Handle frame pointer omission (#21), part 2: PostfixEvaluator. r=bryner.

- A postfix (reverse-Polish) notation expression evaluator that we can
   feed stack-frame debug information into, crank, and get pointers to
   the calling frame from.

http://groups.google.com/group/airbag-dev/browse_thread/thread/a1d6c5d1fd5fdcb9


git-svn-id: http://google-breakpad.googlecode.com/svn/trunk@32 4c0a9323-5329-0410-9bdc-e9ce6186880e
This commit is contained in:
mmentovai 2006-09-22 00:42:23 +00:00
parent 7daf246e4b
commit b934bb974a
5 changed files with 654 additions and 0 deletions

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@ -62,6 +62,8 @@ src_libairbag_la_SOURCES = \
src/processor/minidump.h \
src/processor/minidump_format.h \
src/processor/minidump_processor.cc \
src/processor/postfix_evaluator.h \
src/processor/postfix_evaluator-inl.h \
src/processor/range_map.h \
src/processor/range_map-inl.h \
src/processor/source_line_resolver.cc \
@ -82,6 +84,7 @@ bin_PROGRAMS = \
check_PROGRAMS = \
src/processor/contained_range_map_unittest \
src/processor/minidump_processor_unittest \
src/processor/postfix_evaluator_unittest \
src/processor/range_map_unittest \
src/processor/source_line_resolver_unittest
check_SCRIPTS = \
@ -102,6 +105,9 @@ src_processor_minidump_processor_unittest_LDADD = \
src/processor/stackwalker_x86.lo \
src/processor/source_line_resolver.lo
src_processor_postfix_evaluator_unittest_SOURCES = \
src/processor/postfix_evaluator_unittest.cc
src_processor_range_map_unittest_SOURCES = \
src/processor/range_map_unittest.cc

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@ -72,6 +72,7 @@ bin_PROGRAMS = src/processor/minidump_dump$(EXEEXT) \
src/processor/minidump_stackwalk$(EXEEXT)
check_PROGRAMS = src/processor/contained_range_map_unittest$(EXEEXT) \
src/processor/minidump_processor_unittest$(EXEEXT) \
src/processor/postfix_evaluator_unittest$(EXEEXT) \
src/processor/range_map_unittest$(EXEEXT) \
src/processor/source_line_resolver_unittest$(EXEEXT)
noinst_PROGRAMS =
@ -136,6 +137,11 @@ src_processor_minidump_stackwalk_DEPENDENCIES = \
src/processor/minidump.lo src/processor/stackwalker.lo \
src/processor/stackwalker_x86.lo \
src/processor/source_line_resolver.lo
am_src_processor_postfix_evaluator_unittest_OBJECTS = \
src/processor/postfix_evaluator_unittest.$(OBJEXT)
src_processor_postfix_evaluator_unittest_OBJECTS = \
$(am_src_processor_postfix_evaluator_unittest_OBJECTS)
src_processor_postfix_evaluator_unittest_LDADD = $(LDADD)
am_src_processor_range_map_unittest_OBJECTS = \
src/processor/range_map_unittest.$(OBJEXT)
src_processor_range_map_unittest_OBJECTS = \
@ -172,6 +178,7 @@ SOURCES = $(src_libairbag_la_SOURCES) \
$(src_processor_minidump_dump_SOURCES) \
$(src_processor_minidump_processor_unittest_SOURCES) \
$(src_processor_minidump_stackwalk_SOURCES) \
$(src_processor_postfix_evaluator_unittest_SOURCES) \
$(src_processor_range_map_unittest_SOURCES) \
$(src_processor_source_line_resolver_unittest_SOURCES)
DIST_SOURCES = $(src_libairbag_la_SOURCES) \
@ -179,6 +186,7 @@ DIST_SOURCES = $(src_libairbag_la_SOURCES) \
$(src_processor_minidump_dump_SOURCES) \
$(src_processor_minidump_processor_unittest_SOURCES) \
$(src_processor_minidump_stackwalk_SOURCES) \
$(src_processor_postfix_evaluator_unittest_SOURCES) \
$(src_processor_range_map_unittest_SOURCES) \
$(src_processor_source_line_resolver_unittest_SOURCES)
dist_docDATA_INSTALL = $(INSTALL_DATA)
@ -323,6 +331,8 @@ src_libairbag_la_SOURCES = \
src/processor/minidump.h \
src/processor/minidump_format.h \
src/processor/minidump_processor.cc \
