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gerrit-public.fairphone.software / toolchain / llvm-project / c90a85ff995b9fb9faefecba2304e68f4d8e5d95 / . / llvm / lib / ExecutionEngine / RuntimeDyld / RuntimeDyldChecker.cpp
blob: 308d80ef95e8620a1cc8b169462da2f27d8fe4f5 [file] [log] [blame]
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]1//===--- RuntimeDyldChecker.cpp - RuntimeDyld tester framework --*- C++ -*-===//
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
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]10#include "llvm/ADT/STLExtras.h"
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]11#include "llvm/ExecutionEngine/RuntimeDyldChecker.h"
12#include "llvm/MC/MCContext.h"
13#include "llvm/MC/MCDisassembler.h"
14#include "llvm/MC/MCInst.h"
15#include "llvm/Support/StringRefMemoryObject.h"
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]16#include "RuntimeDyldCheckerImpl.h"
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]17#include "RuntimeDyldImpl.h"
Lang Hames3b7ffd62014-06-27 20:37:39 +0000[diff] [blame]18#include <cctype>
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]19#include <memory>
20
21#define DEBUG_TYPE "rtdyld"
22
23using namespace llvm;
24
25namespace llvm {
26
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]27// Helper class that implements the language evaluated by RuntimeDyldChecker.
28class RuntimeDyldCheckerExprEval {
29public:
30 RuntimeDyldCheckerExprEval(const RuntimeDyldCheckerImpl &Checker,
31 raw_ostream &ErrStream)
32 : Checker(Checker) {}
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]33
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]34 bool evaluate(StringRef Expr) const {
35 // Expect equality expression of the form 'LHS = RHS'.
36 Expr = Expr.trim();
37 size_t EQIdx = Expr.find('=');
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]38
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]39 ParseContext OutsideLoad(false);
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]40
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]41 // Evaluate LHS.
42 StringRef LHSExpr = Expr.substr(0, EQIdx).rtrim();
43 StringRef RemainingExpr;
44 EvalResult LHSResult;
45 std::tie(LHSResult, RemainingExpr) =
46 evalComplexExpr(evalSimpleExpr(LHSExpr, OutsideLoad), OutsideLoad);
47 if (LHSResult.hasError())
48 return handleError(Expr, LHSResult);
49 if (RemainingExpr != "")
50 return handleError(Expr, unexpectedToken(RemainingExpr, LHSExpr, ""));
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]51
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]52 // Evaluate RHS.
53 StringRef RHSExpr = Expr.substr(EQIdx + 1).ltrim();
54 EvalResult RHSResult;
55 std::tie(RHSResult, RemainingExpr) =
56 evalComplexExpr(evalSimpleExpr(RHSExpr, OutsideLoad), OutsideLoad);
57 if (RHSResult.hasError())
58 return handleError(Expr, RHSResult);
59 if (RemainingExpr != "")
60 return handleError(Expr, unexpectedToken(RemainingExpr, RHSExpr, ""));
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]61
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]62 if (LHSResult.getValue() != RHSResult.getValue()) {
63 Checker.ErrStream << "Expression '" << Expr << "' is false: "
64 << format("0x%lx", LHSResult.getValue())
65 << " != " << format("0x%lx", RHSResult.getValue())
66 << "\n";
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]67 return false;
68 }
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]69 return true;
70 }
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]71
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]72private:
73 // RuntimeDyldCheckerExprEval requires some context when parsing exprs. In
74 // particular, it needs to know whether a symbol is being evaluated in the
75 // context of a load, in which case we want the linker's local address for
76 // the symbol, or outside of a load, in which case we want the symbol's
77 // address in the remote target.
