow(&I));
				1283	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1284
				1285	if (ClCheckAccessAddress)
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1286	insertShadowCheck(I.getPointerOperand(), &I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1287
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1288	if (I.isAtomic())
				1289	I.setOrdering(addAcquireOrdering(I.getOrdering()));
				1290
Evgeniy Stepanov	5eb5bf8	2012-12-26 11:55:09 +0000	[diff] [blame]	1291	if (MS.TrackOrigins) {
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	1292	if (PropagateShadow) {
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	1293	unsigned Alignment = I.getAlignment();
				1294	unsigned OriginAlignment = std::max(kMinOriginAlignment, Alignment);
				1295	setOrigin(&I, IRB.CreateAlignedLoad(getOriginPtr(Addr, IRB, Alignment),
				1296	OriginAlignment));
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	1297	} else {
				1298	setOrigin(&I, getCleanOrigin());
				1299	}
Evgeniy Stepanov	5eb5bf8	2012-12-26 11:55:09 +0000	[diff] [blame]	1300	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1301	}
				1302
				1303	/// \brief Instrument StoreInst
				1304	///
				1305	/// Stores the corresponding shadow and (optionally) origin.
				1306	/// Optionally, checks that the store address is fully defined.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1307	void visitStoreInst(StoreInst &I) {
Evgeniy Stepanov	4f220d9	2012-12-06 11:41:03 +0000	[diff] [blame]	1308	StoreList.push_back(&I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1309	}
				1310
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1311	void handleCASOrRMW(Instruction &I) {
				1312	assert(isa<AtomicRMWInst>(I) \|\| isa<AtomicCmpXchgInst>(I));
				1313
				1314	IRBuilder<> IRB(&I);
				1315	Value *Addr = I.getOperand(0);
				1316	Value *ShadowPtr = getShadowPtr(Addr, I.getType(), IRB);
				1317
				1318	if (ClCheckAccessAddress)
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1319	insertShadowCheck(Addr, &I);
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1320
				1321	// Only test the conditional argument of cmpxchg instruction.
				1322	// The other argument can potentially be uninitialized, but we can not
				1323	// detect this situation reliably without possible false positives.
				1324	if (isa<AtomicCmpXchgInst>(I))
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1325	insertShadowCheck(I.getOperand(1), &I);
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1326
				1327	IRB.CreateStore(getCleanShadow(&I), ShadowPtr);
				1328
				1329	setShadow(&I, getCleanShadow(&I));
Evgeniy Stepanov	2e5a1f1	2014-12-03 14:15:53 +0000	[diff] [blame]	1330	setOrigin(&I, getCleanOrigin());
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1331	}
				1332
				1333	void visitAtomicRMWInst(AtomicRMWInst &I) {
				1334	handleCASOrRMW(I);
				1335	I.setOrdering(addReleaseOrdering(I.getOrdering()));
				1336	}
				1337
				1338	void visitAtomicCmpXchgInst(AtomicCmpXchgInst &I) {
				1339	handleCASOrRMW(I);
Tim Northover	e94a518	2014-03-11 10:48:52 +0000	[diff] [blame]	1340	I.setSuccessOrdering(addReleaseOrdering(I.getSuccessOrdering()));
Evgeniy Stepanov	5522a70	2013-09-24 11:20:27 +0000	[diff] [blame]	1341	}
				1342
Evgeniy Stepanov	30484fc	2012-11-29 15:22:06 +0000	[diff] [blame]	1343	// Vector manipulation.
				1344	void visitExtractElementInst(ExtractElementInst &I) {
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1345	insertShadowCheck(I.getOperand(1), &I);
Evgeniy Stepanov	30484fc	2012-11-29 15:22:06 +0000	[diff] [blame]	1346	IRBuilder<> IRB(&I);
				1347	setShadow(&I, IRB.CreateExtractElement(getShadow(&I, 0), I.getOperand(1),
				1348	"_msprop"));
				1349	setOrigin(&I, getOrigin(&I, 0));
				1350	}
				1351
				1352	void visitInsertElementInst(InsertElementInst &I) {
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1353	insertShadowCheck(I.getOperand(2), &I);
Evgeniy Stepanov	30484fc	2012-11-29 15:22:06 +0000	[diff] [blame]	1354	IRBuilder<> IRB(&I);
				1355	setShadow(&I, IRB.CreateInsertElement(getShadow(&I, 0), getShadow(&I, 1),
				1356	I.getOperand(2), "_msprop"));
				1357	setOriginForNaryOp(I);
				1358	}
				1359
				1360	void visitShuffleVectorInst(ShuffleVectorInst &I) {
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1361	insertShadowCheck(I.getOperand(2), &I);
Evgeniy Stepanov	30484fc	2012-11-29 15:22:06 +0000	[diff] [blame]	1362	IRBuilder<> IRB(&I);
				1363	setShadow(&I, IRB.CreateShuffleVector(getShadow(&I, 0), getShadow(&I, 1),
				1364	I.getOperand(2), "_msprop"));
				1365	setOriginForNaryOp(I);
				1366	}
				1367
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1368	// Casts.
				1369	void visitSExtInst(SExtInst &I) {
				1370	IRBuilder<> IRB(&I);
				1371	setShadow(&I, IRB.CreateSExt(getShadow(&I, 0), I.getType(), "_msprop"));
				1372	setOrigin(&I, getOrigin(&I, 0));
				1373	}
				1374
				1375	void visitZExtInst(ZExtInst &I) {
				1376	IRBuilder<> IRB(&I);
				1377	setShadow(&I, IRB.CreateZExt(getShadow(&I, 0), I.getType(), "_msprop"));
				1378	setOrigin(&I, getOrigin(&I, 0));
				1379	}
				1380
				1381	void visitTruncInst(TruncInst &I) {
				1382	IRBuilder<> IRB(&I);
				1383	setShadow(&I, IRB.CreateTrunc(getShadow(&I, 0), I.getType(), "_msprop"));
				1384	setOrigin(&I, getOrigin(&I, 0));
				1385	}
				1386
				1387	void visitBitCastInst(BitCastInst &I) {
Evgeniy Stepanov	24ac55d	2015-08-14 22:03:50 +0000	[diff] [blame]	1388	// Special case: if this is the bitcast (there is exactly 1 allowed) between
				1389	// a musttail call and a ret, don't instrument. New instructions are not
				1390	// allowed after a musttail call.
				1391	if (auto *CI = dyn_cast<CallInst>(I.getOperand(0)))
				1392	if (CI->isMustTailCall())
				1393	return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1394	IRBuilder<> IRB(&I);
				1395	setShadow(&I, IRB.CreateBitCast(getShadow(&I, 0), getShadowTy(&I)));
				1396	setOrigin(&I, getOrigin(&I, 0));
				1397	}
				1398
				1399	void visitPtrToIntInst(PtrToIntInst &I) {
				1400	IRBuilder<> IRB(&I);
				1401	setShadow(&I, IRB.CreateIntCast(getShadow(&I, 0), getShadowTy(&I), false,
				1402	"_msprop_ptrtoint"));
				1403	setOrigin(&I, getOrigin(&I, 0));
				1404	}
				1405
				1406	void visitIntToPtrInst(IntToPtrInst &I) {
				1407	IRBuilder<> IRB(&I);
				1408	setShadow(&I, IRB.CreateIntCast(getShadow(&I, 0), getShadowTy(&I), false,
				1409	"_msprop_inttoptr"));
				1410	setOrigin(&I, getOrigin(&I, 0));
				1411	}
				1412
				1413	void visitFPToSIInst(CastInst& I) { handleShadowOr(I); }
				1414	void visitFPToUIInst(CastInst& I) { handleShadowOr(I); }
				1415	void visitSIToFPInst(CastInst& I) { handleShadowOr(I); }
				1416	void visitUIToFPInst(CastInst& I) { handleShadowOr(I); }
				1417	void visitFPExtInst(CastInst& I) { handleShadowOr(I); }
				1418	void visitFPTruncInst(CastInst& I) { handleShadowOr(I); }
				1419
				1420	/// \brief Propagate shadow for bitwise AND.
				1421	///
				1422	/// This code is exact, i.e. if, for example, a bit in the left argument
				1423	/// is defined and 0, then neither the value not definedness of the
				1424	/// corresponding bit in B don't affect the resulting shadow.
				1425	void visitAnd(BinaryOperator &I) {
				1426	IRBuilder<> IRB(&I);
				1427	// "And" of 0 and a poisoned value results in unpoisoned value.
				1428	// 1&1 => 1; 0&1 => 0; p&1 => p;
				1429	// 1&0 => 0; 0&0 => 0; p&0 => 0;
				1430	// 1&p => p; 0&p => 0; p&p => p;
				1431	// S = (S1 & S2) \| (V1 & S2) \| (S1 & V2)
				1432	Value *S1 = getShadow(&I, 0);
				1433	Value *S2 = getShadow(&I, 1);
				1434	Value *V1 = I.getOperand(0);
				1435	Value *V2 = I.getOperand(1);
				1436	if (V1->getType() != S1->getType()) {
				1437	V1 = IRB.CreateIntCast(V1, S1->getType(), false);
				1438	V2 = IRB.CreateIntCast(V2, S2->getType(), false);
				1439	}
				1440	Value *S1S2 = IRB.CreateAnd(S1, S2);
				1441	Value *V1S2 = IRB.CreateAnd(V1, S2);
				1442	Value *S1V2 = IRB.CreateAnd(S1, V2);
				1443	setShadow(&I, IRB.CreateOr(S1S2, IRB.CreateOr(V1S2, S1V2)));
				1444	setOriginForNaryOp(I);
				1445	}
				1446
				1447	void visitOr(BinaryOperator &I) {
				1448	IRBuilder<> IRB(&I);
				1449	// "Or" of 1 and a poisoned value results in unpoisoned value.
				1450	// 1\|1 => 1; 0\|1 => 1; p\|1 => 1;
				1451	// 1\|0 => 1; 0\|0 => 0; p\|0 => p;
				1452	// 1\|p => 1; 0\|p => p; p\|p => p;
				1453	// S = (S1 & S2) \| (~V1 & S2) \| (S1 & ~V2)
				1454	Value *S1 = getShadow(&I, 0);
				1455	Value *S2 = getShadow(&I, 1);
				1456	Value *V1 = IRB.CreateNot(I.getOperand(0));
				1457	Value *V2 = IRB.CreateNot(I.getOperand(1));
				1458	if (V1->getType() != S1->getType()) {
				1459	V1 = IRB.CreateIntCast(V1, S1->getType(), false);
				1460	V2 = IRB.CreateIntCast(V2, S2->getType(), false);
				1461	}
				1462	Value *S1S2 = IRB.CreateAnd(S1, S2);
				1463	Value *V1S2 = IRB.CreateAnd(V1, S2);
				1464	Value *S1V2 = IRB.CreateAnd(S1, V2);
				1465	setShadow(&I, IRB.CreateOr(S1S2, IRB.CreateOr(V1S2, S1V2)));
				1466	setOriginForNaryOp(I);
				1467	}
				1468
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1469	/// \brief Default propagation of shadow and/or origin.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1470	///
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1471	/// This class implements the general case of shadow propagation, used in all
				1472	/// cases where we don't know and/or don't care about what the operation
				1473	/// actually does. It converts all input shadow values to a common type
				1474	/// (extending or truncating as necessary), and bitwise OR's them.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1475	///
				1476	/// This is much cheaper than inserting checks (i.e. requiring inputs to be
				1477	/// fully initialized), and less prone to false positives.
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1478	///
				1479	/// This class also implements the general case of origin propagation. For a
				1480	/// Nary operation, result origin is set to the origin of an argument that is
				1481	/// not entirely initialized. If there is more than one such arguments, the
				1482	/// rightmost of them is picked. It does not matter which one is picked if all
				1483	/// arguments are initialized.
				1484	template <bool CombineShadow>
				1485	class Combiner {
				1486	Value *Shadow;
				1487	Value *Origin;
				1488	IRBuilder<> &IRB;
				1489	MemorySanitizerVisitor *MSV;
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	1490
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1491	public:
				1492	Combiner(MemorySanitizerVisitor *MSV, IRBuilder<> &IRB) :
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	1493	Shadow(nullptr), Origin(nullptr), IRB(IRB), MSV(MSV) {}
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1494
				1495	/// \brief Add a pair of shadow and origin values to the mix.
				1496	Combiner &Add(Value OpShadow, Value OpOrigin) {
				1497	if (CombineShadow) {
				1498	assert(OpShadow);
				1499	if (!Shadow)
				1500	Shadow = OpShadow;
				1501	else {
				1502	OpShadow = MSV->CreateShadowCast(IRB, OpShadow, Shadow->getType());
				1503	Shadow = IRB.CreateOr(Shadow, OpShadow, "_msprop");
				1504	}
				1505	}
				1506
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	1507	if (MSV->MS.TrackOrigins) {
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1508	assert(OpOrigin);
				1509	if (!Origin) {
				1510	Origin = OpOrigin;
				1511	} else {
Evgeniy Stepanov	70d1b0a	2014-06-09 14:29:34 +0000	[diff] [blame]	1512	Constant *ConstOrigin = dyn_cast<Constant>(OpOrigin);
				1513	// No point in adding something that might result in 0 origin value.
				1514	if (!ConstOrigin \|\| !ConstOrigin->isNullValue()) {
				1515	Value *FlatShadow = MSV->convertToShadowTyNoVec(OpShadow, IRB);
				1516	Value *Cond =
				1517	IRB.CreateICmpNE(FlatShadow, MSV->getCleanShadow(FlatShadow));
				1518	Origin = IRB.CreateSelect(Cond, OpOrigin, Origin);
				1519	}
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1520	}
				1521	}
				1522	return *this;
				1523	}
				1524
				1525	/// \brief Add an application value to the mix.
				1526	Combiner &Add(Value *V) {
				1527	Value *OpShadow = MSV->getShadow(V);
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	1528	Value *OpOrigin = MSV->MS.TrackOrigins ? MSV->getOrigin(V) : nullptr;
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1529	return Add(OpShadow, OpOrigin);
				1530	}
				1531
				1532	/// \brief Set the current combined values as the given instruction's shadow
				1533	/// and origin.
				1534	void Done(Instruction *I) {
				1535	if (CombineShadow) {
				1536	assert(Shadow);
				1537	Shadow = MSV->CreateShadowCast(IRB, Shadow, MSV->getShadowTy(I));
				1538	MSV->setShadow(I, Shadow);
				1539	}
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	1540	if (MSV->MS.TrackOrigins) {
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1541	assert(Origin);
				1542	MSV->setOrigin(I, Origin);
				1543	}
				1544	}
				1545	};
				1546
				1547	typedef Combiner<true> ShadowAndOriginCombiner;
				1548	typedef Combiner<false> OriginCombiner;
				1549
				1550	/// \brief Propagate origin for arbitrary operation.
				1551	void setOriginForNaryOp(Instruction &I) {
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	1552	if (!MS.TrackOrigins) return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1553	IRBuilder<> IRB(&I);
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1554	OriginCombiner OC(this, IRB);
				1555	for (Instruction::op_iterator OI = I.op_begin(); OI != I.op_end(); ++OI)
				1556	OC.Add(OI->get());
				1557	OC.Done(&I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1558	}
				1559
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1560	size_t VectorOrPrimitiveTypeSizeInBits(Type *Ty) {
Evgeniy Stepanov	f19c086	2012-12-25 16:04:38 +0000	[diff] [blame]	1561	assert(!(Ty->isVectorTy() && Ty->getScalarType()->isPointerTy()) &&
				1562	"Vector of pointers is not a valid shadow type");
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1563	return Ty->isVectorTy() ?
				1564	Ty->getVectorNumElements() * Ty->getScalarSizeInBits() :
				1565	Ty->getPrimitiveSizeInBits();
				1566	}
				1567
				1568	/// \brief Cast between two shadow types, extending or truncating as
				1569	/// necessary.
Evgeniy Stepanov	21a9c93	2013-10-17 10:53:50 +0000	[diff] [blame]	1570	Value CreateShadowCast(IRBuilder<> &IRB, Value V, Type *dstTy,
				1571	bool Signed = false) {
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1572	Type *srcTy = V->getType();
				1573	if (dstTy->isIntegerTy() && srcTy->isIntegerTy())
Evgeniy Stepanov	21a9c93	2013-10-17 10:53:50 +0000	[diff] [blame]	1574	return IRB.CreateIntCast(V, dstTy, Signed);
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1575	if (dstTy->isVectorTy() && srcTy->isVectorTy() &&
				1576	dstTy->getVectorNumElements() == srcTy->getVectorNumElements())
Evgeniy Stepanov	21a9c93	2013-10-17 10:53:50 +0000	[diff] [blame]	1577	return IRB.CreateIntCast(V, dstTy, Signed);
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1578	size_t srcSizeInBits = VectorOrPrimitiveTypeSizeInBits(srcTy);
				1579	size_t dstSizeInBits = VectorOrPrimitiveTypeSizeInBits(dstTy);
				1580	Value V1 = IRB.CreateBitCast(V, Type::getIntNTy(MS.C, srcSizeInBits));
				1581	Value *V2 =
Evgeniy Stepanov	21a9c93	2013-10-17 10:53:50 +0000	[diff] [blame]	1582	IRB.CreateIntCast(V1, Type::getIntNTy(*MS.C, dstSizeInBits), Signed);
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1583	return IRB.CreateBitCast(V2, dstTy);
				1584	// TODO: handle struct types.
				1585	}
				1586
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	1587	/// \brief Cast an application value to the type of its own shadow.
				1588	Value CreateAppToShadowCast(IRBuilder<> &IRB, Value V) {
				1589	Type *ShadowTy = getShadowTy(V);
				1590	if (V->getType() == ShadowTy)
				1591	return V;
				1592	if (V->getType()->isPtrOrPtrVectorTy())
				1593	return IRB.CreatePtrToInt(V, ShadowTy);
				1594	else
				1595	return IRB.CreateBitCast(V, ShadowTy);
				1596	}
				1597
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1598	/// \brief Propagate shadow for arbitrary operation.