src/processor/postfix_evaluator.h \
src/processor/postfix_evaluator-inl.h \
src/processor/range_map.h \
src/processor/range_map-inl.h \
src/processor/source_line_resolver.cc \
@ -351,6 +361,9 @@ src_processor_minidump_processor_unittest_LDADD = \
src/processor/stackwalker_x86.lo \
src/processor/source_line_resolver.lo
src_processor_postfix_evaluator_unittest_SOURCES = \
src/processor/postfix_evaluator_unittest.cc
src_processor_range_map_unittest_SOURCES = \
src/processor/range_map_unittest.cc
@ -554,6 +567,12 @@ src/processor/minidump_stackwalk.$(OBJEXT): \
src/processor/minidump_stackwalk$(EXEEXT): $(src_processor_minidump_stackwalk_OBJECTS) $(src_processor_minidump_stackwalk_DEPENDENCIES) src/processor/$(am__dirstamp)
@rm -f src/processor/minidump_stackwalk$(EXEEXT)
$(CXXLINK) $(src_processor_minidump_stackwalk_LDFLAGS) $(src_processor_minidump_stackwalk_OBJECTS) $(src_processor_minidump_stackwalk_LDADD) $(LIBS)
src/processor/postfix_evaluator_unittest.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
src/processor/postfix_evaluator_unittest$(EXEEXT): $(src_processor_postfix_evaluator_unittest_OBJECTS) $(src_processor_postfix_evaluator_unittest_DEPENDENCIES) src/processor/$(am__dirstamp)
@rm -f src/processor/postfix_evaluator_unittest$(EXEEXT)
$(CXXLINK) $(src_processor_postfix_evaluator_unittest_LDFLAGS) $(src_processor_postfix_evaluator_unittest_OBJECTS) $(src_processor_postfix_evaluator_unittest_LDADD) $(LIBS)
src/processor/range_map_unittest.$(OBJEXT): \
src/processor/$(am__dirstamp) \
src/processor/$(DEPDIR)/$(am__dirstamp)
@ -577,6 +596,7 @@ mostlyclean-compile:
-rm -f src/processor/minidump_processor.lo
-rm -f src/processor/minidump_processor_unittest.$(OBJEXT)
-rm -f src/processor/minidump_stackwalk.$(OBJEXT)
-rm -f src/processor/postfix_evaluator_unittest.$(OBJEXT)
-rm -f src/processor/range_map_unittest.$(OBJEXT)
-rm -f src/processor/source_line_resolver.$(OBJEXT)
-rm -f src/processor/source_line_resolver.lo
@ -595,6 +615,7 @@ distclean-compile:
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/minidump_processor.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/minidump_processor_unittest.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/minidump_stackwalk.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/postfix_evaluator_unittest.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/range_map_unittest.Po@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/source_line_resolver.Plo@am__quote@
@AMDEP_TRUE@@am__include@ @am__quote@src/processor/$(DEPDIR)/source_line_resolver_unittest.Po@am__quote@

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@ -0,0 +1,238 @@
// Copyright (C) 2006 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// postfix_evaluator-inl.h: Postfix (reverse Polish) notation expression
// evaluator.
//
// Documentation in postfix_evaluator.h.
//
// Author: Mark Mentovai
#ifndef PROCESSOR_POSTFIX_EVALUATOR_INL_H__
#define PROCESSOR_POSTFIX_EVALUATOR_INL_H__
#include <sstream>
#include "processor/postfix_evaluator.h"
#include "processor/memory_region.h"
namespace google_airbag {
using std::istringstream;
using std::ostringstream;
// A small class used in Evaluate to make sure to clean up the stack
// before returning failure.
class AutoStackClearer {
public:
AutoStackClearer(vector<string> *stack) : stack_(stack) {}
~AutoStackClearer() { stack_->clear(); }
private:
vector<string> *stack_;
};
template<typename ValueType>
bool PostfixEvaluator<ValueType>::Evaluate(const string &expression) {
// Ensure that the stack is cleared before returning.