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]78
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]79 struct ParseContext {
80 bool IsInsideLoad;
81 ParseContext(bool IsInsideLoad) : IsInsideLoad(IsInsideLoad) {}
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]82 };
83
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]84 const RuntimeDyldCheckerImpl &Checker;
85
86 enum class BinOpToken : unsigned {
87 Invalid,
88 Add,
89 Sub,
90 BitwiseAnd,
91 BitwiseOr,
92 ShiftLeft,
93 ShiftRight
94 };
95
96 class EvalResult {
97 public:
98 EvalResult() : Value(0), ErrorMsg("") {}
99 EvalResult(uint64_t Value) : Value(Value), ErrorMsg("") {}
100 EvalResult(std::string ErrorMsg) : Value(0), ErrorMsg(ErrorMsg) {}
101 uint64_t getValue() const { return Value; }
102 bool hasError() const { return ErrorMsg != ""; }
103 const std::string &getErrorMsg() const { return ErrorMsg; }
104
105 private:
106 uint64_t Value;
107 std::string ErrorMsg;
108 };
109
110 StringRef getTokenForError(StringRef Expr) const {
111 if (Expr.empty())
112 return "";
113
114 StringRef Token, Remaining;
115 if (isalpha(Expr[0]))
116 std::tie(Token, Remaining) = parseSymbol(Expr);
117 else if (isdigit(Expr[0]))
118 std::tie(Token, Remaining) = parseNumberString(Expr);
119 else {
120 unsigned TokLen = 1;
121 if (Expr.startswith("<<") || Expr.startswith(">>"))
122 TokLen = 2;
123 Token = Expr.substr(0, TokLen);
124 }
125 return Token;
126 }
127
128 EvalResult unexpectedToken(StringRef TokenStart, StringRef SubExpr,
129 StringRef ErrText) const {
130 std::string ErrorMsg("Encountered unexpected token '");
131 ErrorMsg += getTokenForError(TokenStart);
132 if (SubExpr != "") {
133 ErrorMsg += "' while parsing subexpression '";
134 ErrorMsg += SubExpr;
135 }
136 ErrorMsg += "'";
137 if (ErrText != "") {
138 ErrorMsg += " ";
139 ErrorMsg += ErrText;
140 }
141 return EvalResult(std::move(ErrorMsg));
142 }
143
144 bool handleError(StringRef Expr, const EvalResult &R) const {
145 assert(R.hasError() && "Not an error result.");
146 Checker.ErrStream << "Error evaluating expression '" << Expr
147 << "': " << R.getErrorMsg() << "\n";
148 return false;
149 }
150
151 std::pair<BinOpToken, StringRef> parseBinOpToken(StringRef Expr) const {
152 if (Expr.empty())
153 return std::make_pair(BinOpToken::Invalid, "");
154
155 // Handle the two 2-character tokens.
156 if (Expr.startswith("<<"))
157 return std::make_pair(BinOpToken::ShiftLeft, Expr.substr(2).ltrim());
158 if (Expr.startswith(">>"))
159 return std::make_pair(BinOpToken::ShiftRight, Expr.substr(2).ltrim());
160
161 // Handle one-character tokens.
162 BinOpToken Op;
163 switch (Expr[0]) {
164 default:
165 return std::make_pair(BinOpToken::Invalid, Expr);
166 case '+':
167 Op = BinOpToken::Add;
168 break;
169 case '-':
170 Op = BinOpToken::Sub;
171 break;
172 case '&':
173 Op = BinOpToken::BitwiseAnd;
174 break;
175 case '|':
176 Op = BinOpToken::BitwiseOr;
177 break;
178 }
179
180 return std::make_pair(Op, Expr.substr(1).ltrim());
181 }
182
183 EvalResult computeBinOpResult(BinOpToken Op, const EvalResult &LHSResult,
184 const EvalResult &RHSResult) const {
185 switch (Op) {
186 default:
187 llvm_unreachable("Tried to evaluate unrecognized operation.");
188 case BinOpToken::Add:
189 return EvalResult(LHSResult.getValue() + RHSResult.getValue());
190 case BinOpToken::Sub:
191 return EvalResult(LHSResult.getValue() - RHSResult.getValue());
192 case BinOpToken::BitwiseAnd:
193 return EvalResult(LHSResult.getValue() & RHSResult.getValue());
194 case BinOpToken::BitwiseOr:
195 return EvalResult(LHSResult.getValue() | RHSResult.getValue());
196 case BinOpToken::ShiftLeft:
197 return EvalResult(LHSResult.getValue() << RHSResult.getValue());
198 case BinOpToken::ShiftRight:
199 return EvalResult(LHSResult.getValue() >> RHSResult.getValue());
200 }
201 }
202
203 // Parse a symbol and return a (string, string) pair representing the symbol
204 // name and expression remaining to be parsed.
205 std::pair<StringRef, StringRef> parseSymbol(StringRef Expr) const {
206 size_t FirstNonSymbol = Expr.find_first_not_of("0123456789"
207 "abcdefghijklmnopqrstuvwxyz"
208 "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
209 ":_.");
210 return std::make_pair(Expr.substr(0, FirstNonSymbol),
211 Expr.substr(FirstNonSymbol).ltrim());
212 }
213
214 // Evaluate a call to decode_operand. Decode the instruction operand at the
215 // given symbol and get the value of the requested operand.
216 // Returns an error if the instruction cannot be decoded, or the requested
217 // operand is not an immediate.
218 // On success, retuns a pair containing the value of the operand, plus
219 // the expression remaining to be evaluated.