				1599	void handleShadowOr(Instruction &I) {
				1600	IRBuilder<> IRB(&I);
				1601	ShadowAndOriginCombiner SC(this, IRB);
				1602	for (Instruction::op_iterator OI = I.op_begin(); OI != I.op_end(); ++OI)
				1603	SC.Add(OI->get());
				1604	SC.Done(&I);
				1605	}
				1606
Evgeniy Stepanov	df187fe	2014-06-17 09:23:12 +0000	[diff] [blame]	1607	// \brief Handle multiplication by constant.
				1608	//
				1609	// Handle a special case of multiplication by constant that may have one or
				1610	// more zeros in the lower bits. This makes corresponding number of lower bits
				1611	// of the result zero as well. We model it by shifting the other operand
				1612	// shadow left by the required number of bits. Effectively, we transform
				1613	// (X * (A * 2*B)) to ((X << B) A) and instrument (X << B) as (Sx << B).
				1614	// We use multiplication by 2**N instead of shift to cover the case of
				1615	// multiplication by 0, which may occur in some elements of a vector operand.
				1616	void handleMulByConstant(BinaryOperator &I, Constant *ConstArg,
				1617	Value *OtherArg) {
				1618	Constant *ShadowMul;
				1619	Type *Ty = ConstArg->getType();
				1620	if (Ty->isVectorTy()) {
				1621	unsigned NumElements = Ty->getVectorNumElements();
				1622	Type *EltTy = Ty->getSequentialElementType();
				1623	SmallVector<Constant *, 16> Elements;
				1624	for (unsigned Idx = 0; Idx < NumElements; ++Idx) {
Evgeniy Stepanov	ebd3f44	2015-10-14 00:21:13 +0000	[diff] [blame]	1625	if (ConstantInt *Elt =
				1626	dyn_cast<ConstantInt>(ConstArg->getAggregateElement(Idx))) {
Benjamin Kramer	46e38f3	2016-06-08 10:01:20 +0000	[diff] [blame]	1627	const APInt &V = Elt->getValue();
Evgeniy Stepanov	ebd3f44	2015-10-14 00:21:13 +0000	[diff] [blame]	1628	APInt V2 = APInt(V.getBitWidth(), 1) << V.countTrailingZeros();
				1629	Elements.push_back(ConstantInt::get(EltTy, V2));
				1630	} else {
				1631	Elements.push_back(ConstantInt::get(EltTy, 1));
				1632	}
Evgeniy Stepanov	df187fe	2014-06-17 09:23:12 +0000	[diff] [blame]	1633	}
				1634	ShadowMul = ConstantVector::get(Elements);
				1635	} else {
Evgeniy Stepanov	ebd3f44	2015-10-14 00:21:13 +0000	[diff] [blame]	1636	if (ConstantInt *Elt = dyn_cast<ConstantInt>(ConstArg)) {
Benjamin Kramer	46e38f3	2016-06-08 10:01:20 +0000	[diff] [blame]	1637	const APInt &V = Elt->getValue();
Evgeniy Stepanov	ebd3f44	2015-10-14 00:21:13 +0000	[diff] [blame]	1638	APInt V2 = APInt(V.getBitWidth(), 1) << V.countTrailingZeros();
				1639	ShadowMul = ConstantInt::get(Ty, V2);
				1640	} else {
				1641	ShadowMul = ConstantInt::get(Ty, 1);
				1642	}
Evgeniy Stepanov	df187fe	2014-06-17 09:23:12 +0000	[diff] [blame]	1643	}
				1644
				1645	IRBuilder<> IRB(&I);
				1646	setShadow(&I,
				1647	IRB.CreateMul(getShadow(OtherArg), ShadowMul, "msprop_mul_cst"));
				1648	setOrigin(&I, getOrigin(OtherArg));
				1649	}
				1650
				1651	void visitMul(BinaryOperator &I) {
				1652	Constant *constOp0 = dyn_cast<Constant>(I.getOperand(0));
				1653	Constant *constOp1 = dyn_cast<Constant>(I.getOperand(1));
				1654	if (constOp0 && !constOp1)
				1655	handleMulByConstant(I, constOp0, I.getOperand(1));
				1656	else if (constOp1 && !constOp0)
				1657	handleMulByConstant(I, constOp1, I.getOperand(0));
				1658	else
				1659	handleShadowOr(I);
				1660	}
				1661
Evgeniy Stepanov	f18e3af	2012-12-14 12:54:18 +0000	[diff] [blame]	1662	void visitFAdd(BinaryOperator &I) { handleShadowOr(I); }
				1663	void visitFSub(BinaryOperator &I) { handleShadowOr(I); }
				1664	void visitFMul(BinaryOperator &I) { handleShadowOr(I); }
				1665	void visitAdd(BinaryOperator &I) { handleShadowOr(I); }
				1666	void visitSub(BinaryOperator &I) { handleShadowOr(I); }
				1667	void visitXor(BinaryOperator &I) { handleShadowOr(I); }
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1668
				1669	void handleDiv(Instruction &I) {
				1670	IRBuilder<> IRB(&I);
				1671	// Strict on the second argument.
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1672	insertShadowCheck(I.getOperand(1), &I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1673	setShadow(&I, getShadow(&I, 0));
				1674	setOrigin(&I, getOrigin(&I, 0));
				1675	}
				1676
				1677	void visitUDiv(BinaryOperator &I) { handleDiv(I); }
				1678	void visitSDiv(BinaryOperator &I) { handleDiv(I); }
				1679	void visitFDiv(BinaryOperator &I) { handleDiv(I); }
				1680	void visitURem(BinaryOperator &I) { handleDiv(I); }
				1681	void visitSRem(BinaryOperator &I) { handleDiv(I); }
				1682	void visitFRem(BinaryOperator &I) { handleDiv(I); }
				1683
				1684	/// \brief Instrument == and != comparisons.
				1685	///
				1686	/// Sometimes the comparison result is known even if some of the bits of the
				1687	/// arguments are not.
				1688	void handleEqualityComparison(ICmpInst &I) {
				1689	IRBuilder<> IRB(&I);
				1690	Value *A = I.getOperand(0);
				1691	Value *B = I.getOperand(1);
				1692	Value *Sa = getShadow(A);
				1693	Value *Sb = getShadow(B);
Evgeniy Stepanov	d14e47b	2013-01-15 16:44:52 +0000	[diff] [blame]	1694
				1695	// Get rid of pointers and vectors of pointers.
				1696	// For ints (and vectors of ints), types of A and Sa match,
				1697	// and this is a no-op.
				1698	A = IRB.CreatePointerCast(A, Sa->getType());
				1699	B = IRB.CreatePointerCast(B, Sb->getType());
				1700
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1701	// A == B <==> (C = A^B) == 0
				1702	// A != B <==> (C = A^B) != 0
				1703	// Sc = Sa \| Sb
				1704	Value *C = IRB.CreateXor(A, B);
				1705	Value *Sc = IRB.CreateOr(Sa, Sb);
				1706	// Now dealing with i = (C == 0) comparison (or C != 0, does not matter now)
				1707	// Result is defined if one of the following is true
				1708	// * there is a defined 1 bit in C
				1709	// * C is fully defined
				1710	// Si = !(C & ~Sc) && Sc
				1711	Value *Zero = Constant::getNullValue(Sc->getType());
				1712	Value *MinusOne = Constant::getAllOnesValue(Sc->getType());
				1713	Value *Si =
				1714	IRB.CreateAnd(IRB.CreateICmpNE(Sc, Zero),
				1715	IRB.CreateICmpEQ(
				1716	IRB.CreateAnd(IRB.CreateXor(Sc, MinusOne), C), Zero));
				1717	Si->setName("_msprop_icmp");
				1718	setShadow(&I, Si);
				1719	setOriginForNaryOp(I);
				1720	}
				1721
Evgeniy Stepanov	fac8403	2013-01-25 15:31:10 +0000	[diff] [blame]	1722	/// \brief Build the lowest possible value of V, taking into account V's
				1723	/// uninitialized bits.
				1724	Value getLowestPossibleValue(IRBuilder<> &IRB, Value A, Value *Sa,
				1725	bool isSigned) {
				1726	if (isSigned) {
				1727	// Split shadow into sign bit and other bits.
				1728	Value *SaOtherBits = IRB.CreateLShr(IRB.CreateShl(Sa, 1), 1);
				1729	Value *SaSignBit = IRB.CreateXor(Sa, SaOtherBits);
				1730	// Maximise the undefined shadow bit, minimize other undefined bits.
				1731	return
				1732	IRB.CreateOr(IRB.CreateAnd(A, IRB.CreateNot(SaOtherBits)), SaSignBit);
				1733	} else {
				1734	// Minimize undefined bits.
				1735	return IRB.CreateAnd(A, IRB.CreateNot(Sa));
				1736	}
				1737	}
				1738
				1739	/// \brief Build the highest possible value of V, taking into account V's
				1740	/// uninitialized bits.
				1741	Value getHighestPossibleValue(IRBuilder<> &IRB, Value A, Value *Sa,
				1742	bool isSigned) {
				1743	if (isSigned) {
				1744	// Split shadow into sign bit and other bits.
				1745	Value *SaOtherBits = IRB.CreateLShr(IRB.CreateShl(Sa, 1), 1);
				1746	Value *SaSignBit = IRB.CreateXor(Sa, SaOtherBits);
				1747	// Minimise the undefined shadow bit, maximise other undefined bits.
				1748	return
				1749	IRB.CreateOr(IRB.CreateAnd(A, IRB.CreateNot(SaSignBit)), SaOtherBits);
				1750	} else {
				1751	// Maximize undefined bits.
				1752	return IRB.CreateOr(A, Sa);
				1753	}
				1754	}
				1755
				1756	/// \brief Instrument relational comparisons.
				1757	///
				1758	/// This function does exact shadow propagation for all relational
				1759	/// comparisons of integers, pointers and vectors of those.
				1760	/// FIXME: output seems suboptimal when one of the operands is a constant
				1761	void handleRelationalComparisonExact(ICmpInst &I) {
				1762	IRBuilder<> IRB(&I);
				1763	Value *A = I.getOperand(0);
				1764	Value *B = I.getOperand(1);
				1765	Value *Sa = getShadow(A);
				1766	Value *Sb = getShadow(B);
				1767
				1768	// Get rid of pointers and vectors of pointers.
				1769	// For ints (and vectors of ints), types of A and Sa match,
				1770	// and this is a no-op.
				1771	A = IRB.CreatePointerCast(A, Sa->getType());
				1772	B = IRB.CreatePointerCast(B, Sb->getType());
				1773
Evgeniy Stepanov	2cb0fa1	2013-01-25 15:35:29 +0000	[diff] [blame]	1774	// Let [a0, a1] be the interval of possible values of A, taking into account
				1775	// its undefined bits. Let [b0, b1] be the interval of possible values of B.
				1776	// Then (A cmp B) is defined iff (a0 cmp b1) == (a1 cmp b0).
Evgeniy Stepanov	fac8403	2013-01-25 15:31:10 +0000	[diff] [blame]	1777	bool IsSigned = I.isSigned();
				1778	Value *S1 = IRB.CreateICmp(I.getPredicate(),
				1779	getLowestPossibleValue(IRB, A, Sa, IsSigned),
				1780	getHighestPossibleValue(IRB, B, Sb, IsSigned));
				1781	Value *S2 = IRB.CreateICmp(I.getPredicate(),
				1782	getHighestPossibleValue(IRB, A, Sa, IsSigned),
				1783	getLowestPossibleValue(IRB, B, Sb, IsSigned));
				1784	Value *Si = IRB.CreateXor(S1, S2);
				1785	setShadow(&I, Si);
				1786	setOriginForNaryOp(I);
				1787	}
				1788
Evgeniy Stepanov	857d9d2	2012-11-29 14:25:47 +0000	[diff] [blame]	1789	/// \brief Instrument signed relational comparisons.
				1790	///
Evgeniy Stepanov	d04d07e	2015-08-25 22:19:11 +0000	[diff] [blame]	1791	/// Handle sign bit tests: x<0, x>=0, x<=-1, x>-1 by propagating the highest
				1792	/// bit of the shadow. Everything else is delegated to handleShadowOr().
Evgeniy Stepanov	857d9d2	2012-11-29 14:25:47 +0000	[diff] [blame]	1793	void handleSignedRelationalComparison(ICmpInst &I) {
Evgeniy Stepanov	d04d07e	2015-08-25 22:19:11 +0000	[diff] [blame]	1794	Constant *constOp;
				1795	Value *op = nullptr;
				1796	CmpInst::Predicate pre;
				1797	if ((constOp = dyn_cast<Constant>(I.getOperand(1)))) {
Evgeniy Stepanov	857d9d2	2012-11-29 14:25:47 +0000	[diff] [blame]	1798	op = I.getOperand(0);
Evgeniy Stepanov	d04d07e	2015-08-25 22:19:11 +0000	[diff] [blame]	1799	pre = I.getPredicate();
				1800	} else if ((constOp = dyn_cast<Constant>(I.getOperand(0)))) {
				1801	op = I.getOperand(1);
				1802	pre = I.getSwappedPredicate();
				1803	} else {
				1804	handleShadowOr(I);
				1805	return;
Evgeniy Stepanov	857d9d2	2012-11-29 14:25:47 +0000	[diff] [blame]	1806	}
Evgeniy Stepanov	d04d07e	2015-08-25 22:19:11 +0000	[diff] [blame]	1807
				1808	if ((constOp->isNullValue() &&
				1809	(pre == CmpInst::ICMP_SLT \|\| pre == CmpInst::ICMP_SGE)) \|\|
				1810	(constOp->isAllOnesValue() &&
				1811	(pre == CmpInst::ICMP_SGT \|\| pre == CmpInst::ICMP_SLE))) {
Evgeniy Stepanov	857d9d2	2012-11-29 14:25:47 +0000	[diff] [blame]	1812	IRBuilder<> IRB(&I);
Evgeniy Stepanov	d04d07e	2015-08-25 22:19:11 +0000	[diff] [blame]	1813	Value *Shadow = IRB.CreateICmpSLT(getShadow(op), getCleanShadow(op),
				1814	"_msprop_icmp_s");
Evgeniy Stepanov	857d9d2	2012-11-29 14:25:47 +0000	[diff] [blame]	1815	setShadow(&I, Shadow);
				1816	setOrigin(&I, getOrigin(op));
				1817	} else {
				1818	handleShadowOr(I);
				1819	}
				1820	}
				1821
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1822	void visitICmpInst(ICmpInst &I) {
Evgeniy Stepanov	6f85ef3	2013-01-28 11:42:28 +0000	[diff] [blame]	1823	if (!ClHandleICmp) {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1824	handleShadowOr(I);
Evgeniy Stepanov	6f85ef3	2013-01-28 11:42:28 +0000	[diff] [blame]	1825	return;
				1826	}
				1827	if (I.isEquality()) {
				1828	handleEqualityComparison(I);
				1829	return;
				1830	}
				1831
				1832	assert(I.isRelational());
				1833	if (ClHandleICmpExact) {
				1834	handleRelationalComparisonExact(I);
				1835	return;
				1836	}
				1837	if (I.isSigned()) {
				1838	handleSignedRelationalComparison(I);
				1839	return;
				1840	}
				1841
				1842	assert(I.isUnsigned());
				1843	if ((isa<Constant>(I.getOperand(0)) \|\| isa<Constant>(I.getOperand(1)))) {
				1844	handleRelationalComparisonExact(I);
				1845	return;
				1846	}
				1847
				1848	handleShadowOr(I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1849	}
				1850
				1851	void visitFCmpInst(FCmpInst &I) {
				1852	handleShadowOr(I);
				1853	}
				1854
				1855	void handleShift(BinaryOperator &I) {
				1856	IRBuilder<> IRB(&I);
				1857	// If any of the S2 bits are poisoned, the whole thing is poisoned.
				1858	// Otherwise perform the same shift on S1.
				1859	Value *S1 = getShadow(&I, 0);
				1860	Value *S2 = getShadow(&I, 1);
				1861	Value *S2Conv = IRB.CreateSExt(IRB.CreateICmpNE(S2, getCleanShadow(S2)),
				1862	S2->getType());
				1863	Value *V2 = I.getOperand(1);
				1864	Value *Shift = IRB.CreateBinOp(I.getOpcode(), S1, V2);
				1865	setShadow(&I, IRB.CreateOr(Shift, S2Conv));
				1866	setOriginForNaryOp(I);
				1867	}
				1868
				1869	void visitShl(BinaryOperator &I) { handleShift(I); }
				1870	void visitAShr(BinaryOperator &I) { handleShift(I); }
				1871	void visitLShr(BinaryOperator &I) { handleShift(I); }
				1872
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1873	/// \brief Instrument llvm.memmove
				1874	///
				1875	/// At this point we don't know if llvm.memmove will be inlined or not.
				1876	/// If we don't instrument it and it gets inlined,
				1877	/// our interceptor will not kick in and we will lose the memmove.
				1878	/// If we instrument the call here, but it does not get inlined,
				1879	/// we will memove the shadow twice: which is bad in case
				1880	/// of overlapping regions. So, we simply lower the intrinsic to a call.
				1881	///
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	1882	/// Similar situation exists for memcpy and memset.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1883	void visitMemMoveInst(MemMoveInst &I) {
				1884	IRBuilder<> IRB(&I);
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	1885	IRB.CreateCall(
				1886	MS.MemmoveFn,
				1887	{IRB.CreatePointerCast(I.getArgOperand(0), IRB.getInt8PtrTy()),
				1888	IRB.CreatePointerCast(I.getArgOperand(1), IRB.getInt8PtrTy()),
				1889	IRB.CreateIntCast(I.getArgOperand(2), MS.IntptrTy, false)});
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1890	I.eraseFromParent();
				1891	}
				1892
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	1893	// Similar to memmove: avoid copying shadow twice.
				1894	// This is somewhat unfortunate as it may slowdown small constant memcpys.
				1895	// FIXME: consider doing manual inline for small constant sizes and proper
				1896	// alignment.