AutoStackClearer clearer(&stack_);
// Tokenize, splitting on whitespace.
istringstream stream(expression);
string token;
while (stream >> token) {
// There are enough binary operations that do exactly the same thing
// (other than the specific operation, of course) that it makes sense
// to share as much code as possible.
enum BinaryOperation {
BINARY_OP_NONE = 0,
BINARY_OP_ADD,
BINARY_OP_SUBTRACT,
BINARY_OP_MULTIPLY,
BINARY_OP_DIVIDE_QUOTIENT,
BINARY_OP_DIVIDE_MODULUS
};
BinaryOperation operation = BINARY_OP_NONE;
if (token == "+")
operation = BINARY_OP_ADD;
else if (token == "-")
operation = BINARY_OP_SUBTRACT;
else if (token == "*")
operation = BINARY_OP_MULTIPLY;
else if (token == "/")
operation = BINARY_OP_DIVIDE_QUOTIENT;
else if (token == "%")
operation = BINARY_OP_DIVIDE_MODULUS;
if (operation != BINARY_OP_NONE) {
// Get the operands.
ValueType operand1, operand2;
if (!PopValues(&operand1, &operand2))
return false;
// Perform the operation.
ValueType result;
switch (operation) {
case BINARY_OP_ADD:
result = operand1 + operand2;
break;
case BINARY_OP_SUBTRACT:
result = operand1 - operand2;
break;
case BINARY_OP_MULTIPLY:
result = operand1 * operand2;
break;
case BINARY_OP_DIVIDE_QUOTIENT:
result = operand1 / operand2;
break;
case BINARY_OP_DIVIDE_MODULUS:
result = operand1 % operand2;
break;
case BINARY_OP_NONE:
// This will not happen, but compilers will want a default or
// BINARY_OP_NONE case.
return false;
break;
}
// Save the result.
PushValue(result);
} else if (token == "^") {
// ^ for unary dereference. Can't dereference without memory.
if (!memory_)
return false;
ValueType address;
if (!PopValue(&address))
return false;
ValueType value;
if (!memory_->GetMemoryAtAddress(address, &value))
return false;
PushValue(value);
} else if (token == "=") {
// = for assignment.
ValueType value;
if (!PopValue(&value))
return false;
// Assignment is only meaningful when assigning into an identifier.
// The identifier must name a variable, not a constant. Variables
// begin with '$'.
string identifier;
if (PopValueOrIdentifier(NULL, &identifier) != POP_RESULT_IDENTIFIER)
return false;
if (identifier.empty() || identifier[0] != '$')
return false;
(*dictionary_)[identifier] = value;
} else {
// The token is not an operator, it's a literal value or an identifier.
// Push it onto the stack as-is. Use push_back instead of PushValue
// because PushValue pushes ValueType as a string, but token is already
// a string.
stack_.push_back(token);
}
}
// If there's anything left on the stack, it indicates incomplete execution.
// This is a failure case. If the stack is empty, evalution was complete
// and successful.
return stack_.empty();
}
template<typename ValueType>
typename PostfixEvaluator<ValueType>::PopResult
PostfixEvaluator<ValueType>::PopValueOrIdentifier(
ValueType *value, string *identifier) {
// There needs to be at least one element on the stack to pop.
if (!stack_.size())
return POP_RESULT_FAIL;
string token = stack_.back();
stack_.pop_back();
// First, try to treat the value as a literal. In order for this to
// succed, the entire string must be parseable as ValueType. If this
// isn't possible, it can't be a literal, so treat it as an identifier
// instead.
istringstream token_stream(token);
ValueType literal;
if (token_stream >> literal && token_stream.peek() == EOF) {
if (value) {
*value = literal;
}
return POP_RESULT_VALUE;
} else {
if (identifier) {
*identifier = token;
}
return POP_RESULT_IDENTIFIER;
}
}
template<typename ValueType>
bool PostfixEvaluator<ValueType>::PopValue(ValueType *value) {
ValueType literal;
string token;
PopResult result;
if ((result = PopValueOrIdentifier(&literal, &token)) == POP_RESULT_FAIL) {
return false;
} else if (result == POP_RESULT_VALUE) {
// This is the easy case.