220 std::pair<EvalResult, StringRef> evalDecodeOperand(StringRef Expr) const {
221 if (!Expr.startswith("("))
222 return std::make_pair(unexpectedToken(Expr, Expr, "expected '('"), "");
223 StringRef RemainingExpr = Expr.substr(1).ltrim();
224 StringRef Symbol;
225 std::tie(Symbol, RemainingExpr) = parseSymbol(RemainingExpr);
226
227 if (!Checker.isSymbolValid(Symbol))
228 return std::make_pair(
229 EvalResult(("Cannot decode unknown symbol '" + Symbol + "'").str()),
230 "");
231
232 if (!RemainingExpr.startswith(","))
233 return std::make_pair(
234 unexpectedToken(RemainingExpr, RemainingExpr, "expected ','"), "");
235 RemainingExpr = RemainingExpr.substr(1).ltrim();
236
237 EvalResult OpIdxExpr;
238 std::tie(OpIdxExpr, RemainingExpr) = evalNumberExpr(RemainingExpr);
239 if (OpIdxExpr.hasError())
240 return std::make_pair(OpIdxExpr, "");
241
242 if (!RemainingExpr.startswith(")"))
243 return std::make_pair(
244 unexpectedToken(RemainingExpr, RemainingExpr, "expected ')'"), "");
245 RemainingExpr = RemainingExpr.substr(1).ltrim();
246
247 MCInst Inst;
248 uint64_t Size;
249 if (!decodeInst(Symbol, Inst, Size))
250 return std::make_pair(
251 EvalResult(("Couldn't decode instruction at '" + Symbol + "'").str()),
252 "");
253
254 unsigned OpIdx = OpIdxExpr.getValue();
255 if (OpIdx >= Inst.getNumOperands()) {
256 std::string ErrMsg;
257 raw_string_ostream ErrMsgStream(ErrMsg);
258 ErrMsgStream << "Invalid operand index '" << format("%i", OpIdx)
259 << "' for instruction '" << Symbol
260 << "'. Instruction has only "
261 << format("%i", Inst.getNumOperands())
262 << " operands.\nInstruction is:\n ";
263 Inst.dump_pretty(ErrMsgStream,
264 Checker.Disassembler->getContext().getAsmInfo(),
265 Checker.InstPrinter);
266 return std::make_pair(EvalResult(ErrMsgStream.str()), "");
267 }
268
269 const MCOperand &Op = Inst.getOperand(OpIdx);
270 if (!Op.isImm()) {
271 std::string ErrMsg;
272 raw_string_ostream ErrMsgStream(ErrMsg);
273 ErrMsgStream << "Operand '" << format("%i", OpIdx) << "' of instruction '"
274 << Symbol << "' is not an immediate.\nInstruction is:\n ";
275 Inst.dump_pretty(ErrMsgStream,
276 Checker.Disassembler->getContext().getAsmInfo(),
277 Checker.InstPrinter);
278
279 return std::make_pair(EvalResult(ErrMsgStream.str()), "");
280 }
281
282 return std::make_pair(EvalResult(Op.getImm()), RemainingExpr);
283 }
284
285 // Evaluate a call to next_pc.
286 // Decode the instruction at the given symbol and return the following program
287 // counter.
288 // Returns an error if the instruction cannot be decoded.
289 // On success, returns a pair containing the next PC, plus of the
290 // expression remaining to be evaluated.
291 std::pair<EvalResult, StringRef> evalNextPC(StringRef Expr,
292 ParseContext PCtx) const {
293 if (!Expr.startswith("("))
294 return std::make_pair(unexpectedToken(Expr, Expr, "expected '('"), "");
295 StringRef RemainingExpr = Expr.substr(1).ltrim();
296 StringRef Symbol;
297 std::tie(Symbol, RemainingExpr) = parseSymbol(RemainingExpr);
298
299 if (!Checker.isSymbolValid(Symbol))
300 return std::make_pair(
301 EvalResult(("Cannot decode unknown symbol '" + Symbol + "'").str()),
302 "");
303
304 if (!RemainingExpr.startswith(")"))
305 return std::make_pair(
306 unexpectedToken(RemainingExpr, RemainingExpr, "expected ')'"), "");
307 RemainingExpr = RemainingExpr.substr(1).ltrim();
308
309 MCInst Inst;
310 uint64_t InstSize;
311 if (!decodeInst(Symbol, Inst, InstSize))
312 return std::make_pair(
313 EvalResult(("Couldn't decode instruction at '" + Symbol + "'").str()),
314 "");
315
316 uint64_t SymbolAddr = PCtx.IsInsideLoad
317 ? Checker.getSymbolLinkerAddr(Symbol)
318 : Checker.getSymbolRemoteAddr(Symbol);
319 uint64_t NextPC = SymbolAddr + InstSize;
320
321 return std::make_pair(EvalResult(NextPC), RemainingExpr);
322 }
323
324 // Evaluate a call to stub_addr.
325 // Look up and return the address of the stub for the given
326 // (<file name>, <section name>, <symbol name>) tuple.
327 // On success, returns a pair containing the stub address, plus the expression
328 // remaining to be evaluated.