				1897	void visitMemCpyInst(MemCpyInst &I) {
				1898	IRBuilder<> IRB(&I);
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	1899	IRB.CreateCall(
				1900	MS.MemcpyFn,
				1901	{IRB.CreatePointerCast(I.getArgOperand(0), IRB.getInt8PtrTy()),
				1902	IRB.CreatePointerCast(I.getArgOperand(1), IRB.getInt8PtrTy()),
				1903	IRB.CreateIntCast(I.getArgOperand(2), MS.IntptrTy, false)});
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	1904	I.eraseFromParent();
				1905	}
				1906
				1907	// Same as memcpy.
				1908	void visitMemSetInst(MemSetInst &I) {
				1909	IRBuilder<> IRB(&I);
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	1910	IRB.CreateCall(
				1911	MS.MemsetFn,
				1912	{IRB.CreatePointerCast(I.getArgOperand(0), IRB.getInt8PtrTy()),
				1913	IRB.CreateIntCast(I.getArgOperand(1), IRB.getInt32Ty(), false),
				1914	IRB.CreateIntCast(I.getArgOperand(2), MS.IntptrTy, false)});
Evgeniy Stepanov	62b5db9	2012-11-29 12:49:04 +0000	[diff] [blame]	1915	I.eraseFromParent();
				1916	}
				1917
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	1918	void visitVAStartInst(VAStartInst &I) {
				1919	VAHelper->visitVAStartInst(I);
				1920	}
				1921
				1922	void visitVACopyInst(VACopyInst &I) {
				1923	VAHelper->visitVACopyInst(I);
				1924	}
				1925
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	1926	/// \brief Handle vector store-like intrinsics.
				1927	///
				1928	/// Instrument intrinsics that look like a simple SIMD store: writes memory,
				1929	/// has 1 pointer argument and 1 vector argument, returns void.
				1930	bool handleVectorStoreIntrinsic(IntrinsicInst &I) {
				1931	IRBuilder<> IRB(&I);
				1932	Value* Addr = I.getArgOperand(0);
				1933	Value *Shadow = getShadow(&I, 1);
				1934	Value *ShadowPtr = getShadowPtr(Addr, Shadow->getType(), IRB);
				1935
				1936	// We don't know the pointer alignment (could be unaligned SSE store!).
				1937	// Have to assume to worst case.
				1938	IRB.CreateAlignedStore(Shadow, ShadowPtr, 1);
				1939
				1940	if (ClCheckAccessAddress)
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1941	insertShadowCheck(Addr, &I);
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	1942
				1943	// FIXME: use ClStoreCleanOrigin
				1944	// FIXME: factor out common code from materializeStores
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	1945	if (MS.TrackOrigins)
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	1946	IRB.CreateStore(getOrigin(&I, 1), getOriginPtr(Addr, IRB, 1));
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	1947	return true;
				1948	}
				1949
				1950	/// \brief Handle vector load-like intrinsics.
				1951	///
				1952	/// Instrument intrinsics that look like a simple SIMD load: reads memory,
				1953	/// has 1 pointer argument, returns a vector.
				1954	bool handleVectorLoadIntrinsic(IntrinsicInst &I) {
				1955	IRBuilder<> IRB(&I);
				1956	Value *Addr = I.getArgOperand(0);
				1957
				1958	Type *ShadowTy = getShadowTy(&I);
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	1959	if (PropagateShadow) {
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	1960	Value *ShadowPtr = getShadowPtr(Addr, ShadowTy, IRB);
				1961	// We don't know the pointer alignment (could be unaligned SSE load!).
				1962	// Have to assume to worst case.
				1963	setShadow(&I, IRB.CreateAlignedLoad(ShadowPtr, 1, "_msld"));
				1964	} else {
				1965	setShadow(&I, getCleanShadow(&I));
				1966	}
				1967
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	1968	if (ClCheckAccessAddress)
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	1969	insertShadowCheck(Addr, &I);
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	1970
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	1971	if (MS.TrackOrigins) {
Evgeniy Stepanov	174242c	2014-07-03 11:56:30 +0000	[diff] [blame]	1972	if (PropagateShadow)
Evgeniy Stepanov	d85ddee	2014-12-05 14:34:03 +0000	[diff] [blame]	1973	setOrigin(&I, IRB.CreateLoad(getOriginPtr(Addr, IRB, 1)));
Evgeniy Stepanov	00062b4	2013-02-28 11:25:14 +0000	[diff] [blame]	1974	else
				1975	setOrigin(&I, getCleanOrigin());
				1976	}
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	1977	return true;
				1978	}
				1979
				1980	/// \brief Handle (SIMD arithmetic)-like intrinsics.
				1981	///
				1982	/// Instrument intrinsics with any number of arguments of the same type,
				1983	/// equal to the return type. The type should be simple (no aggregates or
				1984	/// pointers; vectors are fine).
				1985	/// Caller guarantees that this intrinsic does not access memory.
				1986	bool maybeHandleSimpleNomemIntrinsic(IntrinsicInst &I) {
				1987	Type *RetTy = I.getType();
				1988	if (!(RetTy->isIntOrIntVectorTy() \|\|
				1989	RetTy->isFPOrFPVectorTy() \|\|
				1990	RetTy->isX86_MMXTy()))
				1991	return false;
				1992
				1993	unsigned NumArgOperands = I.getNumArgOperands();
				1994
				1995	for (unsigned i = 0; i < NumArgOperands; ++i) {
				1996	Type *Ty = I.getArgOperand(i)->getType();
				1997	if (Ty != RetTy)
				1998	return false;
				1999	}
				2000
				2001	IRBuilder<> IRB(&I);
				2002	ShadowAndOriginCombiner SC(this, IRB);
				2003	for (unsigned i = 0; i < NumArgOperands; ++i)
				2004	SC.Add(I.getArgOperand(i));
				2005	SC.Done(&I);
				2006
				2007	return true;
				2008	}
				2009
				2010	/// \brief Heuristically instrument unknown intrinsics.
				2011	///
				2012	/// The main purpose of this code is to do something reasonable with all
				2013	/// random intrinsics we might encounter, most importantly - SIMD intrinsics.
				2014	/// We recognize several classes of intrinsics by their argument types and
				2015	/// ModRefBehaviour and apply special intrumentation when we are reasonably
				2016	/// sure that we know what the intrinsic does.
				2017	///
				2018	/// We special-case intrinsics where this approach fails. See llvm.bswap
				2019	/// handling as an example of that.
				2020	bool handleUnknownIntrinsic(IntrinsicInst &I) {
				2021	unsigned NumArgOperands = I.getNumArgOperands();
				2022	if (NumArgOperands == 0)
				2023	return false;
				2024
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	2025	if (NumArgOperands == 2 &&
				2026	I.getArgOperand(0)->getType()->isPointerTy() &&
				2027	I.getArgOperand(1)->getType()->isVectorTy() &&
				2028	I.getType()->isVoidTy() &&
Igor Laevsky	68688df	2015-10-20 21:33:30 +0000	[diff] [blame]	2029	!I.onlyReadsMemory()) {
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	2030	// This looks like a vector store.
				2031	return handleVectorStoreIntrinsic(I);
				2032	}
				2033
				2034	if (NumArgOperands == 1 &&
				2035	I.getArgOperand(0)->getType()->isPointerTy() &&
				2036	I.getType()->isVectorTy() &&
Igor Laevsky	68688df	2015-10-20 21:33:30 +0000	[diff] [blame]	2037	I.onlyReadsMemory()) {
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	2038	// This looks like a vector load.
				2039	return handleVectorLoadIntrinsic(I);
				2040	}
				2041
Igor Laevsky	68688df	2015-10-20 21:33:30 +0000	[diff] [blame]	2042	if (I.doesNotAccessMemory())
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	2043	if (maybeHandleSimpleNomemIntrinsic(I))
				2044	return true;
				2045
				2046	// FIXME: detect and handle SSE maskstore/maskload
				2047	return false;
				2048	}
				2049
Evgeniy Stepanov	8b51bab	2012-12-05 14:39:55 +0000	[diff] [blame]	2050	void handleBswap(IntrinsicInst &I) {
				2051	IRBuilder<> IRB(&I);
				2052	Value *Op = I.getArgOperand(0);
				2053	Type *OpType = Op->getType();
				2054	Function *BswapFunc = Intrinsic::getDeclaration(
Craig Topper	e1d1294	2014-08-27 05:25:25 +0000	[diff] [blame]	2055	F.getParent(), Intrinsic::bswap, makeArrayRef(&OpType, 1));
Evgeniy Stepanov	8b51bab	2012-12-05 14:39:55 +0000	[diff] [blame]	2056	setShadow(&I, IRB.CreateCall(BswapFunc, getShadow(Op)));
				2057	setOrigin(&I, getOrigin(Op));
				2058	}
				2059
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2060	// \brief Instrument vector convert instrinsic.
				2061	//
				2062	// This function instruments intrinsics like cvtsi2ss:
				2063	// %Out = int_xxx_cvtyyy(%ConvertOp)
				2064	// or
				2065	// %Out = int_xxx_cvtyyy(%CopyOp, %ConvertOp)
				2066	// Intrinsic converts \p NumUsedElements elements of \p ConvertOp to the same
				2067	// number \p Out elements, and (if has 2 arguments) copies the rest of the
				2068	// elements from \p CopyOp.
				2069	// In most cases conversion involves floating-point value which may trigger a
				2070	// hardware exception when not fully initialized. For this reason we require
				2071	// \p ConvertOp[0:NumUsedElements] to be fully initialized and trap otherwise.
				2072	// We copy the shadow of \p CopyOp[NumUsedElements:] to \p
				2073	// Out[NumUsedElements:]. This means that intrinsics without \p CopyOp always
				2074	// return a fully initialized value.
				2075	void handleVectorConvertIntrinsic(IntrinsicInst &I, int NumUsedElements) {
				2076	IRBuilder<> IRB(&I);
				2077	Value CopyOp, ConvertOp;
				2078
				2079	switch (I.getNumArgOperands()) {
Igor Breger	dfcc3d3	2015-06-17 07:23:57 +0000	[diff] [blame]	2080	case 3:
				2081	assert(isa<ConstantInt>(I.getArgOperand(2)) && "Invalid rounding mode");
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2082	case 2:
				2083	CopyOp = I.getArgOperand(0);
				2084	ConvertOp = I.getArgOperand(1);
				2085	break;
				2086	case 1:
				2087	ConvertOp = I.getArgOperand(0);
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	2088	CopyOp = nullptr;
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2089	break;
				2090	default:
				2091	llvm_unreachable("Cvt intrinsic with unsupported number of arguments.");
				2092	}
				2093
				2094	// The first NumUsedElements elements of ConvertOp are converted to the
				2095	// same number of output elements. The rest of the output is copied from
				2096	// CopyOp, or (if not available) filled with zeroes.
				2097	// Combine shadow for elements of ConvertOp that are used in this operation,
				2098	// and insert a check.
				2099	// FIXME: consider propagating shadow of ConvertOp, at least in the case of
				2100	// int->any conversion.
				2101	Value *ConvertShadow = getShadow(ConvertOp);
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	2102	Value *AggShadow = nullptr;
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2103	if (ConvertOp->getType()->isVectorTy()) {
				2104	AggShadow = IRB.CreateExtractElement(
				2105	ConvertShadow, ConstantInt::get(IRB.getInt32Ty(), 0));
				2106	for (int i = 1; i < NumUsedElements; ++i) {
				2107	Value *MoreShadow = IRB.CreateExtractElement(
				2108	ConvertShadow, ConstantInt::get(IRB.getInt32Ty(), i));
				2109	AggShadow = IRB.CreateOr(AggShadow, MoreShadow);
				2110	}
				2111	} else {
				2112	AggShadow = ConvertShadow;
				2113	}
				2114	assert(AggShadow->getType()->isIntegerTy());
				2115	insertShadowCheck(AggShadow, getOrigin(ConvertOp), &I);
				2116
				2117	// Build result shadow by zero-filling parts of CopyOp shadow that come from
				2118	// ConvertOp.
				2119	if (CopyOp) {
				2120	assert(CopyOp->getType() == I.getType());
				2121	assert(CopyOp->getType()->isVectorTy());
				2122	Value *ResultShadow = getShadow(CopyOp);
				2123	Type *EltTy = ResultShadow->getType()->getVectorElementType();
				2124	for (int i = 0; i < NumUsedElements; ++i) {
				2125	ResultShadow = IRB.CreateInsertElement(
				2126	ResultShadow, ConstantInt::getNullValue(EltTy),
				2127	ConstantInt::get(IRB.getInt32Ty(), i));
				2128	}
				2129	setShadow(&I, ResultShadow);
				2130	setOrigin(&I, getOrigin(CopyOp));
				2131	} else {
				2132	setShadow(&I, getCleanShadow(&I));
Evgeniy Stepanov	2e5a1f1	2014-12-03 14:15:53 +0000	[diff] [blame]	2133	setOrigin(&I, getCleanOrigin());
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2134	}
				2135	}
				2136
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2137	// Given a scalar or vector, extract lower 64 bits (or less), and return all
				2138	// zeroes if it is zero, and all ones otherwise.
				2139	Value Lower64ShadowExtend(IRBuilder<> &IRB, Value S, Type *T) {
				2140	if (S->getType()->isVectorTy())
				2141	S = CreateShadowCast(IRB, S, IRB.getInt64Ty(), /* Signed */ true);
				2142	assert(S->getType()->getPrimitiveSizeInBits() <= 64);
				2143	Value *S2 = IRB.CreateICmpNE(S, getCleanShadow(S));
				2144	return CreateShadowCast(IRB, S2, T, /* Signed */ true);
				2145	}
				2146
Evgeniy Stepanov	35f3e5e	2016-04-29 01:19:52 +0000	[diff] [blame]	2147	// Given a vector, extract its first element, and return all
				2148	// zeroes if it is zero, and all ones otherwise.
				2149	Value LowerElementShadowExtend(IRBuilder<> &IRB, Value S, Type *T) {
Ivan Krasin	8dafa2d	2016-04-29 02:09:57 +0000	[diff] [blame]	2150	Value *S1 = IRB.CreateExtractElement(S, (uint64_t)0);
Evgeniy Stepanov	35f3e5e	2016-04-29 01:19:52 +0000	[diff] [blame]	2151	Value *S2 = IRB.CreateICmpNE(S1, getCleanShadow(S1));
				2152	return CreateShadowCast(IRB, S2, T, /* Signed */ true);
				2153	}
				2154
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2155	Value VariableShadowExtend(IRBuilder<> &IRB, Value S) {
				2156	Type *T = S->getType();
				2157	assert(T->isVectorTy());
				2158	Value *S2 = IRB.CreateICmpNE(S, getCleanShadow(S));
				2159	return IRB.CreateSExt(S2, T);
				2160	}
				2161
				2162	// \brief Instrument vector shift instrinsic.
				2163	//
				2164	// This function instruments intrinsics like int_x86_avx2_psll_w.
				2165	// Intrinsic shifts %In by %ShiftSize bits.
				2166	// %ShiftSize may be a vector. In that case the lower 64 bits determine shift
				2167	// size, and the rest is ignored. Behavior is defined even if shift size is
				2168	// greater than register (or field) width.
				2169	void handleVectorShiftIntrinsic(IntrinsicInst &I, bool Variable) {
				2170	assert(I.getNumArgOperands() == 2);
				2171	IRBuilder<> IRB(&I);
				2172	// If any of the S2 bits are poisoned, the whole thing is poisoned.
				2173	// Otherwise perform the same shift on S1.
				2174	Value *S1 = getShadow(&I, 0);
				2175	Value *S2 = getShadow(&I, 1);
				2176	Value *S2Conv = Variable ? VariableShadowExtend(IRB, S2)
				2177	: Lower64ShadowExtend(IRB, S2, getShadowTy(&I));
				2178	Value *V1 = I.getOperand(0);
				2179	Value *V2 = I.getOperand(1);
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	2180	Value *Shift = IRB.CreateCall(I.getCalledValue(),
				2181	{IRB.CreateBitCast(S1, V1->getType()), V2});
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2182	Shift = IRB.CreateBitCast(Shift, getShadowTy(&I));
				2183	setShadow(&I, IRB.CreateOr(Shift, S2Conv));
				2184	setOriginForNaryOp(I);
				2185	}
				2186
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2187	// \brief Get an X86_MMX-sized vector type.
				2188	Type *getMMXVectorTy(unsigned EltSizeInBits) {
				2189	const unsigned X86_MMXSizeInBits = 64;
				2190	return VectorType::get(IntegerType::get(*MS.C, EltSizeInBits),
				2191	X86_MMXSizeInBits / EltSizeInBits);
				2192	}
				2193
				2194	// \brief Returns a signed counterpart for an (un)signed-saturate-and-pack
				2195	// intrinsic.
				2196	Intrinsic::ID getSignedPackIntrinsic(Intrinsic::ID id) {
				2197	switch (id) {
				2198	case llvm::Intrinsic::x86_sse2_packsswb_128:
				2199	case llvm::Intrinsic::x86_sse2_packuswb_128:
				2200	return llvm::Intrinsic::x86_sse2_packsswb_128;
				2201
				2202	case llvm::Intrinsic::x86_sse2_packssdw_128:
				2203	case llvm::Intrinsic::x86_sse41_packusdw:
				2204	return llvm::Intrinsic::x86_sse2_packssdw_128;
				2205
				2206	case llvm::Intrinsic::x86_avx2_packsswb:
				2207	case llvm::Intrinsic::x86_avx2_packuswb:
				2208	return llvm::Intrinsic::x86_avx2_packsswb;
				2209
				2210	case llvm::Intrinsic::x86_avx2_packssdw:
				2211	case llvm::Intrinsic::x86_avx2_packusdw:
				2212	return llvm::Intrinsic::x86_avx2_packssdw;
				2213
				2214	case llvm::Intrinsic::x86_mmx_packsswb:
				2215	case llvm::Intrinsic::x86_mmx_packuswb:
				2216	return llvm::Intrinsic::x86_mmx_packsswb;
				2217
				2218	case llvm::Intrinsic::x86_mmx_packssdw:
				2219	return llvm::Intrinsic::x86_mmx_packssdw;
				2220	default:
				2221	llvm_unreachable("unexpected intrinsic id");
				2222	}
				2223	}
				2224
Evgeniy Stepanov	5d97293	2014-06-17 11:26:00 +0000	[diff] [blame]	2225	// \brief Instrument vector pack instrinsic.