*value = literal;
} else { // result == POP_RESULT_IDENTIFIER
// There was an identifier at the top of the stack. Resolve it to a
// value by looking it up in the dictionary.
typename DictionaryType::const_iterator iterator =
dictionary_->find(token);
if (iterator == dictionary_->end()) {
// The identifier wasn't found in the dictionary. Don't imply any
// default value, just fail.
return false;
}
*value = iterator->second;
}
return true;
}
template<typename ValueType>
bool PostfixEvaluator<ValueType>::PopValues(ValueType *value1,
ValueType *value2) {
return PopValue(value2) && PopValue(value1);
}
template<typename ValueType>
void PostfixEvaluator<ValueType>::PushValue(const ValueType &value) {
ostringstream token_stream;
token_stream << value;
stack_.push_back(token_stream.str());
}
} // namespace google_airbag
#endif // PROCESSOR_POSTFIX_EVALUATOR_INL_H__

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@ -0,0 +1,141 @@
// Copyright (C) 2006 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// postfix_evaluator.h: Postfix (reverse Polish) notation expression evaluator.
//
// PostfixEvaluator evaluates an expression, using the expression itself
// in postfix (reverse Polish) notation and a dictionary mapping constants
// and variables to their values. The evaluator supports standard
// arithmetic operations, assignment into variables, and when an optional
// MemoryRange is provided, dereferencing. (Any unary key-to-value operation
// may be used with a MemoryRange implementation that returns the appropriate
// values, but PostfixEvaluator was written with dereferencing in mind.)
//
// The expression language is simple. Expressions are supplied as strings,
// with operands and operators delimited by whitespace. Operands may be
// either literal values suitable for ValueType, or constants or variables,
// which reference the dictionary. The supported binary operators are +
// (addition), - (subtraction), * (multiplication), / (quotient of division),
// and % (modulus of division). The unary ^ (dereference) operator is also
// provided. These operators allow any operand to be either a literal
// value, constant, or variable. Assignment (=) of any type of operand into
// a variable is also supported.
//
// The dictionary is provided as a map with string keys. Keys beginning
// with the '$' character are treated as variables. All other keys are
// treated as constants. Any results must be assigned into variables in the
// dictionary. These variables do not need to exist prior to calling
// Evaluate, unless used in an expression prior to being assigned to. The
// internal stack state is not made available after evaluation, and any
// values remaining on the stack are treated as evidence of incomplete
// execution and cause the evaluator to indicate failure.
//
// PostfixEvaluator is intended to support evaluation of "program strings"
// obtained from MSVC frame data debugging information in pdb files as
// returned by the DIA APIs.
//
// Author: Mark Mentovai
#ifndef PROCESSOR_POSTFIX_EVALUATOR_H__
#define PROCESSOR_POSTFIX_EVALUATOR_H__
#include <map>
#include <string>
#include <vector>
#include "processor/memory_region.h"
namespace google_airbag {
using std::map;
using std::string;
using std::vector;
class MemoryRegion;
template<typename ValueType>
class PostfixEvaluator {
public:
typedef map<string, ValueType> DictionaryType;
// Create a PostfixEvaluator object that may be used (with Evaluate) on
// one or more expressions. PostfixEvaluator does not take ownership of
// either argument. |memory| may be NULL, in which case dereferencing
// (^) will not be supported. |dictionary| may be NULL, but evaluation
// will fail in that case unless set_dictionary is used before calling
// Evaluate.