329 std::pair<EvalResult, StringRef> evalStubAddr(StringRef Expr,
330 ParseContext PCtx) const {
331 if (!Expr.startswith("("))
332 return std::make_pair(unexpectedToken(Expr, Expr, "expected '('"), "");
333 StringRef RemainingExpr = Expr.substr(1).ltrim();
334
335 // Handle file-name specially, as it may contain characters that aren't
336 // legal for symbols.
337 StringRef FileName;
338 size_t ComaIdx = RemainingExpr.find(',');
339 FileName = RemainingExpr.substr(0, ComaIdx).rtrim();
340 RemainingExpr = RemainingExpr.substr(ComaIdx).ltrim();
341
342 if (!RemainingExpr.startswith(","))
343 return std::make_pair(
344 unexpectedToken(RemainingExpr, Expr, "expected ','"), "");
345 RemainingExpr = RemainingExpr.substr(1).ltrim();
346
347 StringRef SectionName;
348 std::tie(SectionName, RemainingExpr) = parseSymbol(RemainingExpr);
349
350 if (!RemainingExpr.startswith(","))
351 return std::make_pair(
352 unexpectedToken(RemainingExpr, Expr, "expected ','"), "");
353 RemainingExpr = RemainingExpr.substr(1).ltrim();
354
355 StringRef Symbol;
356 std::tie(Symbol, RemainingExpr) = parseSymbol(RemainingExpr);
357
358 if (!RemainingExpr.startswith(")"))
359 return std::make_pair(
360 unexpectedToken(RemainingExpr, Expr, "expected ')'"), "");
361 RemainingExpr = RemainingExpr.substr(1).ltrim();
362
363 uint64_t StubAddr;
364 std::string ErrorMsg = "";
365 std::tie(StubAddr, ErrorMsg) = Checker.getStubAddrFor(
366 FileName, SectionName, Symbol, PCtx.IsInsideLoad);
367
368 if (ErrorMsg != "")
369 return std::make_pair(EvalResult(ErrorMsg), "");
370
371 return std::make_pair(EvalResult(StubAddr), RemainingExpr);
372 }
373
374 // Evaluate an identiefer expr, which may be a symbol, or a call to
375 // one of the builtin functions: get_insn_opcode or get_insn_length.
376 // Return the result, plus the expression remaining to be parsed.
377 std::pair<EvalResult, StringRef> evalIdentifierExpr(StringRef Expr,
378 ParseContext PCtx) const {
379 StringRef Symbol;
380 StringRef RemainingExpr;
381 std::tie(Symbol, RemainingExpr) = parseSymbol(Expr);
382
383 // Check for builtin function calls.
384 if (Symbol == "decode_operand")
385 return evalDecodeOperand(RemainingExpr);
386 else if (Symbol == "next_pc")
387 return evalNextPC(RemainingExpr, PCtx);
388 else if (Symbol == "stub_addr")
389 return evalStubAddr(RemainingExpr, PCtx);
390
391 if (!Checker.isSymbolValid(Symbol)) {
392 std::string ErrMsg("No known address for symbol '");
393 ErrMsg += Symbol;
394 ErrMsg += "'";
395 if (Symbol.startswith("L"))
396 ErrMsg += " (this appears to be an assembler local label - "
397 " perhaps drop the 'L'?)";
398
399 return std::make_pair(EvalResult(ErrMsg), "");
400 }
401
402 // The value for the symbol depends on the context we're evaluating in:
403 // Inside a load this is the address in the linker's memory, outside a
404 // load it's the address in the target processes memory.
405 uint64_t Value = PCtx.IsInsideLoad ? Checker.getSymbolLinkerAddr(Symbol)
406 : Checker.getSymbolRemoteAddr(Symbol);
407
408 // Looks like a plain symbol reference.
409 return std::make_pair(EvalResult(Value), RemainingExpr);
410 }
411
412 // Parse a number (hexadecimal or decimal) and return a (string, string)
413 // pair representing the number and the expression remaining to be parsed.
414 std::pair<StringRef, StringRef> parseNumberString(StringRef Expr) const {
415 size_t FirstNonDigit = StringRef::npos;
416 if (Expr.startswith("0x")) {
417 FirstNonDigit = Expr.find_first_not_of("0123456789abcdefABCDEF", 2);
418 if (FirstNonDigit == StringRef::npos)
419 FirstNonDigit = Expr.size();
420 } else {
421 FirstNonDigit = Expr.find_first_not_of("0123456789");
422 if (FirstNonDigit == StringRef::npos)
423 FirstNonDigit = Expr.size();
424 }
425 return std::make_pair(Expr.substr(0, FirstNonDigit),
426 Expr.substr(FirstNonDigit));
427 }
428
429 // Evaluate a constant numeric expression (hexidecimal or decimal) and
430 // return a pair containing the result, and the expression remaining to be
431 // evaluated.