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2226	//
				2227	// This function instruments intrinsics like x86_mmx_packsswb, that
Evgeniy Stepanov	5d97293	2014-06-17 11:26:00 +0000	[diff] [blame]	2228	// packs elements of 2 input vectors into half as many bits with saturation.
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2229	// Shadow is propagated with the signed variant of the same intrinsic applied
				2230	// to sext(Sa != zeroinitializer), sext(Sb != zeroinitializer).
				2231	// EltSizeInBits is used only for x86mmx arguments.
				2232	void handleVectorPackIntrinsic(IntrinsicInst &I, unsigned EltSizeInBits = 0) {
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2233	assert(I.getNumArgOperands() == 2);
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2234	bool isX86_MMX = I.getOperand(0)->getType()->isX86_MMXTy();
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2235	IRBuilder<> IRB(&I);
				2236	Value *S1 = getShadow(&I, 0);
				2237	Value *S2 = getShadow(&I, 1);
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2238	assert(isX86_MMX \|\| S1->getType()->isVectorTy());
				2239
				2240	// SExt and ICmpNE below must apply to individual elements of input vectors.
				2241	// In case of x86mmx arguments, cast them to appropriate vector types and
				2242	// back.
				2243	Type *T = isX86_MMX ? getMMXVectorTy(EltSizeInBits) : S1->getType();
				2244	if (isX86_MMX) {
				2245	S1 = IRB.CreateBitCast(S1, T);
				2246	S2 = IRB.CreateBitCast(S2, T);
				2247	}
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2248	Value *S1_ext = IRB.CreateSExt(
				2249	IRB.CreateICmpNE(S1, llvm::Constant::getNullValue(T)), T);
				2250	Value *S2_ext = IRB.CreateSExt(
				2251	IRB.CreateICmpNE(S2, llvm::Constant::getNullValue(T)), T);
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2252	if (isX86_MMX) {
				2253	Type X86_MMXTy = Type::getX86_MMXTy(MS.C);
				2254	S1_ext = IRB.CreateBitCast(S1_ext, X86_MMXTy);
				2255	S2_ext = IRB.CreateBitCast(S2_ext, X86_MMXTy);
				2256	}
				2257
				2258	Function *ShadowFn = Intrinsic::getDeclaration(
				2259	F.getParent(), getSignedPackIntrinsic(I.getIntrinsicID()));
				2260
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	2261	Value *S =
				2262	IRB.CreateCall(ShadowFn, {S1_ext, S2_ext}, "_msprop_vector_pack");
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2263	if (isX86_MMX) S = IRB.CreateBitCast(S, getShadowTy(&I));
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2264	setShadow(&I, S);
				2265	setOriginForNaryOp(I);
				2266	}
				2267
Evgeniy Stepanov	4ea1647	2014-06-18 12:02:29 +0000	[diff] [blame]	2268	// \brief Instrument sum-of-absolute-differencies intrinsic.
				2269	void handleVectorSadIntrinsic(IntrinsicInst &I) {
				2270	const unsigned SignificantBitsPerResultElement = 16;
				2271	bool isX86_MMX = I.getOperand(0)->getType()->isX86_MMXTy();
				2272	Type ResTy = isX86_MMX ? IntegerType::get(MS.C, 64) : I.getType();
				2273	unsigned ZeroBitsPerResultElement =
				2274	ResTy->getScalarSizeInBits() - SignificantBitsPerResultElement;
				2275
				2276	IRBuilder<> IRB(&I);
				2277	Value *S = IRB.CreateOr(getShadow(&I, 0), getShadow(&I, 1));
				2278	S = IRB.CreateBitCast(S, ResTy);
				2279	S = IRB.CreateSExt(IRB.CreateICmpNE(S, Constant::getNullValue(ResTy)),
				2280	ResTy);
				2281	S = IRB.CreateLShr(S, ZeroBitsPerResultElement);
				2282	S = IRB.CreateBitCast(S, getShadowTy(&I));
				2283	setShadow(&I, S);
				2284	setOriginForNaryOp(I);
				2285	}
				2286
				2287	// \brief Instrument multiply-add intrinsic.
				2288	void handleVectorPmaddIntrinsic(IntrinsicInst &I,
				2289	unsigned EltSizeInBits = 0) {
				2290	bool isX86_MMX = I.getOperand(0)->getType()->isX86_MMXTy();
				2291	Type ResTy = isX86_MMX ? getMMXVectorTy(EltSizeInBits 2) : I.getType();
				2292	IRBuilder<> IRB(&I);
				2293	Value *S = IRB.CreateOr(getShadow(&I, 0), getShadow(&I, 1));
				2294	S = IRB.CreateBitCast(S, ResTy);
				2295	S = IRB.CreateSExt(IRB.CreateICmpNE(S, Constant::getNullValue(ResTy)),
				2296	ResTy);
				2297	S = IRB.CreateBitCast(S, getShadowTy(&I));
				2298	setShadow(&I, S);
				2299	setOriginForNaryOp(I);
				2300	}
				2301
Evgeniy Stepanov	35f3e5e	2016-04-29 01:19:52 +0000	[diff] [blame]	2302	// \brief Instrument compare-packed intrinsic.
				2303	// Basically, an or followed by sext(icmp ne 0) to end up with all-zeros or
				2304	// all-ones shadow.
				2305	void handleVectorComparePackedIntrinsic(IntrinsicInst &I) {
				2306	IRBuilder<> IRB(&I);
				2307	Type *ResTy = getShadowTy(&I);
				2308	Value *S0 = IRB.CreateOr(getShadow(&I, 0), getShadow(&I, 1));
				2309	Value *S = IRB.CreateSExt(
				2310	IRB.CreateICmpNE(S0, Constant::getNullValue(ResTy)), ResTy);
				2311	setShadow(&I, S);
				2312	setOriginForNaryOp(I);
				2313	}
				2314
				2315	// \brief Instrument compare-scalar intrinsic.
				2316	// This handles both cmp* intrinsics which return the result in the first
				2317	// element of a vector, and comi* which return the result as i32.
				2318	void handleVectorCompareScalarIntrinsic(IntrinsicInst &I) {
				2319	IRBuilder<> IRB(&I);
				2320	Value *S0 = IRB.CreateOr(getShadow(&I, 0), getShadow(&I, 1));
				2321	Value *S = LowerElementShadowExtend(IRB, S0, getShadowTy(&I));
				2322	setShadow(&I, S);
				2323	setOriginForNaryOp(I);
				2324	}
				2325
Evgeniy Stepanov	8b51bab	2012-12-05 14:39:55 +0000	[diff] [blame]	2326	void visitIntrinsicInst(IntrinsicInst &I) {
				2327	switch (I.getIntrinsicID()) {
				2328	case llvm::Intrinsic::bswap:
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	2329	handleBswap(I);
				2330	break;
Asaf Badouh	ad5c3fc	2016-02-07 14:59:13 +0000	[diff] [blame]	2331	case llvm::Intrinsic::x86_avx512_vcvtsd2usi64:
				2332	case llvm::Intrinsic::x86_avx512_vcvtsd2usi32:
				2333	case llvm::Intrinsic::x86_avx512_vcvtss2usi64:
				2334	case llvm::Intrinsic::x86_avx512_vcvtss2usi32:
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2335	case llvm::Intrinsic::x86_avx512_cvttss2usi64:
				2336	case llvm::Intrinsic::x86_avx512_cvttss2usi:
				2337	case llvm::Intrinsic::x86_avx512_cvttsd2usi64:
				2338	case llvm::Intrinsic::x86_avx512_cvttsd2usi:
				2339	case llvm::Intrinsic::x86_avx512_cvtusi2sd:
				2340	case llvm::Intrinsic::x86_avx512_cvtusi2ss:
				2341	case llvm::Intrinsic::x86_avx512_cvtusi642sd:
				2342	case llvm::Intrinsic::x86_avx512_cvtusi642ss:
				2343	case llvm::Intrinsic::x86_sse2_cvtsd2si64:
				2344	case llvm::Intrinsic::x86_sse2_cvtsd2si:
				2345	case llvm::Intrinsic::x86_sse2_cvtsd2ss:
				2346	case llvm::Intrinsic::x86_sse2_cvtsi2sd:
				2347	case llvm::Intrinsic::x86_sse2_cvtsi642sd:
				2348	case llvm::Intrinsic::x86_sse2_cvtss2sd:
				2349	case llvm::Intrinsic::x86_sse2_cvttsd2si64:
				2350	case llvm::Intrinsic::x86_sse2_cvttsd2si:
				2351	case llvm::Intrinsic::x86_sse_cvtsi2ss:
				2352	case llvm::Intrinsic::x86_sse_cvtsi642ss:
				2353	case llvm::Intrinsic::x86_sse_cvtss2si64:
				2354	case llvm::Intrinsic::x86_sse_cvtss2si:
				2355	case llvm::Intrinsic::x86_sse_cvttss2si64:
				2356	case llvm::Intrinsic::x86_sse_cvttss2si:
				2357	handleVectorConvertIntrinsic(I, 1);
				2358	break;
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2359	case llvm::Intrinsic::x86_sse_cvtps2pi:
				2360	case llvm::Intrinsic::x86_sse_cvttps2pi:
				2361	handleVectorConvertIntrinsic(I, 2);
				2362	break;
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2363	case llvm::Intrinsic::x86_avx2_psll_w:
				2364	case llvm::Intrinsic::x86_avx2_psll_d:
				2365	case llvm::Intrinsic::x86_avx2_psll_q:
				2366	case llvm::Intrinsic::x86_avx2_pslli_w:
				2367	case llvm::Intrinsic::x86_avx2_pslli_d:
				2368	case llvm::Intrinsic::x86_avx2_pslli_q:
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2369	case llvm::Intrinsic::x86_avx2_psrl_w:
				2370	case llvm::Intrinsic::x86_avx2_psrl_d:
				2371	case llvm::Intrinsic::x86_avx2_psrl_q:
				2372	case llvm::Intrinsic::x86_avx2_psra_w:
				2373	case llvm::Intrinsic::x86_avx2_psra_d:
				2374	case llvm::Intrinsic::x86_avx2_psrli_w:
				2375	case llvm::Intrinsic::x86_avx2_psrli_d:
				2376	case llvm::Intrinsic::x86_avx2_psrli_q:
				2377	case llvm::Intrinsic::x86_avx2_psrai_w:
				2378	case llvm::Intrinsic::x86_avx2_psrai_d:
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2379	case llvm::Intrinsic::x86_sse2_psll_w:
				2380	case llvm::Intrinsic::x86_sse2_psll_d:
				2381	case llvm::Intrinsic::x86_sse2_psll_q:
				2382	case llvm::Intrinsic::x86_sse2_pslli_w:
				2383	case llvm::Intrinsic::x86_sse2_pslli_d:
				2384	case llvm::Intrinsic::x86_sse2_pslli_q:
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2385	case llvm::Intrinsic::x86_sse2_psrl_w:
				2386	case llvm::Intrinsic::x86_sse2_psrl_d:
				2387	case llvm::Intrinsic::x86_sse2_psrl_q:
				2388	case llvm::Intrinsic::x86_sse2_psra_w:
				2389	case llvm::Intrinsic::x86_sse2_psra_d:
				2390	case llvm::Intrinsic::x86_sse2_psrli_w:
				2391	case llvm::Intrinsic::x86_sse2_psrli_d:
				2392	case llvm::Intrinsic::x86_sse2_psrli_q:
				2393	case llvm::Intrinsic::x86_sse2_psrai_w:
				2394	case llvm::Intrinsic::x86_sse2_psrai_d:
Evgeniy Stepanov	77be532	2014-03-03 13:47:42 +0000	[diff] [blame]	2395	case llvm::Intrinsic::x86_mmx_psll_w:
				2396	case llvm::Intrinsic::x86_mmx_psll_d:
				2397	case llvm::Intrinsic::x86_mmx_psll_q:
				2398	case llvm::Intrinsic::x86_mmx_pslli_w:
				2399	case llvm::Intrinsic::x86_mmx_pslli_d:
				2400	case llvm::Intrinsic::x86_mmx_pslli_q:
				2401	case llvm::Intrinsic::x86_mmx_psrl_w:
				2402	case llvm::Intrinsic::x86_mmx_psrl_d:
				2403	case llvm::Intrinsic::x86_mmx_psrl_q:
				2404	case llvm::Intrinsic::x86_mmx_psra_w:
				2405	case llvm::Intrinsic::x86_mmx_psra_d:
				2406	case llvm::Intrinsic::x86_mmx_psrli_w:
				2407	case llvm::Intrinsic::x86_mmx_psrli_d:
				2408	case llvm::Intrinsic::x86_mmx_psrli_q:
				2409	case llvm::Intrinsic::x86_mmx_psrai_w:
				2410	case llvm::Intrinsic::x86_mmx_psrai_d:
				2411	handleVectorShiftIntrinsic(I, /* Variable */ false);
				2412	break;
				2413	case llvm::Intrinsic::x86_avx2_psllv_d:
				2414	case llvm::Intrinsic::x86_avx2_psllv_d_256:
				2415	case llvm::Intrinsic::x86_avx2_psllv_q:
				2416	case llvm::Intrinsic::x86_avx2_psllv_q_256:
				2417	case llvm::Intrinsic::x86_avx2_psrlv_d:
				2418	case llvm::Intrinsic::x86_avx2_psrlv_d_256:
				2419	case llvm::Intrinsic::x86_avx2_psrlv_q:
				2420	case llvm::Intrinsic::x86_avx2_psrlv_q_256:
				2421	case llvm::Intrinsic::x86_avx2_psrav_d:
				2422	case llvm::Intrinsic::x86_avx2_psrav_d_256:
				2423	handleVectorShiftIntrinsic(I, /* Variable */ true);
				2424	break;
				2425
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2426	case llvm::Intrinsic::x86_sse2_packsswb_128:
				2427	case llvm::Intrinsic::x86_sse2_packssdw_128:
				2428	case llvm::Intrinsic::x86_sse2_packuswb_128:
				2429	case llvm::Intrinsic::x86_sse41_packusdw:
				2430	case llvm::Intrinsic::x86_avx2_packsswb:
				2431	case llvm::Intrinsic::x86_avx2_packssdw:
				2432	case llvm::Intrinsic::x86_avx2_packuswb:
				2433	case llvm::Intrinsic::x86_avx2_packusdw:
Evgeniy Stepanov	d425a2b	2014-06-02 12:31:44 +0000	[diff] [blame]	2434	handleVectorPackIntrinsic(I);
				2435	break;
				2436
Evgeniy Stepanov	f7c29a9	2014-06-09 08:40:16 +0000	[diff] [blame]	2437	case llvm::Intrinsic::x86_mmx_packsswb:
				2438	case llvm::Intrinsic::x86_mmx_packuswb:
				2439	handleVectorPackIntrinsic(I, 16);
				2440	break;
				2441
				2442	case llvm::Intrinsic::x86_mmx_packssdw:
				2443	handleVectorPackIntrinsic(I, 32);
				2444	break;
				2445
Evgeniy Stepanov	4ea1647	2014-06-18 12:02:29 +0000	[diff] [blame]	2446	case llvm::Intrinsic::x86_mmx_psad_bw:
				2447	case llvm::Intrinsic::x86_sse2_psad_bw:
				2448	case llvm::Intrinsic::x86_avx2_psad_bw:
				2449	handleVectorSadIntrinsic(I);
				2450	break;
				2451
				2452	case llvm::Intrinsic::x86_sse2_pmadd_wd:
				2453	case llvm::Intrinsic::x86_avx2_pmadd_wd:
				2454	case llvm::Intrinsic::x86_ssse3_pmadd_ub_sw_128:
				2455	case llvm::Intrinsic::x86_avx2_pmadd_ub_sw:
				2456	handleVectorPmaddIntrinsic(I);
				2457	break;
				2458
				2459	case llvm::Intrinsic::x86_ssse3_pmadd_ub_sw:
				2460	handleVectorPmaddIntrinsic(I, 8);
				2461	break;
				2462
				2463	case llvm::Intrinsic::x86_mmx_pmadd_wd:
				2464	handleVectorPmaddIntrinsic(I, 16);
				2465	break;
				2466
Evgeniy Stepanov	35f3e5e	2016-04-29 01:19:52 +0000	[diff] [blame]	2467	case llvm::Intrinsic::x86_sse_cmp_ss:
				2468	case llvm::Intrinsic::x86_sse2_cmp_sd:
				2469	case llvm::Intrinsic::x86_sse_comieq_ss:
				2470	case llvm::Intrinsic::x86_sse_comilt_ss:
				2471	case llvm::Intrinsic::x86_sse_comile_ss:
				2472	case llvm::Intrinsic::x86_sse_comigt_ss:
				2473	case llvm::Intrinsic::x86_sse_comige_ss:
				2474	case llvm::Intrinsic::x86_sse_comineq_ss:
				2475	case llvm::Intrinsic::x86_sse_ucomieq_ss:
				2476	case llvm::Intrinsic::x86_sse_ucomilt_ss:
				2477	case llvm::Intrinsic::x86_sse_ucomile_ss:
				2478	case llvm::Intrinsic::x86_sse_ucomigt_ss:
				2479	case llvm::Intrinsic::x86_sse_ucomige_ss:
				2480	case llvm::Intrinsic::x86_sse_ucomineq_ss:
				2481	case llvm::Intrinsic::x86_sse2_comieq_sd:
				2482	case llvm::Intrinsic::x86_sse2_comilt_sd:
				2483	case llvm::Intrinsic::x86_sse2_comile_sd:
				2484	case llvm::Intrinsic::x86_sse2_comigt_sd:
				2485	case llvm::Intrinsic::x86_sse2_comige_sd:
				2486	case llvm::Intrinsic::x86_sse2_comineq_sd:
				2487	case llvm::Intrinsic::x86_sse2_ucomieq_sd:
				2488	case llvm::Intrinsic::x86_sse2_ucomilt_sd:
				2489	case llvm::Intrinsic::x86_sse2_ucomile_sd:
				2490	case llvm::Intrinsic::x86_sse2_ucomigt_sd:
				2491	case llvm::Intrinsic::x86_sse2_ucomige_sd:
				2492	case llvm::Intrinsic::x86_sse2_ucomineq_sd:
				2493	handleVectorCompareScalarIntrinsic(I);
				2494	break;
				2495
				2496	case llvm::Intrinsic::x86_sse_cmp_ps:
				2497	case llvm::Intrinsic::x86_sse2_cmp_pd:
				2498	// FIXME: For x86_avx_cmp_pd_256 and x86_avx_cmp_ps_256 this function
				2499	// generates reasonably looking IR that fails in the backend with "Do not
				2500	// know how to split the result of this operator!".