PostfixEvaluator(DictionaryType *dictionary, MemoryRegion *memory)
: dictionary_(dictionary), memory_(memory), stack_() {}
// Evaluate the expression. The results of execution will be stored
// in one (or more) variables in the dictionary. Returns false if any
// failures occure during execution, leaving variables in the dictionary
// in an indeterminate state.
bool Evaluate(const string &expression);
DictionaryType* dictionary() const { return dictionary_; }
// Reset the dictionary. PostfixEvaluator does not take ownership.
void set_dictionary(DictionaryType *dictionary) {dictionary_ = dictionary; }
private:
// Return values for PopValueOrIdentifier
enum PopResult {
POP_RESULT_FAIL = 0,
POP_RESULT_VALUE,
POP_RESULT_IDENTIFIER
};
// Retrieves the topmost literal value, constant, or variable from the
// stack. Returns POP_RESULT_VALUE if the topmost entry is a literal
// value, and sets |value| accordingly. Returns POP_RESULT_IDENTIFIER
// if the topmost entry is a constant or variable identifier, and sets
// |identifier| accordingly. Returns POP_RESULT_FAIL on failure, such
// as when the stack is empty.
PopResult PopValueOrIdentifier(ValueType *value, string *identifier);
// Retrieves the topmost value on the stack. If the topmost entry is
// an identifier, the dictionary is queried for the identifier's value.
// Returns false on failure, such as when the stack is empty or when
// a nonexistent identifier is named.
bool PopValue(ValueType *value);
// Retrieves the top two values on the stack, in the style of PopValue.
// value2 is popped before value1, so that value1 corresponds to the
// entry that was pushed prior to value2. Returns false on failure.
bool PopValues(ValueType *value1, ValueType *value2);
// Pushes a new value onto the stack.
void PushValue(const ValueType &value);
// The dictionary mapping constant and variable identifiers (strings) to
// values. Keys beginning with '$' are treated as variable names, and
// PostfixEvaluator is free to create and modify these keys. Weak pointer.
DictionaryType *dictionary_;
// If non-NULL, the MemoryRegion used for dereference (^) operations.
// If NULL, dereferencing is unsupported and will fail. Weak pointer.
MemoryRegion *memory_;
// The stack contains state information as execution progresses. Values
// are pushed on to it as the expression string is read and as operations
// yield values; values are popped when used as operands to operators.
vector<string> stack_;
};
} // namespace google_airbag
#endif // PROCESSOR_POSTFIX_EVALUATOR_H__

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@ -0,0 +1,248 @@
// Copyright (C) 2006 Google Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// postfix_evaluator_unittest.cc: Unit tests for PostfixEvaluator.
//
// Author: Mark Mentovai
#include <cstdio>
#include <map>
#include <string>
#include "google/airbag_types.h"
#include "processor/memory_region.h"
#include "processor/postfix_evaluator-inl.h"
using std::map;
using std::string;
using google_airbag::MemoryRegion;
using google_airbag::PostfixEvaluator;
// FakeMemoryRegion is used to test PostfixEvaluator's dereference (^)
// operator. The result of dereferencing a value is one greater than
// the value.
class FakeMemoryRegion : public MemoryRegion {
public:
virtual u_int64_t GetBase() { return 0; }
virtual u_int32_t GetSize() { return 0; }
virtual bool GetMemoryAtAddress(u_int64_t address, u_int8_t *value)
{ *value = address + 1; return true; }
virtual bool GetMemoryAtAddress(u_int64_t address, u_int16_t *value)
{ *value = address + 1; return true; }
virtual bool GetMemoryAtAddress(u_int64_t address, u_int32_t *value)
{ *value = address + 1; return true; }
virtual bool GetMemoryAtAddress(u_int64_t address, u_int64_t *value)
{ *value = address + 1; return true; }
};
struct EvaluateTest {
// Expression passed to PostfixEvaluator::Evaluate.
const string expression;
// True if the expression is expected to be evaluable, false if evaluation
// is expected to fail.
bool evaluable;
};
struct EvaluateTestSet {
// The dictionary used for all tests in the set.
map<string, unsigned int> *dictionary;
// The list of tests.
const EvaluateTest *evaluate_tests;
// The number of tests.
unsigned int evaluate_test_count;
// Identifiers and their expected values upon completion of the Evaluate
// tests in the set.
map<string, unsigned int> *validate_data;
};
bool RunTests() {
// The first test set checks the basic operations and failure modes.
map<string, unsigned int> dictionary_0;
const EvaluateTest evaluate_tests_0[] = {
{ "$rAdd 2 2 + =", true }, // $rAdd = 2 + 2 = 4
{ "$rAdd $rAdd 2 + =", true }, // $rAdd = $rAdd + 2 = 6
{ "$rAdd 2 $rAdd + =", true }, // $rAdd = 2 + $rAdd = 8
{ "99", false }, // put some junk on the stack...