432 std::pair<EvalResult, StringRef> evalNumberExpr(StringRef Expr) const {
433 StringRef ValueStr;
434 StringRef RemainingExpr;
435 std::tie(ValueStr, RemainingExpr) = parseNumberString(Expr);
436
437 if (ValueStr.empty() || !isdigit(ValueStr[0]))
438 return std::make_pair(
439 unexpectedToken(RemainingExpr, RemainingExpr, "expected number"), "");
440 uint64_t Value;
441 ValueStr.getAsInteger(0, Value);
442 return std::make_pair(EvalResult(Value), RemainingExpr);
443 }
444
445 // Evaluate an expression of the form "(<expr>)" and return a pair
446 // containing the result of evaluating <expr>, plus the expression
447 // remaining to be parsed.
448 std::pair<EvalResult, StringRef> evalParensExpr(StringRef Expr,
449 ParseContext PCtx) const {
450 assert(Expr.startswith("(") && "Not a parenthesized expression");
451 EvalResult SubExprResult;
452 StringRef RemainingExpr;
453 std::tie(SubExprResult, RemainingExpr) =
454 evalComplexExpr(evalSimpleExpr(Expr.substr(1).ltrim(), PCtx), PCtx);
455 if (SubExprResult.hasError())
456 return std::make_pair(SubExprResult, "");
457 if (!RemainingExpr.startswith(")"))
458 return std::make_pair(
459 unexpectedToken(RemainingExpr, Expr, "expected ')'"), "");
460 RemainingExpr = RemainingExpr.substr(1).ltrim();
461 return std::make_pair(SubExprResult, RemainingExpr);
462 }
463
464 // Evaluate an expression in one of the following forms:
465 // *{<number>}<expr>
466 // Return a pair containing the result, plus the expression remaining to be
467 // parsed.
468 std::pair<EvalResult, StringRef> evalLoadExpr(StringRef Expr) const {
469 assert(Expr.startswith("*") && "Not a load expression");
470 StringRef RemainingExpr = Expr.substr(1).ltrim();
471
472 // Parse read size.
473 if (!RemainingExpr.startswith("{"))
474 return std::make_pair(EvalResult("Expected '{' following '*'."), "");
475 RemainingExpr = RemainingExpr.substr(1).ltrim();
476 EvalResult ReadSizeExpr;
477 std::tie(ReadSizeExpr, RemainingExpr) = evalNumberExpr(RemainingExpr);
478 if (ReadSizeExpr.hasError())
479 return std::make_pair(ReadSizeExpr, RemainingExpr);
480 uint64_t ReadSize = ReadSizeExpr.getValue();
481 if (ReadSize < 1 || ReadSize > 8)
482 return std::make_pair(EvalResult("Invalid size for dereference."), "");
483 if (!RemainingExpr.startswith("}"))
484 return std::make_pair(EvalResult("Missing '}' for dereference."), "");
485 RemainingExpr = RemainingExpr.substr(1).ltrim();
486
487 // Evaluate the expression representing the load address.
488 ParseContext LoadCtx(true);
489 EvalResult LoadAddrExprResult;
490 std::tie(LoadAddrExprResult, RemainingExpr) =
491 evalComplexExpr(evalSimpleExpr(RemainingExpr, LoadCtx), LoadCtx);
492
493 if (LoadAddrExprResult.hasError())
494 return std::make_pair(LoadAddrExprResult, "");
495
496 uint64_t LoadAddr = LoadAddrExprResult.getValue();
497
498 return std::make_pair(
499 EvalResult(Checker.readMemoryAtAddr(LoadAddr, ReadSize)),
500 RemainingExpr);
501 }
502
503 // Evaluate a "simple" expression. This is any expression that _isn't_ an
504 // un-parenthesized binary expression.
505 //
506 // "Simple" expressions can be optionally bit-sliced. See evalSlicedExpr.
507 //
508 // Returns a pair containing the result of the evaluation, plus the
509 // expression remaining to be parsed.
510 std::pair<EvalResult, StringRef> evalSimpleExpr(StringRef Expr,
511 ParseContext PCtx) const {
512 EvalResult SubExprResult;
513 StringRef RemainingExpr;
514
515 if (Expr.empty())
516 return std::make_pair(EvalResult("Unexpected end of expression"), "");
517
518 if (Expr[0] == '(')
519 std::tie(SubExprResult, RemainingExpr) = evalParensExpr(Expr, PCtx);
520 else if (Expr[0] == '*')
521 std::tie(SubExprResult, RemainingExpr) = evalLoadExpr(Expr);
Lang Hamesc90a85ff2014-07-22 23:17:21 +0000[diff] [blame^]522 else if (isalpha(Expr[0]) || Expr[0] == '_')
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]523 std::tie(SubExprResult, RemainingExpr) = evalIdentifierExpr(Expr, PCtx);
524 else if (isdigit(Expr[0]))
525 std::tie(SubExprResult, RemainingExpr) = evalNumberExpr(Expr);
526
527 if (SubExprResult.hasError())
528 return std::make_pair(SubExprResult, RemainingExpr);
529
530 // Evaluate bit-slice if present.