				2501	handleVectorComparePackedIntrinsic(I);
				2502	break;
				2503
Evgeniy Stepanov	8b51bab	2012-12-05 14:39:55 +0000	[diff] [blame]	2504	default:
Evgeniy Stepanov	d7571cd	2012-12-19 11:22:04 +0000	[diff] [blame]	2505	if (!handleUnknownIntrinsic(I))
				2506	visitInstruction(I);
Evgeniy Stepanov	88b8dce	2012-12-17 16:30:05 +0000	[diff] [blame]	2507	break;
Evgeniy Stepanov	8b51bab	2012-12-05 14:39:55 +0000	[diff] [blame]	2508	}
				2509	}
				2510
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2511	void visitCallSite(CallSite CS) {
				2512	Instruction &I = *CS.getInstruction();
				2513	assert((CS.isCall() \|\| CS.isInvoke()) && "Unknown type of CallSite");
				2514	if (CS.isCall()) {
Evgeniy Stepanov	7ad7e83	2012-11-29 14:32:03 +0000	[diff] [blame]	2515	CallInst *Call = cast<CallInst>(&I);
				2516
				2517	// For inline asm, do the usual thing: check argument shadow and mark all
				2518	// outputs as clean. Note that any side effects of the inline asm that are
				2519	// not immediately visible in its constraints are not handled.
				2520	if (Call->isInlineAsm()) {
				2521	visitInstruction(I);
				2522	return;
				2523	}
				2524
Evgeniy Stepanov	8b51bab	2012-12-05 14:39:55 +0000	[diff] [blame]	2525	assert(!isa<IntrinsicInst>(&I) && "intrinsics are handled elsewhere");
Evgeniy Stepanov	383b61e	2012-12-07 09:08:32 +0000	[diff] [blame]	2526
				2527	// We are going to insert code that relies on the fact that the callee
				2528	// will become a non-readonly function after it is instrumented by us. To
				2529	// prevent this code from being optimized out, mark that function
				2530	// non-readonly in advance.
				2531	if (Function *Func = Call->getCalledFunction()) {
				2532	// Clear out readonly/readnone attributes.
				2533	AttrBuilder B;
Bill Wendling	3d7b0b8	2012-12-19 07:18:57 +0000	[diff] [blame]	2534	B.addAttribute(Attribute::ReadOnly)
				2535	.addAttribute(Attribute::ReadNone);
Bill Wendling	430fa9b	2013-01-23 00:45:55 +0000	[diff] [blame]	2536	Func->removeAttributes(AttributeSet::FunctionIndex,
				2537	AttributeSet::get(Func->getContext(),
				2538	AttributeSet::FunctionIndex,
				2539	B));
Evgeniy Stepanov	383b61e	2012-12-07 09:08:32 +0000	[diff] [blame]	2540	}
Marcin Koscielnicki	3feda22	2016-06-18 10:10:37 +0000	[diff] [blame]	2541
				2542	maybeMarkSanitizerLibraryCallNoBuiltin(Call, TLI);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2543	}
				2544	IRBuilder<> IRB(&I);
Evgeniy Stepanov	37b8645	2013-09-19 15:22:35 +0000	[diff] [blame]	2545
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2546	unsigned ArgOffset = 0;
				2547	DEBUG(dbgs() << " CallSite: " << I << "\n");
				2548	for (CallSite::arg_iterator ArgIt = CS.arg_begin(), End = CS.arg_end();
				2549	ArgIt != End; ++ArgIt) {
				2550	Value A = ArgIt;
				2551	unsigned i = ArgIt - CS.arg_begin();
				2552	if (!A->getType()->isSized()) {
				2553	DEBUG(dbgs() << "Arg " << i << " is not sized: " << I << "\n");
				2554	continue;
				2555	}
				2556	unsigned Size = 0;
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	2557	Value *Store = nullptr;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2558	// Compute the Shadow for arg even if it is ByVal, because
				2559	// in that case getShadow() will copy the actual arg shadow to
				2560	// __msan_param_tls.
				2561	Value *ArgShadow = getShadow(A);
				2562	Value *ArgShadowBase = getShadowPtrForArgument(A, IRB, ArgOffset);
				2563	DEBUG(dbgs() << " Arg#" << i << ": " << *A <<
				2564	" Shadow: " << *ArgShadow << "\n");
Evgeniy Stepanov	c8227aa	2014-07-17 09:10:37 +0000	[diff] [blame]	2565	bool ArgIsInitialized = false;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2566	const DataLayout &DL = F.getParent()->getDataLayout();
Bill Wendling	3d7b0b8	2012-12-19 07:18:57 +0000	[diff] [blame]	2567	if (CS.paramHasAttr(i + 1, Attribute::ByVal)) {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2568	assert(A->getType()->isPointerTy() &&
				2569	"ByVal argument is not a pointer!");
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2570	Size = DL.getTypeAllocSize(A->getType()->getPointerElementType());
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	2571	if (ArgOffset + Size > kParamTLSSize) break;
Evgeniy Stepanov	e08633e	2014-10-17 23:29:44 +0000	[diff] [blame]	2572	unsigned ParamAlignment = CS.getParamAlignment(i + 1);
				2573	unsigned Alignment = std::min(ParamAlignment, kShadowTLSAlignment);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2574	Store = IRB.CreateMemCpy(ArgShadowBase,
				2575	getShadowPtr(A, Type::getInt8Ty(*MS.C), IRB),
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	2576	Size, Alignment);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2577	} else {
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2578	Size = DL.getTypeAllocSize(A->getType());
Evgeniy Stepanov	35eb265	2014-10-22 00:12:40 +0000	[diff] [blame]	2579	if (ArgOffset + Size > kParamTLSSize) break;
Evgeniy Stepanov	d2bd319	2012-12-11 12:34:09 +0000	[diff] [blame]	2580	Store = IRB.CreateAlignedStore(ArgShadow, ArgShadowBase,
				2581	kShadowTLSAlignment);
Evgeniy Stepanov	c8227aa	2014-07-17 09:10:37 +0000	[diff] [blame]	2582	Constant *Cst = dyn_cast<Constant>(ArgShadow);
				2583	if (Cst && Cst->isNullValue()) ArgIsInitialized = true;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2584	}
Evgeniy Stepanov	c8227aa	2014-07-17 09:10:37 +0000	[diff] [blame]	2585	if (MS.TrackOrigins && !ArgIsInitialized)
Evgeniy Stepanov	49175b2	2012-12-14 13:43:11 +0000	[diff] [blame]	2586	IRB.CreateStore(getOrigin(A),
				2587	getOriginPtrForArgument(A, IRB, ArgOffset));
Edwin Vane	82f80d4	2013-01-29 17:42:24 +0000	[diff] [blame]	2588	(void)Store;
Craig Topper	e73658d	2014-04-28 04:05:08 +0000	[diff] [blame]	2589	assert(Size != 0 && Store != nullptr);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2590	DEBUG(dbgs() << " Param:" << *Store << "\n");
Rui Ueyama	da00f2f	2016-01-14 21:06:47 +0000	[diff] [blame]	2591	ArgOffset += alignTo(Size, 8);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2592	}
				2593	DEBUG(dbgs() << " done with call args\n");
				2594
				2595	FunctionType *FT =
Evgeniy Stepanov	37b8645	2013-09-19 15:22:35 +0000	[diff] [blame]	2596	cast<FunctionType>(CS.getCalledValue()->getType()->getContainedType(0));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2597	if (FT->isVarArg()) {
				2598	VAHelper->visitCallSite(CS, IRB);
				2599	}
				2600
				2601	// Now, get the shadow for the RetVal.
				2602	if (!I.getType()->isSized()) return;
Evgeniy Stepanov	24ac55d	2015-08-14 22:03:50 +0000	[diff] [blame]	2603	// Don't emit the epilogue for musttail call returns.
				2604	if (CS.isCall() && cast<CallInst>(&I)->isMustTailCall()) return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2605	IRBuilder<> IRBBefore(&I);
Alp Toker	cb40291	2014-01-24 17:20:08 +0000	[diff] [blame]	2606	// Until we have full dynamic coverage, make sure the retval shadow is 0.
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2607	Value *Base = getShadowPtrForRetval(&I, IRBBefore);
Evgeniy Stepanov	d2bd319	2012-12-11 12:34:09 +0000	[diff] [blame]	2608	IRBBefore.CreateAlignedStore(getCleanShadow(&I), Base, kShadowTLSAlignment);
Duncan P. N. Exon Smith	e82c286	2015-10-13 17:39:10 +0000	[diff] [blame]	2609	BasicBlock::iterator NextInsn;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2610	if (CS.isCall()) {
Duncan P. N. Exon Smith	e82c286	2015-10-13 17:39:10 +0000	[diff] [blame]	2611	NextInsn = ++I.getIterator();
				2612	assert(NextInsn != I.getParent()->end());
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2613	} else {
				2614	BasicBlock *NormalDest = cast<InvokeInst>(&I)->getNormalDest();
				2615	if (!NormalDest->getSinglePredecessor()) {
				2616	// FIXME: this case is tricky, so we are just conservative here.
				2617	// Perhaps we need to split the edge between this BB and NormalDest,
				2618	// but a naive attempt to use SplitEdge leads to a crash.
				2619	setShadow(&I, getCleanShadow(&I));
				2620	setOrigin(&I, getCleanOrigin());
				2621	return;
				2622	}
				2623	NextInsn = NormalDest->getFirstInsertionPt();
Duncan P. N. Exon Smith	e82c286	2015-10-13 17:39:10 +0000	[diff] [blame]	2624	assert(NextInsn != NormalDest->end() &&
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2625	"Could not find insertion point for retval shadow load");
				2626	}
Duncan P. N. Exon Smith	e82c286	2015-10-13 17:39:10 +0000	[diff] [blame]	2627	IRBuilder<> IRBAfter(&*NextInsn);
Evgeniy Stepanov	d2bd319	2012-12-11 12:34:09 +0000	[diff] [blame]	2628	Value *RetvalShadow =
				2629	IRBAfter.CreateAlignedLoad(getShadowPtrForRetval(&I, IRBAfter),
				2630	kShadowTLSAlignment, "_msret");
				2631	setShadow(&I, RetvalShadow);
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	2632	if (MS.TrackOrigins)
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2633	setOrigin(&I, IRBAfter.CreateLoad(getOriginPtrForRetval(IRBAfter)));
				2634	}
				2635
Evgeniy Stepanov	24ac55d	2015-08-14 22:03:50 +0000	[diff] [blame]	2636	bool isAMustTailRetVal(Value *RetVal) {
				2637	if (auto *I = dyn_cast<BitCastInst>(RetVal)) {
				2638	RetVal = I->getOperand(0);
				2639	}
				2640	if (auto *I = dyn_cast<CallInst>(RetVal)) {
				2641	return I->isMustTailCall();
				2642	}
				2643	return false;
				2644	}
				2645
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2646	void visitReturnInst(ReturnInst &I) {
				2647	IRBuilder<> IRB(&I);
Evgeniy Stepanov	604293f	2013-09-16 13:24:32 +0000	[diff] [blame]	2648	Value *RetVal = I.getReturnValue();
				2649	if (!RetVal) return;
Evgeniy Stepanov	24ac55d	2015-08-14 22:03:50 +0000	[diff] [blame]	2650	// Don't emit the epilogue for musttail call returns.
				2651	if (isAMustTailRetVal(RetVal)) return;
Evgeniy Stepanov	604293f	2013-09-16 13:24:32 +0000	[diff] [blame]	2652	Value *ShadowPtr = getShadowPtrForRetval(RetVal, IRB);
				2653	if (CheckReturnValue) {
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2654	insertShadowCheck(RetVal, &I);
Evgeniy Stepanov	604293f	2013-09-16 13:24:32 +0000	[diff] [blame]	2655	Value *Shadow = getCleanShadow(RetVal);
Evgeniy Stepanov	d2bd319	2012-12-11 12:34:09 +0000	[diff] [blame]	2656	IRB.CreateAlignedStore(Shadow, ShadowPtr, kShadowTLSAlignment);
Evgeniy Stepanov	604293f	2013-09-16 13:24:32 +0000	[diff] [blame]	2657	} else {
				2658	Value *Shadow = getShadow(RetVal);
				2659	IRB.CreateAlignedStore(Shadow, ShadowPtr, kShadowTLSAlignment);
				2660	// FIXME: make it conditional if ClStoreCleanOrigin==0
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	2661	if (MS.TrackOrigins)
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2662	IRB.CreateStore(getOrigin(RetVal), getOriginPtrForRetval(IRB));
				2663	}
				2664	}
				2665
				2666	void visitPHINode(PHINode &I) {
				2667	IRBuilder<> IRB(&I);
Evgeniy Stepanov	d948a5f	2014-07-07 13:28:31 +0000	[diff] [blame]	2668	if (!PropagateShadow) {
				2669	setShadow(&I, getCleanShadow(&I));
Evgeniy Stepanov	2e5a1f1	2014-12-03 14:15:53 +0000	[diff] [blame]	2670	setOrigin(&I, getCleanOrigin());
Evgeniy Stepanov	d948a5f	2014-07-07 13:28:31 +0000	[diff] [blame]	2671	return;
				2672	}
				2673
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2674	ShadowPHINodes.push_back(&I);
				2675	setShadow(&I, IRB.CreatePHI(getShadowTy(&I), I.getNumIncomingValues(),
				2676	"_msphi_s"));
Evgeniy Stepanov	abeae5c	2012-12-19 13:55:51 +0000	[diff] [blame]	2677	if (MS.TrackOrigins)
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2678	setOrigin(&I, IRB.CreatePHI(MS.OriginTy, I.getNumIncomingValues(),
				2679	"_msphi_o"));
				2680	}
				2681
				2682	void visitAllocaInst(AllocaInst &I) {
				2683	setShadow(&I, getCleanShadow(&I));
Evgeniy Stepanov	2e5a1f1	2014-12-03 14:15:53 +0000	[diff] [blame]	2684	setOrigin(&I, getCleanOrigin());
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2685	IRBuilder<> IRB(I.getNextNode());
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2686	const DataLayout &DL = F.getParent()->getDataLayout();
				2687	uint64_t Size = DL.getTypeAllocSize(I.getAllocatedType());
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	2688	if (PoisonStack && ClPoisonStackWithCall) {
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	2689	IRB.CreateCall(MS.MsanPoisonStackFn,
				2690	{IRB.CreatePointerCast(&I, IRB.getInt8PtrTy()),
				2691	ConstantInt::get(MS.IntptrTy, Size)});
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2692	} else {
				2693	Value ShadowBase = getShadowPtr(&I, Type::getInt8PtrTy(MS.C), IRB);
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	2694	Value *PoisonValue = IRB.getInt8(PoisonStack ? ClPoisonStackPattern : 0);
				2695	IRB.CreateMemSet(ShadowBase, PoisonValue, Size, I.getAlignment());
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2696	}
				2697
Evgeniy Stepanov	dc6d7eb	2013-07-03 14:39:14 +0000	[diff] [blame]	2698	if (PoisonStack && MS.TrackOrigins) {
Alp Toker	e69170a	2014-06-26 22:52:05 +0000	[diff] [blame]	2699	SmallString<2048> StackDescriptionStorage;
				2700	raw_svector_ostream StackDescription(StackDescriptionStorage);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2701	// We create a string with a description of the stack allocation and
				2702	// pass it into __msan_set_alloca_origin.
				2703	// It will be printed by the run-time if stack-originated UMR is found.
				2704	// The first 4 bytes of the string are set to '----' and will be replaced
				2705	// by __msan_va_arg_overflow_size_tls at the first call.
				2706	StackDescription << "----" << I.getName() << "@" << F.getName();
				2707	Value *Descr =
				2708	createPrivateNonConstGlobalForString(*F.getParent(),
				2709	StackDescription.str());
Evgeniy Stepanov	0435ecd	2013-09-13 12:54:49 +0000	[diff] [blame]	2710
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	2711	IRB.CreateCall(MS.MsanSetAllocaOrigin4Fn,
				2712	{IRB.CreatePointerCast(&I, IRB.getInt8PtrTy()),
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2713	ConstantInt::get(MS.IntptrTy, Size),
Evgeniy Stepanov	0435ecd	2013-09-13 12:54:49 +0000	[diff] [blame]	2714	IRB.CreatePointerCast(Descr, IRB.getInt8PtrTy()),
David Blaikie	ff6409d	2015-05-18 22:13:54 +0000	[diff] [blame]	2715	IRB.CreatePointerCast(&F, MS.IntptrTy)});
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2716	}
				2717	}
				2718
				2719	void visitSelectInst(SelectInst& I) {
				2720	IRBuilder<> IRB(&I);
Evgeniy Stepanov	566f591	2013-09-03 10:04:11 +0000	[diff] [blame]	2721	// a = select b, c, d
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	2722	Value *B = I.getCondition();
				2723	Value *C = I.getTrueValue();
				2724	Value *D = I.getFalseValue();
				2725	Value *Sb = getShadow(B);
				2726	Value *Sc = getShadow(C);
				2727	Value *Sd = getShadow(D);
				2728
				2729	// Result shadow if condition shadow is 0.