{ "$rAdd2 2 2 + =", true }, // ...and make sure things still work
{ "$rAdd2\t2\n2 + =", true }, // same but with different whitespace
{ "$rAdd2 2 2 + = ", true }, // trailing whitespace
{ " $rAdd2 2 2 + =", true }, // leading whitespace
{ "$rAdd2 2 2 + =", true }, // extra whitespace
{ "$T0 2 = +", false }, // too few operands for add
{ "2 + =", false }, // too few operands for add
{ "2 +", false }, // too few operands for add
{ "+", false }, // too few operands for add
{ "^", false }, // too few operands for dereference
{ "=", false }, // too few operands for assignment
{ "2 =", false }, // too few operands for assignment
{ "2 2 + =", false }, // too few operands for assignment
{ "2 2 =", false }, // can't assign into a literal
{ "k 2 =", false }, // can't assign into a constant
{ "2", false }, // leftover data on stack
{ "2 2 +", false }, // leftover data on stack
{ "$rAdd", false }, // leftover data on stack
{ "0 $T1 0 0 + =", false }, // leftover data on stack
{ "$T2 $T2 2 + =", false }, // can't operate on an undefined value
{ "$rMul 9 6 * =", true }, // $rMul = 9 * 6 = 54
{ "$rSub 9 6 - =", true }, // $rSub = 9 - 6 = 3
{ "$rDivQ 9 6 / =", true }, // $rDivQ = 9 / 6 = 1
{ "$rDivM 9 6 % =", true }, // $rDivM = 9 % 6 = 3
{ "$rDeref 9 ^ =", true } // $rDeref = ^9 = 10 (FakeMemoryRegion)
};
map<string, unsigned int> validate_data_0;
validate_data_0["$rAdd"] = 8;
validate_data_0["$rAdd2"] = 4;
validate_data_0["$rSub"] = 3;
validate_data_0["$rMul"] = 54;
validate_data_0["$rDivQ"] = 1;
validate_data_0["$rDivM"] = 3;
validate_data_0["$rDeref"] = 10;
// The second test set simulates a couple of MSVC program strings.
// The data is fudged a little bit because the tests use FakeMemoryRegion
// instead of a real stack snapshot, but the program strings are real and
// the implementation doesn't know or care that the data is not real.
map<string, unsigned int> dictionary_1;
dictionary_1["$ebp"] = 0xbfff0010;
dictionary_1["$eip"] = 0x10000000;
dictionary_1["$esp"] = 0xbfff0000;
dictionary_1[".cbSavedRegs"] = 4;
dictionary_1[".cbParams"] = 4;
dictionary_1[".raSearchStart"] = 0xbfff0020;
const EvaluateTest evaluate_tests_1[] = {
{ "$T0 $ebp = $eip $T0 4 + ^ = $ebp $T0 ^ = $esp $T0 8 + = "
"$L $T0 .cbSavedRegs - = $P $T0 8 + .cbParams + =", true },
// Intermediate state: $T0 = 0xbfff0010, $eip = 0xbfff0015,
// $ebp = 0xbfff0011, $esp = 0xbfff0018,
// $L = 0xbfff000c, $P = 0xbfff001c
{ "$T0 $ebp = $eip $T0 4 + ^ = $ebp $T0 ^ = $esp $T0 8 + = "
"$L $T0 .cbSavedRegs - = $P $T0 8 + .cbParams + = $ebx $T0 28 - ^ =",
true },
// Intermediate state: $T0 = 0xbfff0011, $eip = 0xbfff0016,
// $ebp = 0xbfff0012, $esp = 0xbfff0019,
// $L = 0xbfff000d, $P = 0xbfff001d,
// $ebx = 0xbffefff6
{ "$T0 $ebp = $T2 $esp = $T1 .raSearchStart = $eip $T1 ^ = $ebp $T0 = "
"$esp $T1 4 + = $L $T0 .cbSavedRegs - = $P $T1 4 + .cbParams + = "
"$ebx $T0 28 - ^ =",
true }
};
map<string, unsigned int> validate_data_1;
validate_data_1["$T0"] = 0xbfff0012;
validate_data_1["$T1"] = 0xbfff0020;
validate_data_1["$T2"] = 0xbfff0019;
validate_data_1["$eip"] = 0xbfff0021;
validate_data_1["$ebp"] = 0xbfff0012;
validate_data_1["$esp"] = 0xbfff0024;