531 if (RemainingExpr.startswith("["))
532 std::tie(SubExprResult, RemainingExpr) =
533 evalSliceExpr(std::make_pair(SubExprResult, RemainingExpr));
534
535 return std::make_pair(SubExprResult, RemainingExpr);
536 }
537
538 // Evaluate a bit-slice of an expression.
539 // A bit-slice has the form "<expr>[high:low]". The result of evaluating a
540 // slice is the bits between high and low (inclusive) in the original
541 // expression, right shifted so that the "low" bit is in position 0 in the
542 // result.
543 // Returns a pair containing the result of the slice operation, plus the
544 // expression remaining to be parsed.
545 std::pair<EvalResult, StringRef>
546 evalSliceExpr(std::pair<EvalResult, StringRef> Ctx) const {
547 EvalResult SubExprResult;
548 StringRef RemainingExpr;
549 std::tie(SubExprResult, RemainingExpr) = Ctx;
550
551 assert(RemainingExpr.startswith("[") && "Not a slice expr.");
552 RemainingExpr = RemainingExpr.substr(1).ltrim();
553
554 EvalResult HighBitExpr;
555 std::tie(HighBitExpr, RemainingExpr) = evalNumberExpr(RemainingExpr);
556
557 if (HighBitExpr.hasError())
558 return std::make_pair(HighBitExpr, RemainingExpr);
559
560 if (!RemainingExpr.startswith(":"))
561 return std::make_pair(
562 unexpectedToken(RemainingExpr, RemainingExpr, "expected ':'"), "");
563 RemainingExpr = RemainingExpr.substr(1).ltrim();
564
565 EvalResult LowBitExpr;
566 std::tie(LowBitExpr, RemainingExpr) = evalNumberExpr(RemainingExpr);
567
568 if (LowBitExpr.hasError())
569 return std::make_pair(LowBitExpr, RemainingExpr);
570
571 if (!RemainingExpr.startswith("]"))
572 return std::make_pair(
573 unexpectedToken(RemainingExpr, RemainingExpr, "expected ']'"), "");
574 RemainingExpr = RemainingExpr.substr(1).ltrim();
575
576 unsigned HighBit = HighBitExpr.getValue();
577 unsigned LowBit = LowBitExpr.getValue();
578 uint64_t Mask = ((uint64_t)1 << (HighBit - LowBit + 1)) - 1;
579 uint64_t SlicedValue = (SubExprResult.getValue() >> LowBit) & Mask;
580 return std::make_pair(EvalResult(SlicedValue), RemainingExpr);
581 }
582
583 // Evaluate a "complex" expression.
584 // Takes an already evaluated subexpression and checks for the presence of a
585 // binary operator, computing the result of the binary operation if one is
586 // found. Used to make arithmetic expressions left-associative.
587 // Returns a pair containing the ultimate result of evaluating the
588 // expression, plus the expression remaining to be evaluated.
589 std::pair<EvalResult, StringRef>
590 evalComplexExpr(std::pair<EvalResult, StringRef> LHSAndRemaining,
591 ParseContext PCtx) const {
592 EvalResult LHSResult;
593 StringRef RemainingExpr;
594 std::tie(LHSResult, RemainingExpr) = LHSAndRemaining;
595
596 // If there was an error, or there's nothing left to evaluate, return the
597 // result.
598 if (LHSResult.hasError() || RemainingExpr == "")
599 return std::make_pair(LHSResult, RemainingExpr);
600
601 // Otherwise check if this is a binary expressioan.
602 BinOpToken BinOp;
603 std::tie(BinOp, RemainingExpr) = parseBinOpToken(RemainingExpr);
604
605 // If this isn't a recognized expression just return.
606 if (BinOp == BinOpToken::Invalid)
607 return std::make_pair(LHSResult, RemainingExpr);
608
609 // This is a recognized bin-op. Evaluate the RHS, then evaluate the binop.
610 EvalResult RHSResult;
611 std::tie(RHSResult, RemainingExpr) = evalSimpleExpr(RemainingExpr, PCtx);
612
613 // If there was an error evaluating the RHS, return it.
614 if (RHSResult.hasError())
615 return std::make_pair(RHSResult, RemainingExpr);
616
617 // This is a binary expression - evaluate and try to continue as a
618 // complex expr.