				2730	Value *Sa0 = IRB.CreateSelect(B, Sc, Sd);
				2731	Value *Sa1;
Evgeniy Stepanov	e95d37c	2013-09-03 13:05:29 +0000	[diff] [blame]	2732	if (I.getType()->isAggregateType()) {
				2733	// To avoid "sign extending" i1 to an arbitrary aggregate type, we just do
				2734	// an extra "select". This results in much more compact IR.
				2735	// Sa = select Sb, poisoned, (select b, Sc, Sd)
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	2736	Sa1 = getPoisonedShadow(getShadowTy(I.getType()));
Evgeniy Stepanov	e95d37c	2013-09-03 13:05:29 +0000	[diff] [blame]	2737	} else {
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	2738	// Sa = select Sb, [ (c^d) \| Sc \| Sd ], [ b ? Sc : Sd ]
				2739	// If Sb (condition is poisoned), look for bits in c and d that are equal
				2740	// and both unpoisoned.
				2741	// If !Sb (condition is unpoisoned), simply pick one of Sc and Sd.
				2742
				2743	// Cast arguments to shadow-compatible type.
				2744	C = CreateAppToShadowCast(IRB, C);
				2745	D = CreateAppToShadowCast(IRB, D);
				2746
				2747	// Result shadow if condition shadow is 1.
				2748	Sa1 = IRB.CreateOr(IRB.CreateXor(C, D), IRB.CreateOr(Sc, Sd));
Evgeniy Stepanov	e95d37c	2013-09-03 13:05:29 +0000	[diff] [blame]	2749	}
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	2750	Value *Sa = IRB.CreateSelect(Sb, Sa1, Sa0, "_msprop_select");
				2751	setShadow(&I, Sa);
Evgeniy Stepanov	ec83712	2012-12-25 14:56:21 +0000	[diff] [blame]	2752	if (MS.TrackOrigins) {
				2753	// Origins are always i32, so any vector conditions must be flattened.
				2754	// FIXME: consider tracking vector origins for app vectors?
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	2755	if (B->getType()->isVectorTy()) {
				2756	Type *FlatTy = getShadowTyNoVec(B->getType());
				2757	B = IRB.CreateICmpNE(IRB.CreateBitCast(B, FlatTy),
Evgeniy Stepanov	cb5bdff	2013-11-21 12:00:24 +0000	[diff] [blame]	2758	ConstantInt::getNullValue(FlatTy));
Evgeniy Stepanov	fc742ac	2014-03-25 13:08:34 +0000	[diff] [blame]	2759	Sb = IRB.CreateICmpNE(IRB.CreateBitCast(Sb, FlatTy),
Evgeniy Stepanov	cb5bdff	2013-11-21 12:00:24 +0000	[diff] [blame]	2760	ConstantInt::getNullValue(FlatTy));
Evgeniy Stepanov	ec83712	2012-12-25 14:56:21 +0000	[diff] [blame]	2761	}
Evgeniy Stepanov	cb5bdff	2013-11-21 12:00:24 +0000	[diff] [blame]	2762	// a = select b, c, d
				2763	// Oa = Sb ? Ob : (b ? Oc : Od)
Evgeniy Stepanov	a0b6899	2014-11-28 11:17:58 +0000	[diff] [blame]	2764	setOrigin(
				2765	&I, IRB.CreateSelect(Sb, getOrigin(I.getCondition()),
				2766	IRB.CreateSelect(B, getOrigin(I.getTrueValue()),
				2767	getOrigin(I.getFalseValue()))));
Evgeniy Stepanov	ec83712	2012-12-25 14:56:21 +0000	[diff] [blame]	2768	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2769	}
				2770
				2771	void visitLandingPadInst(LandingPadInst &I) {
				2772	// Do nothing.
				2773	// See http://code.google.com/p/memory-sanitizer/issues/detail?id=1
				2774	setShadow(&I, getCleanShadow(&I));
				2775	setOrigin(&I, getCleanOrigin());
				2776	}
				2777
David Majnemer	8a1c45d	2015-12-12 05:38:55 +0000	[diff] [blame]	2778	void visitCatchSwitchInst(CatchSwitchInst &I) {
Joseph Tremoulet	8220bcc	2015-08-23 00:26:33 +0000	[diff] [blame]	2779	setShadow(&I, getCleanShadow(&I));
				2780	setOrigin(&I, getCleanOrigin());
David Majnemer	654e130	2015-07-31 17:58:14 +0000	[diff] [blame]	2781	}
				2782
David Majnemer	8a1c45d	2015-12-12 05:38:55 +0000	[diff] [blame]	2783	void visitFuncletPadInst(FuncletPadInst &I) {
Joseph Tremoulet	8220bcc	2015-08-23 00:26:33 +0000	[diff] [blame]	2784	setShadow(&I, getCleanShadow(&I));
				2785	setOrigin(&I, getCleanOrigin());
David Majnemer	654e130	2015-07-31 17:58:14 +0000	[diff] [blame]	2786	}
				2787
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2788	void visitGetElementPtrInst(GetElementPtrInst &I) {
				2789	handleShadowOr(I);
				2790	}
				2791
				2792	void visitExtractValueInst(ExtractValueInst &I) {
				2793	IRBuilder<> IRB(&I);
				2794	Value *Agg = I.getAggregateOperand();
				2795	DEBUG(dbgs() << "ExtractValue: " << I << "\n");
				2796	Value *AggShadow = getShadow(Agg);
				2797	DEBUG(dbgs() << " AggShadow: " << *AggShadow << "\n");
				2798	Value *ResShadow = IRB.CreateExtractValue(AggShadow, I.getIndices());
				2799	DEBUG(dbgs() << " ResShadow: " << *ResShadow << "\n");
				2800	setShadow(&I, ResShadow);
Evgeniy Stepanov	560e0893	2013-11-11 13:37:10 +0000	[diff] [blame]	2801	setOriginForNaryOp(I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2802	}
				2803
				2804	void visitInsertValueInst(InsertValueInst &I) {
				2805	IRBuilder<> IRB(&I);
				2806	DEBUG(dbgs() << "InsertValue: " << I << "\n");
				2807	Value *AggShadow = getShadow(I.getAggregateOperand());
				2808	Value *InsShadow = getShadow(I.getInsertedValueOperand());
				2809	DEBUG(dbgs() << " AggShadow: " << *AggShadow << "\n");
				2810	DEBUG(dbgs() << " InsShadow: " << *InsShadow << "\n");
				2811	Value *Res = IRB.CreateInsertValue(AggShadow, InsShadow, I.getIndices());
				2812	DEBUG(dbgs() << " Res: " << *Res << "\n");
				2813	setShadow(&I, Res);
Evgeniy Stepanov	560e0893	2013-11-11 13:37:10 +0000	[diff] [blame]	2814	setOriginForNaryOp(I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2815	}
				2816
				2817	void dumpInst(Instruction &I) {
				2818	if (CallInst *CI = dyn_cast<CallInst>(&I)) {
				2819	errs() << "ZZZ call " << CI->getCalledFunction()->getName() << "\n";
				2820	} else {
				2821	errs() << "ZZZ " << I.getOpcodeName() << "\n";
				2822	}
				2823	errs() << "QQQ " << I << "\n";
				2824	}
				2825
				2826	void visitResumeInst(ResumeInst &I) {
				2827	DEBUG(dbgs() << "Resume: " << I << "\n");
				2828	// Nothing to do here.
				2829	}
				2830
David Majnemer	654e130	2015-07-31 17:58:14 +0000	[diff] [blame]	2831	void visitCleanupReturnInst(CleanupReturnInst &CRI) {
				2832	DEBUG(dbgs() << "CleanupReturn: " << CRI << "\n");
				2833	// Nothing to do here.
				2834	}
				2835
				2836	void visitCatchReturnInst(CatchReturnInst &CRI) {
				2837	DEBUG(dbgs() << "CatchReturn: " << CRI << "\n");
				2838	// Nothing to do here.
				2839	}
				2840
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2841	void visitInstruction(Instruction &I) {
				2842	// Everything else: stop propagating and check for poisoned shadow.
				2843	if (ClDumpStrictInstructions)
				2844	dumpInst(I);
				2845	DEBUG(dbgs() << "DEFAULT: " << I << "\n");
				2846	for (size_t i = 0, n = I.getNumOperands(); i < n; i++)
Evgeniy Stepanov	be83d8f	2013-10-14 15:16:25 +0000	[diff] [blame]	2847	insertShadowCheck(I.getOperand(i), &I);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2848	setShadow(&I, getCleanShadow(&I));
				2849	setOrigin(&I, getCleanOrigin());
				2850	}
				2851	};
				2852
				2853	/// \brief AMD64-specific implementation of VarArgHelper.
				2854	struct VarArgAMD64Helper : public VarArgHelper {
				2855	// An unfortunate workaround for asymmetric lowering of va_arg stuff.
				2856	// See a comment in visitCallSite for more details.
Evgeniy Stepanov	9b72e99	2012-12-14 13:48:31 +0000	[diff] [blame]	2857	static const unsigned AMD64GpEndOffset = 48; // AMD64 ABI Draft 0.99.6 p3.5.7
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2858	static const unsigned AMD64FpEndOffset = 176;
				2859
				2860	Function &F;
				2861	MemorySanitizer &MS;
				2862	MemorySanitizerVisitor &MSV;
				2863	Value *VAArgTLSCopy;
				2864	Value *VAArgOverflowSize;
				2865
				2866	SmallVector<CallInst*, 16> VAStartInstrumentationList;
				2867
				2868	VarArgAMD64Helper(Function &F, MemorySanitizer &MS,
				2869	MemorySanitizerVisitor &MSV)
Craig Topper	f40110f	2014-04-25 05:29:35 +0000	[diff] [blame]	2870	: F(F), MS(MS), MSV(MSV), VAArgTLSCopy(nullptr),
				2871	VAArgOverflowSize(nullptr) {}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2872
				2873	enum ArgKind { AK_GeneralPurpose, AK_FloatingPoint, AK_Memory };
				2874
				2875	ArgKind classifyArgument(Value* arg) {
				2876	// A very rough approximation of X86_64 argument classification rules.
				2877	Type *T = arg->getType();
				2878	if (T->isFPOrFPVectorTy() \|\| T->isX86_MMXTy())
				2879	return AK_FloatingPoint;
				2880	if (T->isIntegerTy() && T->getPrimitiveSizeInBits() <= 64)
				2881	return AK_GeneralPurpose;
				2882	if (T->isPointerTy())
				2883	return AK_GeneralPurpose;
				2884	return AK_Memory;
				2885	}
				2886
				2887	// For VarArg functions, store the argument shadow in an ABI-specific format
				2888	// that corresponds to va_list layout.
				2889	// We do this because Clang lowers va_arg in the frontend, and this pass
				2890	// only sees the low level code that deals with va_list internals.
				2891	// A much easier alternative (provided that Clang emits va_arg instructions)
				2892	// would have been to associate each live instance of va_list with a copy of
				2893	// MSanParamTLS, and extract shadow on va_arg() call in the argument list
				2894	// order.
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	2895	void visitCallSite(CallSite &CS, IRBuilder<> &IRB) override {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2896	unsigned GpOffset = 0;
				2897	unsigned FpOffset = AMD64GpEndOffset;
				2898	unsigned OverflowOffset = AMD64FpEndOffset;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2899	const DataLayout &DL = F.getParent()->getDataLayout();
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2900	for (CallSite::arg_iterator ArgIt = CS.arg_begin(), End = CS.arg_end();
				2901	ArgIt != End; ++ArgIt) {
				2902	Value A = ArgIt;
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2903	unsigned ArgNo = CS.getArgumentNo(ArgIt);
Marcin Koscielnicki	b088ad1	2016-05-06 19:36:56 +0000	[diff] [blame]	2904	bool IsFixed = ArgNo < CS.getFunctionType()->getNumParams();
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2905	bool IsByVal = CS.paramHasAttr(ArgNo + 1, Attribute::ByVal);
				2906	if (IsByVal) {
				2907	// ByVal arguments always go to the overflow area.
Marcin Koscielnicki	b088ad1	2016-05-06 19:36:56 +0000	[diff] [blame]	2908	// Fixed arguments passed through the overflow area will be stepped
				2909	// over by va_start, so don't count them towards the offset.
				2910	if (IsFixed)
				2911	continue;
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2912	assert(A->getType()->isPointerTy());
				2913	Type *RealTy = A->getType()->getPointerElementType();
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2914	uint64_t ArgSize = DL.getTypeAllocSize(RealTy);
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2915	Value *Base = getShadowPtrForVAArgument(RealTy, IRB, OverflowOffset);
Rui Ueyama	da00f2f	2016-01-14 21:06:47 +0000	[diff] [blame]	2916	OverflowOffset += alignTo(ArgSize, 8);
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2917	IRB.CreateMemCpy(Base, MSV.getShadowPtr(A, IRB.getInt8Ty(), IRB),
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	2918	ArgSize, kShadowTLSAlignment);
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2919	} else {
				2920	ArgKind AK = classifyArgument(A);
				2921	if (AK == AK_GeneralPurpose && GpOffset >= AMD64GpEndOffset)
				2922	AK = AK_Memory;
				2923	if (AK == AK_FloatingPoint && FpOffset >= AMD64FpEndOffset)
				2924	AK = AK_Memory;
				2925	Value *Base;
				2926	switch (AK) {
				2927	case AK_GeneralPurpose:
				2928	Base = getShadowPtrForVAArgument(A->getType(), IRB, GpOffset);
				2929	GpOffset += 8;
				2930	break;
				2931	case AK_FloatingPoint:
				2932	Base = getShadowPtrForVAArgument(A->getType(), IRB, FpOffset);
				2933	FpOffset += 16;
				2934	break;
				2935	case AK_Memory:
Marcin Koscielnicki	b088ad1	2016-05-06 19:36:56 +0000	[diff] [blame]	2936	if (IsFixed)
				2937	continue;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	2938	uint64_t ArgSize = DL.getTypeAllocSize(A->getType());
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2939	Base = getShadowPtrForVAArgument(A->getType(), IRB, OverflowOffset);
Rui Ueyama	da00f2f	2016-01-14 21:06:47 +0000	[diff] [blame]	2940	OverflowOffset += alignTo(ArgSize, 8);
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2941	}
Marcin Koscielnicki	b088ad1	2016-05-06 19:36:56 +0000	[diff] [blame]	2942	// Take fixed arguments into account for GpOffset and FpOffset,
				2943	// but don't actually store shadows for them.
				2944	if (IsFixed)
				2945	continue;
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2946	IRB.CreateAlignedStore(MSV.getShadow(A), Base, kShadowTLSAlignment);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2947	}
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2948	}
				2949	Constant *OverflowSize =
				2950	ConstantInt::get(IRB.getInt64Ty(), OverflowOffset - AMD64FpEndOffset);
				2951	IRB.CreateStore(OverflowSize, MS.VAArgOverflowSizeTLS);
				2952	}
				2953
				2954	/// \brief Compute the shadow address for a given va_arg.
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2955	Value getShadowPtrForVAArgument(Type Ty, IRBuilder<> &IRB,
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2956	int ArgOffset) {
				2957	Value *Base = IRB.CreatePointerCast(MS.VAArgTLS, MS.IntptrTy);
				2958	Base = IRB.CreateAdd(Base, ConstantInt::get(MS.IntptrTy, ArgOffset));
Evgeniy Stepanov	7ab838e	2014-03-13 13:17:11 +0000	[diff] [blame]	2959	return IRB.CreateIntToPtr(Base, PointerType::get(MSV.getShadowTy(Ty), 0),
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2960	"_msarg");
				2961	}
				2962
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	2963	void visitVAStartInst(VAStartInst &I) override {
Charles Davis	1195259	2015-08-25 23:27:41 +0000	[diff] [blame]	2964	if (F.getCallingConv() == CallingConv::X86_64_Win64)
				2965	return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2966	IRBuilder<> IRB(&I);
				2967	VAStartInstrumentationList.push_back(&I);
				2968	Value *VAListTag = I.getArgOperand(0);
				2969	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				2970
				2971	// Unpoison the whole __va_list_tag.
				2972	// FIXME: magic ABI constants.
				2973	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
Peter Collingbourne	f7d65c4	2013-01-10 22:36:33 +0000	[diff] [blame]	2974	/* size /24, / alignment */8, false);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2975	}
				2976
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	2977	void visitVACopyInst(VACopyInst &I) override {
Charles Davis	1195259	2015-08-25 23:27:41 +0000	[diff] [blame]	2978	if (F.getCallingConv() == CallingConv::X86_64_Win64)
				2979	return;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2980	IRBuilder<> IRB(&I);
				2981	Value *VAListTag = I.getArgOperand(0);
				2982	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				2983
				2984	// Unpoison the whole __va_list_tag.
				2985	// FIXME: magic ABI constants.
				2986	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
Peter Collingbourne	f7d65c4	2013-01-10 22:36:33 +0000	[diff] [blame]	2987	/* size /24, / alignment */8, false);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2988	}
				2989
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	2990	void finalizeInstrumentation() override {
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	2991	assert(!VAArgOverflowSize && !VAArgTLSCopy &&
				2992	"finalizeInstrumentation called twice");
				2993	if (!VAStartInstrumentationList.empty()) {
				2994	// If there is a va_start in this function, make a backup copy of
				2995	// va_arg_tls somewhere in the function entry block.
				2996	IRBuilder<> IRB(F.getEntryBlock().getFirstNonPHI());
				2997	VAArgOverflowSize = IRB.CreateLoad(MS.VAArgOverflowSizeTLS);
				2998	Value *CopySize =
				2999	IRB.CreateAdd(ConstantInt::get(MS.IntptrTy, AMD64FpEndOffset),
				3000	VAArgOverflowSize);
				3001	VAArgTLSCopy = IRB.CreateAlloca(Type::getInt8Ty(*MS.C), CopySize);
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	3002	IRB.CreateMemCpy(VAArgTLSCopy, MS.VAArgTLS, CopySize, 8);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3003	}
				3004
				3005	// Instrument va_start.
				3006	// Copy va_list shadow from the backup copy of the TLS contents.