validate_data_1["$L"] = 0xbfff000e;
validate_data_1["$P"] = 0xbfff0028;
validate_data_1["$ebx"] = 0xbffefff7;
validate_data_1[".cbSavedRegs"] = 4;
validate_data_1[".cbParams"] = 4;
EvaluateTestSet evaluate_test_sets[] = {
{ &dictionary_0, evaluate_tests_0,
sizeof(evaluate_tests_0) / sizeof(EvaluateTest), &validate_data_0 },
{ &dictionary_1, evaluate_tests_1,
sizeof(evaluate_tests_1) / sizeof(EvaluateTest), &validate_data_1 },
};
unsigned int evaluate_test_set_count = sizeof(evaluate_test_sets) /
sizeof(EvaluateTestSet);
FakeMemoryRegion fake_memory;
PostfixEvaluator<unsigned int> postfix_evaluator =
PostfixEvaluator<unsigned int>(NULL, &fake_memory);
for (unsigned int evaluate_test_set_index = 0;
evaluate_test_set_index < evaluate_test_set_count;
++evaluate_test_set_index) {
EvaluateTestSet *evaluate_test_set =
&evaluate_test_sets[evaluate_test_set_index];
const EvaluateTest *evaluate_tests = evaluate_test_set->evaluate_tests;
unsigned int evaluate_test_count = evaluate_test_set->evaluate_test_count;
// The same dictionary will be used for each test in the set. Earlier
// tests can affect the state of the dictionary for later tests.
postfix_evaluator.set_dictionary(evaluate_test_set->dictionary);
for (unsigned int evaluate_test_index = 0;
evaluate_test_index < evaluate_test_count;
++evaluate_test_index) {
const EvaluateTest *evaluate_test = &evaluate_tests[evaluate_test_index];
// Do the test.
bool result = postfix_evaluator.Evaluate(evaluate_test->expression);
if (result != evaluate_test->evaluable) {
fprintf(stderr, "FAIL: evaluate set %d/%d, test %d/%d, "
"expression \"%s\", expected %s, observed %s\n",
evaluate_test_set_index, evaluate_test_set_count,
evaluate_test_index, evaluate_test_count,
evaluate_test->expression.c_str(),
evaluate_test->evaluable ? "evaluable" : "not evaluable",
result ? "evaluted" : "not evaluated");
return false;
}
}
// Validate the results.
for(map<string, unsigned int>::const_iterator validate_iterator =
evaluate_test_set->validate_data->begin();
validate_iterator != evaluate_test_set->validate_data->end();
++validate_iterator) {
const string identifier = validate_iterator->first;
unsigned int expected_value = validate_iterator->second;
map<string, unsigned int>::const_iterator dictionary_iterator =
evaluate_test_set->dictionary->find(identifier);
// The identifier must exist in the dictionary.
if (dictionary_iterator == evaluate_test_set->dictionary->end()) {
fprintf(stderr, "FAIL: evaluate test set %d/%d, "
"validate identifier \"%s\", "
"expected %d, observed not found\n",
evaluate_test_set_index, evaluate_test_set_count,
identifier.c_str(), expected_value);
return false;
}
// The value in the dictionary must be the same as the expected value.
unsigned int observed_value = dictionary_iterator->second;
if (expected_value != observed_value) {
fprintf(stderr, "FAIL: evaluate test set %d/%d, "
"validate identifier \"%s\", "
"expected %d, observed %d\n",
evaluate_test_set_index, evaluate_test_set_count,
identifier.c_str(), expected_value, observed_value);
return false;
}
}
}
return true;
}
int main(int argc, char **argv) {
return RunTests() ? 0 : 1;
}