619 EvalResult ThisResult(computeBinOpResult(BinOp, LHSResult, RHSResult));
620
621 return evalComplexExpr(std::make_pair(ThisResult, RemainingExpr), PCtx);
622 }
623
624 bool decodeInst(StringRef Symbol, MCInst &Inst, uint64_t &Size) const {
625 MCDisassembler *Dis = Checker.Disassembler;
626 StringRef SectionMem = Checker.getSubsectionStartingAt(Symbol);
627 StringRefMemoryObject SectionBytes(SectionMem, 0);
628
629 MCDisassembler::DecodeStatus S =
630 Dis->getInstruction(Inst, Size, SectionBytes, 0, nulls(), nulls());
631
632 return (S == MCDisassembler::Success);
633 }
634};
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]635}
636
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]637RuntimeDyldCheckerImpl::RuntimeDyldCheckerImpl(RuntimeDyld &RTDyld,
638 MCDisassembler *Disassembler,
639 MCInstPrinter *InstPrinter,
640 raw_ostream &ErrStream)
641 : RTDyld(RTDyld), Disassembler(Disassembler), InstPrinter(InstPrinter),
642 ErrStream(ErrStream) {
643 RTDyld.Checker = this;
644}
645
646bool RuntimeDyldCheckerImpl::check(StringRef CheckExpr) const {
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]647 CheckExpr = CheckExpr.trim();
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]648 DEBUG(dbgs() << "RuntimeDyldChecker: Checking '" << CheckExpr << "'...\n");
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]649 RuntimeDyldCheckerExprEval P(*this, ErrStream);
650 bool Result = P.evaluate(CheckExpr);
651 (void)Result;
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]652 DEBUG(dbgs() << "RuntimeDyldChecker: '" << CheckExpr << "' "
653 << (Result ? "passed" : "FAILED") << ".\n");
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]654 return Result;
655}
656
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]657bool RuntimeDyldCheckerImpl::checkAllRulesInBuffer(StringRef RulePrefix,
658 MemoryBuffer *MemBuf) const {
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]659 bool DidAllTestsPass = true;
660 unsigned NumRules = 0;
661
662 const char *LineStart = MemBuf->getBufferStart();
663
664 // Eat whitespace.
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]665 while (LineStart != MemBuf->getBufferEnd() && std::isspace(*LineStart))
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]666 ++LineStart;
667
668 while (LineStart != MemBuf->getBufferEnd() && *LineStart != '\0') {
669 const char *LineEnd = LineStart;
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]670 while (LineEnd != MemBuf->getBufferEnd() && *LineEnd != '\r' &&
671 *LineEnd != '\n')
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]672 ++LineEnd;
673
674 StringRef Line(LineStart, LineEnd - LineStart);
675 if (Line.startswith(RulePrefix)) {
676 DidAllTestsPass &= check(Line.substr(RulePrefix.size()));
677 ++NumRules;
678 }
679
680 // Eat whitespace.
681 LineStart = LineEnd;
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]682 while (LineStart != MemBuf->getBufferEnd() && std::isspace(*LineStart))
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]683 ++LineStart;
684 }
685 return DidAllTestsPass && (NumRules != 0);
686}
687
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]688bool RuntimeDyldCheckerImpl::isSymbolValid(StringRef Symbol) const {
689 return getRTDyld().getSymbolAddress(Symbol) != nullptr;
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]690}
691
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]692uint64_t RuntimeDyldCheckerImpl::getSymbolLinkerAddr(StringRef Symbol) const {
693 return static_cast<uint64_t>(
694 reinterpret_cast<uintptr_t>(getRTDyld().getSymbolAddress(Symbol)));
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]695}
696
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]697uint64_t RuntimeDyldCheckerImpl::getSymbolRemoteAddr(StringRef Symbol) const {
698 return getRTDyld().getAnySymbolRemoteAddress(Symbol);
699}
700
701uint64_t RuntimeDyldCheckerImpl::readMemoryAtAddr(uint64_t SrcAddr,
702 unsigned Size) const {
703 uintptr_t PtrSizedAddr = static_cast<uintptr_t>(SrcAddr);
704 assert(PtrSizedAddr == SrcAddr && "Linker memory pointer out-of-range.");
705 uint8_t *Src = reinterpret_cast<uint8_t *>(PtrSizedAddr);
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]706 uint64_t Result = 0;