				3007	for (size_t i = 0, n = VAStartInstrumentationList.size(); i < n; i++) {
				3008	CallInst *OrigInst = VAStartInstrumentationList[i];
				3009	IRBuilder<> IRB(OrigInst->getNextNode());
				3010	Value *VAListTag = OrigInst->getArgOperand(0);
				3011
				3012	Value *RegSaveAreaPtrPtr =
				3013	IRB.CreateIntToPtr(
				3014	IRB.CreateAdd(IRB.CreatePtrToInt(VAListTag, MS.IntptrTy),
				3015	ConstantInt::get(MS.IntptrTy, 16)),
				3016	Type::getInt64PtrTy(*MS.C));
				3017	Value *RegSaveAreaPtr = IRB.CreateLoad(RegSaveAreaPtrPtr);
				3018	Value *RegSaveAreaShadowPtr =
				3019	MSV.getShadowPtr(RegSaveAreaPtr, IRB.getInt8Ty(), IRB);
				3020	IRB.CreateMemCpy(RegSaveAreaShadowPtr, VAArgTLSCopy,
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	3021	AMD64FpEndOffset, 16);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3022
				3023	Value *OverflowArgAreaPtrPtr =
				3024	IRB.CreateIntToPtr(
				3025	IRB.CreateAdd(IRB.CreatePtrToInt(VAListTag, MS.IntptrTy),
				3026	ConstantInt::get(MS.IntptrTy, 8)),
				3027	Type::getInt64PtrTy(*MS.C));
				3028	Value *OverflowArgAreaPtr = IRB.CreateLoad(OverflowArgAreaPtrPtr);
				3029	Value *OverflowArgAreaShadowPtr =
				3030	MSV.getShadowPtr(OverflowArgAreaPtr, IRB.getInt8Ty(), IRB);
David Blaikie	95d3e53	2015-04-03 23:03:54 +0000	[diff] [blame]	3031	Value *SrcPtr = IRB.CreateConstGEP1_32(IRB.getInt8Ty(), VAArgTLSCopy,
				3032	AMD64FpEndOffset);
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	3033	IRB.CreateMemCpy(OverflowArgAreaShadowPtr, SrcPtr, VAArgOverflowSize, 16);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3034	}
				3035	}
				3036	};
				3037
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3038	/// \brief MIPS64-specific implementation of VarArgHelper.
				3039	struct VarArgMIPS64Helper : public VarArgHelper {
				3040	Function &F;
				3041	MemorySanitizer &MS;
				3042	MemorySanitizerVisitor &MSV;
				3043	Value *VAArgTLSCopy;
				3044	Value *VAArgSize;
				3045
				3046	SmallVector<CallInst*, 16> VAStartInstrumentationList;
				3047
				3048	VarArgMIPS64Helper(Function &F, MemorySanitizer &MS,
				3049	MemorySanitizerVisitor &MSV)
				3050	: F(F), MS(MS), MSV(MSV), VAArgTLSCopy(nullptr),
				3051	VAArgSize(nullptr) {}
				3052
				3053	void visitCallSite(CallSite &CS, IRBuilder<> &IRB) override {
				3054	unsigned VAArgOffset = 0;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	3055	const DataLayout &DL = F.getParent()->getDataLayout();
Marcin Koscielnicki	60061c2	2016-05-05 20:13:17 +0000	[diff] [blame]	3056	for (CallSite::arg_iterator ArgIt = CS.arg_begin() +
				3057	CS.getFunctionType()->getNumParams(), End = CS.arg_end();
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3058	ArgIt != End; ++ArgIt) {
Marcin Koscielnicki	ef2e7b4	2016-04-19 23:46:59 +0000	[diff] [blame]	3059	llvm::Triple TargetTriple(F.getParent()->getTargetTriple());
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3060	Value A = ArgIt;
				3061	Value *Base;
Mehdi Amini	a28d91d	2015-03-10 02:37:25 +0000	[diff] [blame]	3062	uint64_t ArgSize = DL.getTypeAllocSize(A->getType());
Marcin Koscielnicki	ef2e7b4	2016-04-19 23:46:59 +0000	[diff] [blame]	3063	if (TargetTriple.getArch() == llvm::Triple::mips64) {
				3064	// Adjusting the shadow for argument with size < 8 to match the placement
				3065	// of bits in big endian system
				3066	if (ArgSize < 8)
				3067	VAArgOffset += (8 - ArgSize);
				3068	}
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3069	Base = getShadowPtrForVAArgument(A->getType(), IRB, VAArgOffset);
				3070	VAArgOffset += ArgSize;
Rui Ueyama	da00f2f	2016-01-14 21:06:47 +0000	[diff] [blame]	3071	VAArgOffset = alignTo(VAArgOffset, 8);
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3072	IRB.CreateAlignedStore(MSV.getShadow(A), Base, kShadowTLSAlignment);
				3073	}
				3074
				3075	Constant *TotalVAArgSize = ConstantInt::get(IRB.getInt64Ty(), VAArgOffset);
				3076	// Here using VAArgOverflowSizeTLS as VAArgSizeTLS to avoid creation of
				3077	// a new class member i.e. it is the total size of all VarArgs.
				3078	IRB.CreateStore(TotalVAArgSize, MS.VAArgOverflowSizeTLS);
				3079	}
				3080
				3081	/// \brief Compute the shadow address for a given va_arg.
				3082	Value getShadowPtrForVAArgument(Type Ty, IRBuilder<> &IRB,
				3083	int ArgOffset) {
				3084	Value *Base = IRB.CreatePointerCast(MS.VAArgTLS, MS.IntptrTy);
				3085	Base = IRB.CreateAdd(Base, ConstantInt::get(MS.IntptrTy, ArgOffset));
				3086	return IRB.CreateIntToPtr(Base, PointerType::get(MSV.getShadowTy(Ty), 0),
				3087	"_msarg");
				3088	}
				3089
				3090	void visitVAStartInst(VAStartInst &I) override {
				3091	IRBuilder<> IRB(&I);
				3092	VAStartInstrumentationList.push_back(&I);
				3093	Value *VAListTag = I.getArgOperand(0);
				3094	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				3095	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
				3096	/* size /8, / alignment */8, false);
				3097	}
				3098
				3099	void visitVACopyInst(VACopyInst &I) override {
				3100	IRBuilder<> IRB(&I);
				3101	Value *VAListTag = I.getArgOperand(0);
				3102	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				3103	// Unpoison the whole __va_list_tag.
				3104	// FIXME: magic ABI constants.
				3105	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
				3106	/* size /8, / alignment */8, false);
				3107	}
				3108
				3109	void finalizeInstrumentation() override {
				3110	assert(!VAArgSize && !VAArgTLSCopy &&
				3111	"finalizeInstrumentation called twice");
				3112	IRBuilder<> IRB(F.getEntryBlock().getFirstNonPHI());
				3113	VAArgSize = IRB.CreateLoad(MS.VAArgOverflowSizeTLS);
				3114	Value *CopySize = IRB.CreateAdd(ConstantInt::get(MS.IntptrTy, 0),
				3115	VAArgSize);
				3116
				3117	if (!VAStartInstrumentationList.empty()) {
				3118	// If there is a va_start in this function, make a backup copy of
				3119	// va_arg_tls somewhere in the function entry block.
				3120	VAArgTLSCopy = IRB.CreateAlloca(Type::getInt8Ty(*MS.C), CopySize);
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	3121	IRB.CreateMemCpy(VAArgTLSCopy, MS.VAArgTLS, CopySize, 8);
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3122	}
				3123
				3124	// Instrument va_start.
				3125	// Copy va_list shadow from the backup copy of the TLS contents.
				3126	for (size_t i = 0, n = VAStartInstrumentationList.size(); i < n; i++) {
				3127	CallInst *OrigInst = VAStartInstrumentationList[i];
				3128	IRBuilder<> IRB(OrigInst->getNextNode());
				3129	Value *VAListTag = OrigInst->getArgOperand(0);
				3130	Value *RegSaveAreaPtrPtr =
				3131	IRB.CreateIntToPtr(IRB.CreatePtrToInt(VAListTag, MS.IntptrTy),
				3132	Type::getInt64PtrTy(*MS.C));
				3133	Value *RegSaveAreaPtr = IRB.CreateLoad(RegSaveAreaPtrPtr);
				3134	Value *RegSaveAreaShadowPtr =
				3135	MSV.getShadowPtr(RegSaveAreaPtr, IRB.getInt8Ty(), IRB);
Pete Cooper	67cf9a7	2015-11-19 05:56:52 +0000	[diff] [blame]	3136	IRB.CreateMemCpy(RegSaveAreaShadowPtr, VAArgTLSCopy, CopySize, 8);
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3137	}
				3138	}
				3139	};
				3140
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3141
				3142	/// \brief AArch64-specific implementation of VarArgHelper.
				3143	struct VarArgAArch64Helper : public VarArgHelper {
Marcin Koscielnicki	60b3cbe	2016-05-09 20:57:36 +0000	[diff] [blame]	3144	static const unsigned kAArch64GrArgSize = 64;
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3145	static const unsigned kAArch64VrArgSize = 128;
				3146
				3147	static const unsigned AArch64GrBegOffset = 0;
				3148	static const unsigned AArch64GrEndOffset = kAArch64GrArgSize;
				3149	// Make VR space aligned to 16 bytes.
Marcin Koscielnicki	60b3cbe	2016-05-09 20:57:36 +0000	[diff] [blame]	3150	static const unsigned AArch64VrBegOffset = AArch64GrEndOffset;
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3151	static const unsigned AArch64VrEndOffset = AArch64VrBegOffset
				3152	+ kAArch64VrArgSize;
				3153	static const unsigned AArch64VAEndOffset = AArch64VrEndOffset;
				3154
				3155	Function &F;
				3156	MemorySanitizer &MS;
				3157	MemorySanitizerVisitor &MSV;
				3158	Value *VAArgTLSCopy;
				3159	Value *VAArgOverflowSize;
				3160
				3161	SmallVector<CallInst*, 16> VAStartInstrumentationList;
				3162
				3163	VarArgAArch64Helper(Function &F, MemorySanitizer &MS,
				3164	MemorySanitizerVisitor &MSV)
				3165	: F(F), MS(MS), MSV(MSV), VAArgTLSCopy(nullptr),
				3166	VAArgOverflowSize(nullptr) {}
				3167
				3168	enum ArgKind { AK_GeneralPurpose, AK_FloatingPoint, AK_Memory };
				3169
				3170	ArgKind classifyArgument(Value* arg) {
				3171	Type *T = arg->getType();
				3172	if (T->isFPOrFPVectorTy())
				3173	return AK_FloatingPoint;
				3174	if ((T->isIntegerTy() && T->getPrimitiveSizeInBits() <= 64)
				3175	\|\| (T->isPointerTy()))
				3176	return AK_GeneralPurpose;
				3177	return AK_Memory;
				3178	}
				3179
				3180	// The instrumentation stores the argument shadow in a non ABI-specific
				3181	// format because it does not know which argument is named (since Clang,
				3182	// like x86_64 case, lowers the va_args in the frontend and this pass only
				3183	// sees the low level code that deals with va_list internals).
				3184	// The first seven GR registers are saved in the first 56 bytes of the
				3185	// va_arg tls arra, followers by the first 8 FP/SIMD registers, and then
				3186	// the remaining arguments.
				3187	// Using constant offset within the va_arg TLS array allows fast copy
				3188	// in the finalize instrumentation.
				3189	void visitCallSite(CallSite &CS, IRBuilder<> &IRB) override {
				3190	unsigned GrOffset = AArch64GrBegOffset;
				3191	unsigned VrOffset = AArch64VrBegOffset;
				3192	unsigned OverflowOffset = AArch64VAEndOffset;
				3193
				3194	const DataLayout &DL = F.getParent()->getDataLayout();
Marcin Koscielnicki	60b3cbe	2016-05-09 20:57:36 +0000	[diff] [blame]	3195	for (CallSite::arg_iterator ArgIt = CS.arg_begin(), End = CS.arg_end();
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3196	ArgIt != End; ++ArgIt) {
				3197	Value A = ArgIt;
Marcin Koscielnicki	60b3cbe	2016-05-09 20:57:36 +0000	[diff] [blame]	3198	unsigned ArgNo = CS.getArgumentNo(ArgIt);
				3199	bool IsFixed = ArgNo < CS.getFunctionType()->getNumParams();
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3200	ArgKind AK = classifyArgument(A);
				3201	if (AK == AK_GeneralPurpose && GrOffset >= AArch64GrEndOffset)
				3202	AK = AK_Memory;
				3203	if (AK == AK_FloatingPoint && VrOffset >= AArch64VrEndOffset)
				3204	AK = AK_Memory;
				3205	Value *Base;
				3206	switch (AK) {
				3207	case AK_GeneralPurpose:
				3208	Base = getShadowPtrForVAArgument(A->getType(), IRB, GrOffset);
				3209	GrOffset += 8;
				3210	break;
				3211	case AK_FloatingPoint:
				3212	Base = getShadowPtrForVAArgument(A->getType(), IRB, VrOffset);
				3213	VrOffset += 16;
				3214	break;
				3215	case AK_Memory:
Marcin Koscielnicki	60b3cbe	2016-05-09 20:57:36 +0000	[diff] [blame]	3216	// Don't count fixed arguments in the overflow area - va_start will
				3217	// skip right over them.
				3218	if (IsFixed)
				3219	continue;
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3220	uint64_t ArgSize = DL.getTypeAllocSize(A->getType());
				3221	Base = getShadowPtrForVAArgument(A->getType(), IRB, OverflowOffset);
Rui Ueyama	da00f2f	2016-01-14 21:06:47 +0000	[diff] [blame]	3222	OverflowOffset += alignTo(ArgSize, 8);
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3223	break;
				3224	}
Marcin Koscielnicki	60b3cbe	2016-05-09 20:57:36 +0000	[diff] [blame]	3225	// Count Gp/Vr fixed arguments to their respective offsets, but don't
				3226	// bother to actually store a shadow.
				3227	if (IsFixed)
				3228	continue;
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3229	IRB.CreateAlignedStore(MSV.getShadow(A), Base, kShadowTLSAlignment);
				3230	}
				3231	Constant *OverflowSize =
				3232	ConstantInt::get(IRB.getInt64Ty(), OverflowOffset - AArch64VAEndOffset);
				3233	IRB.CreateStore(OverflowSize, MS.VAArgOverflowSizeTLS);
				3234	}
				3235
				3236	/// Compute the shadow address for a given va_arg.
				3237	Value getShadowPtrForVAArgument(Type Ty, IRBuilder<> &IRB,
				3238	int ArgOffset) {
				3239	Value *Base = IRB.CreatePointerCast(MS.VAArgTLS, MS.IntptrTy);
				3240	Base = IRB.CreateAdd(Base, ConstantInt::get(MS.IntptrTy, ArgOffset));
				3241	return IRB.CreateIntToPtr(Base, PointerType::get(MSV.getShadowTy(Ty), 0),
				3242	"_msarg");
				3243	}
				3244
				3245	void visitVAStartInst(VAStartInst &I) override {
				3246	IRBuilder<> IRB(&I);
				3247	VAStartInstrumentationList.push_back(&I);
				3248	Value *VAListTag = I.getArgOperand(0);
				3249	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				3250	// Unpoison the whole __va_list_tag.
				3251	// FIXME: magic ABI constants (size of va_list).
				3252	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
				3253	/* size /32, / alignment */8, false);
				3254	}
				3255
				3256	void visitVACopyInst(VACopyInst &I) override {
				3257	IRBuilder<> IRB(&I);
				3258	Value *VAListTag = I.getArgOperand(0);
				3259	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				3260	// Unpoison the whole __va_list_tag.
				3261	// FIXME: magic ABI constants (size of va_list).
				3262	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
				3263	/* size /32, / alignment */8, false);
				3264	}
				3265
				3266	// Retrieve a va_list field of 'void*' size.
				3267	Value* getVAField64(IRBuilder<> &IRB, Value *VAListTag, int offset) {
				3268	Value *SaveAreaPtrPtr =
				3269	IRB.CreateIntToPtr(
				3270	IRB.CreateAdd(IRB.CreatePtrToInt(VAListTag, MS.IntptrTy),
				3271	ConstantInt::get(MS.IntptrTy, offset)),
				3272	Type::getInt64PtrTy(*MS.C));
				3273	return IRB.CreateLoad(SaveAreaPtrPtr);
				3274	}
				3275
				3276	// Retrieve a va_list field of 'int' size.
				3277	Value* getVAField32(IRBuilder<> &IRB, Value *VAListTag, int offset) {
				3278	Value *SaveAreaPtr =
				3279	IRB.CreateIntToPtr(
				3280	IRB.CreateAdd(IRB.CreatePtrToInt(VAListTag, MS.IntptrTy),
				3281	ConstantInt::get(MS.IntptrTy, offset)),
				3282	Type::getInt32PtrTy(*MS.C));
				3283	Value *SaveArea32 = IRB.CreateLoad(SaveAreaPtr);
				3284	return IRB.CreateSExt(SaveArea32, MS.IntptrTy);
				3285	}
				3286
				3287	void finalizeInstrumentation() override {
				3288	assert(!VAArgOverflowSize && !VAArgTLSCopy &&
				3289	"finalizeInstrumentation called twice");
				3290	if (!VAStartInstrumentationList.empty()) {
				3291	// If there is a va_start in this function, make a backup copy of
				3292	// va_arg_tls somewhere in the function entry block.
				3293	IRBuilder<> IRB(F.getEntryBlock().getFirstNonPHI());
				3294	VAArgOverflowSize = IRB.CreateLoad(MS.VAArgOverflowSizeTLS);
				3295	Value *CopySize =
				3296	IRB.CreateAdd(ConstantInt::get(MS.IntptrTy, AArch64VAEndOffset),
				3297	VAArgOverflowSize);
				3298	VAArgTLSCopy = IRB.CreateAlloca(Type::getInt8Ty(*MS.C), CopySize);
				3299	IRB.CreateMemCpy(VAArgTLSCopy, MS.VAArgTLS, CopySize, 8);
				3300	}
				3301
				3302	Value *GrArgSize = ConstantInt::get(MS.IntptrTy, kAArch64GrArgSize);
				3303	Value *VrArgSize = ConstantInt::get(MS.IntptrTy, kAArch64VrArgSize);
				3304
				3305	// Instrument va_start, copy va_list shadow from the backup copy of
				3306	// the TLS contents.
				3307	for (size_t i = 0, n = VAStartInstrumentationList.size(); i < n; i++) {
				3308	CallInst *OrigInst = VAStartInstrumentationList[i];
				3309	IRBuilder<> IRB(OrigInst->getNextNode());
				3310
				3311	Value *VAListTag = OrigInst->getArgOperand(0);
				3312
				3313	// The variadic ABI for AArch64 creates two areas to save the incoming
				3314	// argument registers (one for 64-bit general register xn-x7 and another
				3315	// for 128-bit FP/SIMD vn-v7).
				3316	// We need then to propagate the shadow arguments on both regions
				3317	// 'va::__gr_top + va::__gr_offs' and 'va::__vr_top + va::__vr_offs'.
				3318	// The remaning arguments are saved on shadow for 'va::stack'.
				3319	// One caveat is it requires only to propagate the non-named arguments,
				3320	// however on the call site instrumentation 'all' the arguments are
				3321	// saved. So to copy the shadow values from the va_arg TLS array
				3322	// we need to adjust the offset for both GR and VR fields based on
				3323	// the __{gr,vr}_offs value (since they are stores based on incoming
				3324	// named arguments).
				3325
				3326	// Read the stack pointer from the va_list.
				3327	Value *StackSaveAreaPtr = getVAField64(IRB, VAListTag, 0);
				3328
				3329	// Read both the __gr_top and __gr_off and add them up.
				3330	Value *GrTopSaveAreaPtr = getVAField64(IRB, VAListTag, 8);
				3331	Value *GrOffSaveArea = getVAField32(IRB, VAListTag, 24);
				3332
				3333	Value *GrRegSaveAreaPtr = IRB.CreateAdd(GrTopSaveAreaPtr, GrOffSaveArea);
				3334
				3335	// Read both the __vr_top and __vr_off and add them up.
				3336	Value *VrTopSaveAreaPtr = getVAField64(IRB, VAListTag, 16);
				3337	Value *VrOffSaveArea = getVAField32(IRB, VAListTag, 28);
				3338
				3339	Value *VrRegSaveAreaPtr = IRB.CreateAdd(VrTopSaveAreaPtr, VrOffSaveArea);
				3340
				3341	// It does not know how many named arguments is being used and, on the
				3342	// callsite all the arguments were saved. Since __gr_off is defined as
				3343	// '0 - ((8 - named_gr) * 8)', the idea is to just propagate the variadic
				3344	// argument by ignoring the bytes of shadow from named arguments.
				3345	Value *GrRegSaveAreaShadowPtrOff =
				3346	IRB.CreateAdd(GrArgSize, GrOffSaveArea);
				3347
				3348	Value *GrRegSaveAreaShadowPtr =
				3349	MSV.getShadowPtr(GrRegSaveAreaPtr, IRB.getInt8Ty(), IRB);
				3350
				3351	Value *GrSrcPtr = IRB.CreateInBoundsGEP(IRB.getInt8Ty(), VAArgTLSCopy,
				3352	GrRegSaveAreaShadowPtrOff);
				3353	Value *GrCopySize = IRB.CreateSub(GrArgSize, GrRegSaveAreaShadowPtrOff);
				3354
				3355	IRB.CreateMemCpy(GrRegSaveAreaShadowPtr, GrSrcPtr, GrCopySize, 8);
				3356
				3357	// Again, but for FP/SIMD values.
				3358	Value *VrRegSaveAreaShadowPtrOff =
				3359	IRB.CreateAdd(VrArgSize, VrOffSaveArea);
				3360
				3361	Value *VrRegSaveAreaShadowPtr =
				3362	MSV.getShadowPtr(VrRegSaveAreaPtr, IRB.getInt8Ty(), IRB);
				3363
				3364	Value *VrSrcPtr = IRB.CreateInBoundsGEP(
				3365	IRB.getInt8Ty(),
				3366	IRB.CreateInBoundsGEP(IRB.getInt8Ty(), VAArgTLSCopy,
				3367	IRB.getInt32(AArch64VrBegOffset)),
				3368	VrRegSaveAreaShadowPtrOff);
				3369	Value *VrCopySize = IRB.CreateSub(VrArgSize, VrRegSaveAreaShadowPtrOff);
				3370
				3371	IRB.CreateMemCpy(VrRegSaveAreaShadowPtr, VrSrcPtr, VrCopySize, 8);
				3372
				3373	// And finally for remaining arguments.
				3374	Value *StackSaveAreaShadowPtr =
				3375	MSV.getShadowPtr(StackSaveAreaPtr, IRB.getInt8Ty(), IRB);
				3376
				3377	Value *StackSrcPtr =
				3378	IRB.CreateInBoundsGEP(IRB.getInt8Ty(), VAArgTLSCopy,
				3379	IRB.getInt32(AArch64VAEndOffset));
				3380
				3381	IRB.CreateMemCpy(StackSaveAreaShadowPtr, StackSrcPtr,
				3382	VAArgOverflowSize, 16);
				3383	}
				3384	}
				3385	};
				3386
Marcin Koscielnicki	a4fcd36	2016-05-13 23:55:33 +0000	[diff] [blame]	3387	/// \brief PowerPC64-specific implementation of VarArgHelper.
				3388	struct VarArgPowerPC64Helper : public VarArgHelper {
				3389	Function &F;
				3390	MemorySanitizer &MS;
				3391	MemorySanitizerVisitor &MSV;
				3392	Value *VAArgTLSCopy;
				3393	Value *VAArgSize;
				3394
				3395	SmallVector<CallInst*, 16> VAStartInstrumentationList;
				3396
				3397	VarArgPowerPC64Helper(Function &F, MemorySanitizer &MS,
				3398	MemorySanitizerVisitor &MSV)
				3399	: F(F), MS(MS), MSV(MSV), VAArgTLSCopy(nullptr),
				3400	VAArgSize(nullptr) {}
				3401
				3402	void visitCallSite(CallSite &CS, IRBuilder<> &IRB) override {
				3403	// For PowerPC, we need to deal with alignment of stack arguments -
				3404	// they are mostly aligned to 8 bytes, but vectors and i128 arrays
				3405	// are aligned to 16 bytes, byvals can be aligned to 8 or 16 bytes,
				3406	// and QPX vectors are aligned to 32 bytes. For that reason, we
				3407	// compute current offset from stack pointer (which is always properly
				3408	// aligned), and offset for the first vararg, then subtract them.
				3409	unsigned VAArgBase;
				3410	llvm::Triple TargetTriple(F.getParent()->getTargetTriple());
				3411	// Parameter save area starts at 48 bytes from frame pointer for ABIv1,
				3412	// and 32 bytes for ABIv2. This is usually determined by target
				3413	// endianness, but in theory could be overriden by function attribute.
				3414	// For simplicity, we ignore it here (it'd only matter for QPX vectors).
				3415	if (TargetTriple.getArch() == llvm::Triple::ppc64)
				3416	VAArgBase = 48;
				3417	else
				3418	VAArgBase = 32;
				3419	unsigned VAArgOffset = VAArgBase;
				3420	const DataLayout &DL = F.getParent()->getDataLayout();
				3421	for (CallSite::arg_iterator ArgIt = CS.arg_begin(), End = CS.arg_end();
				3422	ArgIt != End; ++ArgIt) {
				3423	Value A = ArgIt;
				3424	unsigned ArgNo = CS.getArgumentNo(ArgIt);
				3425	bool IsFixed = ArgNo < CS.getFunctionType()->getNumParams();
				3426	bool IsByVal = CS.paramHasAttr(ArgNo + 1, Attribute::ByVal);
				3427	if (IsByVal) {
				3428	assert(A->getType()->isPointerTy());
				3429	Type *RealTy = A->getType()->getPointerElementType();
				3430	uint64_t ArgSize = DL.getTypeAllocSize(RealTy);
				3431	uint64_t ArgAlign = CS.getParamAlignment(ArgNo + 1);
				3432	if (ArgAlign < 8)
				3433	ArgAlign = 8;
				3434	VAArgOffset = alignTo(VAArgOffset, ArgAlign);
				3435	if (!IsFixed) {
				3436	Value *Base = getShadowPtrForVAArgument(RealTy, IRB,
				3437	VAArgOffset - VAArgBase);
				3438	IRB.CreateMemCpy(Base, MSV.getShadowPtr(A, IRB.getInt8Ty(), IRB),
				3439	ArgSize, kShadowTLSAlignment);
				3440	}
				3441	VAArgOffset += alignTo(ArgSize, 8);
				3442	} else {
				3443	Value *Base;
				3444	uint64_t ArgSize = DL.getTypeAllocSize(A->getType());
				3445	uint64_t ArgAlign = 8;
				3446	if (A->getType()->isArrayTy()) {
				3447	// Arrays are aligned to element size, except for long double
				3448	// arrays, which are aligned to 8 bytes.
				3449	Type *ElementTy = A->getType()->getArrayElementType();
				3450	if (!ElementTy->isPPC_FP128Ty())
				3451	ArgAlign = DL.getTypeAllocSize(ElementTy);
				3452	} else if (A->getType()->isVectorTy()) {
				3453	// Vectors are naturally aligned.
				3454	ArgAlign = DL.getTypeAllocSize(A->getType());
				3455	}
				3456	if (ArgAlign < 8)
				3457	ArgAlign = 8;
				3458	VAArgOffset = alignTo(VAArgOffset, ArgAlign);
				3459	if (DL.isBigEndian()) {
				3460	// Adjusting the shadow for argument with size < 8 to match the placement
				3461	// of bits in big endian system
				3462	if (ArgSize < 8)
				3463	VAArgOffset += (8 - ArgSize);
				3464	}
				3465	if (!IsFixed) {
				3466	Base = getShadowPtrForVAArgument(A->getType(), IRB,
				3467	VAArgOffset - VAArgBase);
				3468	IRB.CreateAlignedStore(MSV.getShadow(A), Base, kShadowTLSAlignment);
				3469	}
				3470	VAArgOffset += ArgSize;
				3471	VAArgOffset = alignTo(VAArgOffset, 8);
				3472	}
				3473	if (IsFixed)
				3474	VAArgBase = VAArgOffset;
				3475	}
				3476
				3477	Constant *TotalVAArgSize = ConstantInt::get(IRB.getInt64Ty(),
				3478	VAArgOffset - VAArgBase);
				3479	// Here using VAArgOverflowSizeTLS as VAArgSizeTLS to avoid creation of
				3480	// a new class member i.e. it is the total size of all VarArgs.
				3481	IRB.CreateStore(TotalVAArgSize, MS.VAArgOverflowSizeTLS);
				3482	}
				3483
				3484	/// \brief Compute the shadow address for a given va_arg.
				3485	Value getShadowPtrForVAArgument(Type Ty, IRBuilder<> &IRB,
				3486	int ArgOffset) {
				3487	Value *Base = IRB.CreatePointerCast(MS.VAArgTLS, MS.IntptrTy);
				3488	Base = IRB.CreateAdd(Base, ConstantInt::get(MS.IntptrTy, ArgOffset));
				3489	return IRB.CreateIntToPtr(Base, PointerType::get(MSV.getShadowTy(Ty), 0),
				3490	"_msarg");
				3491	}
				3492
				3493	void visitVAStartInst(VAStartInst &I) override {
				3494	IRBuilder<> IRB(&I);
				3495	VAStartInstrumentationList.push_back(&I);
				3496	Value *VAListTag = I.getArgOperand(0);
				3497	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				3498	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
				3499	/* size /8, / alignment */8, false);
				3500	}
				3501
				3502	void visitVACopyInst(VACopyInst &I) override {
				3503	IRBuilder<> IRB(&I);
				3504	Value *VAListTag = I.getArgOperand(0);
				3505	Value *ShadowPtr = MSV.getShadowPtr(VAListTag, IRB.getInt8Ty(), IRB);
				3506	// Unpoison the whole __va_list_tag.
				3507	// FIXME: magic ABI constants.
				3508	IRB.CreateMemSet(ShadowPtr, Constant::getNullValue(IRB.getInt8Ty()),
				3509	/* size /8, / alignment */8, false);
				3510	}
				3511
				3512	void finalizeInstrumentation() override {
				3513	assert(!VAArgSize && !VAArgTLSCopy &&
				3514	"finalizeInstrumentation called twice");
				3515	IRBuilder<> IRB(F.getEntryBlock().getFirstNonPHI());
				3516	VAArgSize = IRB.CreateLoad(MS.VAArgOverflowSizeTLS);
				3517	Value *CopySize = IRB.CreateAdd(ConstantInt::get(MS.IntptrTy, 0),
				3518	VAArgSize);
				3519
				3520	if (!VAStartInstrumentationList.empty()) {
				3521	// If there is a va_start in this function, make a backup copy of
				3522	// va_arg_tls somewhere in the function entry block.
				3523	VAArgTLSCopy = IRB.CreateAlloca(Type::getInt8Ty(*MS.C), CopySize);
				3524	IRB.CreateMemCpy(VAArgTLSCopy, MS.VAArgTLS, CopySize, 8);
				3525	}
				3526
				3527	// Instrument va_start.
				3528	// Copy va_list shadow from the backup copy of the TLS contents.
				3529	for (size_t i = 0, n = VAStartInstrumentationList.size(); i < n; i++) {
				3530	CallInst *OrigInst = VAStartInstrumentationList[i];
				3531	IRBuilder<> IRB(OrigInst->getNextNode());
				3532	Value *VAListTag = OrigInst->getArgOperand(0);
				3533	Value *RegSaveAreaPtrPtr =
				3534	IRB.CreateIntToPtr(IRB.CreatePtrToInt(VAListTag, MS.IntptrTy),
				3535	Type::getInt64PtrTy(*MS.C));
				3536	Value *RegSaveAreaPtr = IRB.CreateLoad(RegSaveAreaPtrPtr);
				3537	Value *RegSaveAreaShadowPtr =
				3538	MSV.getShadowPtr(RegSaveAreaPtr, IRB.getInt8Ty(), IRB);
				3539	IRB.CreateMemCpy(RegSaveAreaShadowPtr, VAArgTLSCopy, CopySize, 8);
				3540	}
				3541	}
				3542	};
				3543
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3544	/// \brief A no-op implementation of VarArgHelper.
				3545	struct VarArgNoOpHelper : public VarArgHelper {
				3546	VarArgNoOpHelper(Function &F, MemorySanitizer &MS,
				3547	MemorySanitizerVisitor &MSV) {}
				3548
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	3549	void visitCallSite(CallSite &CS, IRBuilder<> &IRB) override {}
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3550
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	3551	void visitVAStartInst(VAStartInst &I) override {}
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3552
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	3553	void visitVACopyInst(VACopyInst &I) override {}
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3554
Craig Topper	3e4c697	2014-03-05 09:10:37 +0000	[diff] [blame]	3555	void finalizeInstrumentation() override {}
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3556	};
				3557
				3558	VarArgHelper *CreateVarArgHelper(Function &Func, MemorySanitizer &Msan,
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3559	MemorySanitizerVisitor &Visitor) {
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3560	// VarArg handling is only implemented on AMD64. False positives are possible
				3561	// on other platforms.
				3562	llvm::Triple TargetTriple(Func.getParent()->getTargetTriple());
				3563	if (TargetTriple.getArch() == llvm::Triple::x86_64)
				3564	return new VarArgAMD64Helper(Func, Msan, Visitor);
Mohit K. Bhakkad	518946e	2015-02-18 11:41:24 +0000	[diff] [blame]	3565	else if (TargetTriple.getArch() == llvm::Triple::mips64 \|\|
				3566	TargetTriple.getArch() == llvm::Triple::mips64el)
				3567	return new VarArgMIPS64Helper(Func, Msan, Visitor);
Adhemerval Zanella	d2b10c5	2015-12-14 14:14:15 +0000	[diff] [blame]	3568	else if (TargetTriple.getArch() == llvm::Triple::aarch64)
				3569	return new VarArgAArch64Helper(Func, Msan, Visitor);
Marcin Koscielnicki	a4fcd36	2016-05-13 23:55:33 +0000	[diff] [blame]	3570	else if (TargetTriple.getArch() == llvm::Triple::ppc64 \|\|
				3571	TargetTriple.getArch() == llvm::Triple::ppc64le)
				3572	return new VarArgPowerPC64Helper(Func, Msan, Visitor);
Evgeniy Stepanov	ebd7f8e	2013-05-21 12:27:47 +0000	[diff] [blame]	3573	else
				3574	return new VarArgNoOpHelper(Func, Msan, Visitor);
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3575	}
				3576
Hans Wennborg	083ca9b	2015-10-06 23:24:35 +0000	[diff] [blame]	3577	} // anonymous namespace
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3578
				3579	bool MemorySanitizer::runOnFunction(Function &F) {
Ismail Pazarbasi	e5048e1	2015-05-07 21:41:52 +0000	[diff] [blame]	3580	if (&F == MsanCtorFunction)
				3581	return false;
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3582	MemorySanitizerVisitor Visitor(F, *this);
				3583
				3584	// Clear out readonly/readnone attributes.
				3585	AttrBuilder B;
Bill Wendling	3d7b0b8	2012-12-19 07:18:57 +0000	[diff] [blame]	3586	B.addAttribute(Attribute::ReadOnly)
				3587	.addAttribute(Attribute::ReadNone);
Bill Wendling	430fa9b	2013-01-23 00:45:55 +0000	[diff] [blame]	3588	F.removeAttributes(AttributeSet::FunctionIndex,
				3589	AttributeSet::get(F.getContext(),
				3590	AttributeSet::FunctionIndex, B));
Evgeniy Stepanov	d4bd7b7	2012-11-29 09:57:20 +0000	[diff] [blame]	3591
				3592	return Visitor.runOnFunction();
				3593	}