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]707 memcpy(&Result, Src, Size);
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]708 return Result;
709}
710
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]711std::pair<uint64_t, std::string> RuntimeDyldCheckerImpl::getStubAddrFor(
712 StringRef FileName, StringRef SectionName, StringRef SymbolName,
713 bool IsInsideLoad) const {
714
715 auto SI1 = Stubs.find(FileName);
Lang Hamescce313b2014-07-22 23:07:52 +0000[diff] [blame]716 if (SI1 == Stubs.end()) {
717 std::string ErrorMsg = "File '";
718 ErrorMsg += FileName;
719 ErrorMsg += "' not found. ";
720 if (Stubs.empty())
721 ErrorMsg += "No stubs registered.";
722 else {
723 ErrorMsg += "Available files are:";
724 for (const auto& StubEntry : Stubs) {
725 ErrorMsg += " '";
726 ErrorMsg += StubEntry.first;
727 ErrorMsg += "'";
728 }
729 }
730 ErrorMsg += "\n";
731 return std::make_pair(0, ErrorMsg);
732 }
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]733
734 const SectionStubMap &SectionStubs = SI1->second;
735 auto SI2 = SectionStubs.find(SectionName);
736 if (SI2 == SectionStubs.end())
737 return std::make_pair(0,
738 ("Section '" + SectionName + "' not found.\n").str());
739
740 const SymbolStubMap &SymbolStubs = SI2->second;
741 auto SI3 = SymbolStubs.find(SymbolName);
742 if (SI3 == SymbolStubs.end())
743 return std::make_pair(0,
744 ("Symbol '" + SymbolName + "' not found.\n").str());
745
746 unsigned SectionID = SI3->second.first;
747 uint64_t StubOffset = SI3->second.second;
748
749 uint64_t Addr;
750 if (IsInsideLoad) {
751 uint64_t SectionBase = getRTDyld().Sections[SectionID].LoadAddress;
752 Addr = SectionBase + StubOffset;
753 } else {
754 uintptr_t SectionBase =
755 reinterpret_cast<uintptr_t>(getRTDyld().Sections[SectionID].Address);
756 Addr = static_cast<uint64_t>(SectionBase) + StubOffset;
757 }
758
759 return std::make_pair(Addr, std::string(""));
760}
761
762StringRef
763RuntimeDyldCheckerImpl::getSubsectionStartingAt(StringRef Name) const {
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]764 RuntimeDyldImpl::SymbolTableMap::const_iterator pos =
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]765 getRTDyld().GlobalSymbolTable.find(Name);
766 if (pos == getRTDyld().GlobalSymbolTable.end())
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]767 return StringRef();
768 RuntimeDyldImpl::SymbolLoc Loc = pos->second;
Lang Hamesf7acddd2014-07-22 22:47:39 +0000[diff] [blame]769 uint8_t *SectionAddr = getRTDyld().getSectionAddress(Loc.first);
770 return StringRef(reinterpret_cast<const char *>(SectionAddr) + Loc.second,
771 getRTDyld().Sections[Loc.first].Size - Loc.second);
772}
773
774void RuntimeDyldCheckerImpl::registerStubMap(
775 StringRef FileName, unsigned SectionID,
776 const RuntimeDyldImpl::StubMap &RTDyldStubs) {
777 const SectionEntry &Section = getRTDyld().Sections[SectionID];
778 StringRef SectionName = Section.Name;
779 for (auto &StubMapEntry : RTDyldStubs) {
780 std::string SymbolName = "";
781
782 if (StubMapEntry.first.SymbolName)
783 SymbolName = StubMapEntry.first.SymbolName;
784 else {
785 // If this is a (Section, Offset) pair, do a reverse lookup in the
786 // global symbol table to find the name.
787 for (auto &GSTEntry : getRTDyld().GlobalSymbolTable) {
788 if (GSTEntry.second.first == StubMapEntry.first.SectionID &&
789 GSTEntry.second.second ==
790 static_cast<uint64_t>(StubMapEntry.first.Addend)) {
791 SymbolName = GSTEntry.first();
792 break;
793 }
794 }
795 }
796
797 if (SymbolName != "")
798 Stubs[FileName][SectionName][SymbolName] =
799 StubLoc(SectionID, StubMapEntry.second);
800 }
801}
802
803RuntimeDyldChecker::RuntimeDyldChecker(RuntimeDyld &RTDyld,
804 MCDisassembler *Disassembler,
805 MCInstPrinter *InstPrinter,
806 raw_ostream &ErrStream)
807 : Impl(make_unique<RuntimeDyldCheckerImpl>(RTDyld, Disassembler,
808 InstPrinter, ErrStream)) {}
809
810RuntimeDyldChecker::~RuntimeDyldChecker() {}
811
812bool RuntimeDyldChecker::check(StringRef CheckExpr) const {
813 return Impl->check(CheckExpr);
814}
815
816bool RuntimeDyldChecker::checkAllRulesInBuffer(StringRef RulePrefix,
817 MemoryBuffer *MemBuf) const {
818 return Impl->checkAllRulesInBuffer(RulePrefix, MemBuf);
Lang Hamese1c11382014-06-27 20:20:57 +0000[diff] [blame]819}