// Copyright (c) 2010 Google Inc.
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// Original author: Jim Blandy <jimb@mozilla.com> <jimb@red-bean.com>
// dump_stabs_unittest.cc: Unit tests for StabsToModule.
#include <vector>
#include "breakpad_googletest_includes.h"
#include "common/stabs_to_module.h"
using google_breakpad::Module;
using google_breakpad::StabsToModule;
using std::vector;
TEST(StabsToModule, SimpleCU) {
Module m("name", "os", "arch", "id");
StabsToModule h(&m);
// Feed in a simple compilation unit that defines a function with
// one line.
EXPECT_TRUE(h.StartCompilationUnit("compilation-unit", 0x9f4d1271e50db93bLL,
"build-directory"));
EXPECT_TRUE(h.StartFunction("function", 0xfde4abbed390c394LL));
EXPECT_TRUE(h.Line(0xfde4abbed390c394LL, "source-file-name", 174823314));
EXPECT_TRUE(h.EndFunction(0xfde4abbed390c3a4LL));
EXPECT_TRUE(h.EndCompilationUnit(0xfee4abbed390c3a4LL));
h.Finalize();
// Now check to see what has been added to the Module.
Module::File *file = m.FindExistingFile("source-file-name");
ASSERT_TRUE(file != NULL);
vector<Module::Function *> functions;
m.GetFunctions(&functions, functions.end());
ASSERT_EQ((size_t) 1, functions.size());
Module::Function *function = functions[0];
EXPECT_STREQ("function", function->name.c_str());
EXPECT_EQ(0xfde4abbed390c394LL, function->address);
EXPECT_EQ(0x10U, function->size);
EXPECT_EQ(0U, function->parameter_size);
ASSERT_EQ((size_t) 1, function->lines.size());
Module::Line *line = &function->lines[0];
EXPECT_EQ(0xfde4abbed390c394LL, line->address);
EXPECT_EQ(0x10U, line->size); // derived from EndFunction
EXPECT_TRUE(line->file == file);
EXPECT_EQ(174823314, line->number);
}
#ifdef __GNUC__
// Function name mangling can vary by compiler, so only run mangled-name
// tests on GCC for simplicity's sake.
TEST(StabsToModule, Externs) {
Module m("name", "os", "arch", "id");
StabsToModule h(&m);
// Feed in a few Extern symbols.
EXPECT_TRUE(h.Extern("_foo", 0xffff));
EXPECT_TRUE(h.Extern("__Z21dyldGlobalLockAcquirev", 0xaaaa));
EXPECT_TRUE(h.Extern("_MorphTableGetNextMorphChain", 0x1111));
h.Finalize();
// Now check to see what has been added to the Module.
vector<Module::Extern *> externs;
m.GetExterns(&externs, externs.end());
ASSERT_EQ((size_t) 3, externs.size());
Module::Extern *extern1 = externs[0];
EXPECT_STREQ("MorphTableGetNextMorphChain", extern1->name.c_str());
EXPECT_EQ((Module::Address)0x1111, extern1->address);
Module::Extern *extern2 = externs[1];
EXPECT_STREQ("dyldGlobalLockAcquire()", extern2->name.c_str());
EXPECT_EQ((Module::Address)0xaaaa, extern2->address);
Module::Extern *extern3 = externs[2];
EXPECT_STREQ("foo", extern3->name.c_str());
EXPECT_EQ((Module::Address)0xffff, extern3->address);
}
#endif // __GNUC__
TEST(StabsToModule, DuplicateFunctionNames) {
Module m("name", "os", "arch", "id");
StabsToModule h(&m);
// Compilation unit with one function, mangled name.
EXPECT_TRUE(h.StartCompilationUnit("compilation-unit", 0xf2cfda36ecf7f46cLL,
"build-directory"));
EXPECT_TRUE(h.StartFunction("funcfoo",
0xf2cfda36ecf7f46dLL));
EXPECT_TRUE(h.EndFunction(0));
EXPECT_TRUE(h.StartFunction("funcfoo",
0xf2cfda36ecf7f46dLL));
EXPECT_TRUE(h.EndFunction(0));
EXPECT_TRUE(h.EndCompilationUnit(0));
h.Finalize();
// Now check to see what has been added to the Module.
Module::File *file = m.FindExistingFile("compilation-unit");
ASSERT_TRUE(file != NULL);
vector<Module::Function *> functions;
m.GetFunctions(&functions, functions.end());
ASSERT_EQ(1U, functions.size());
Module::Function *function = functions[0];
EXPECT_EQ(0xf2cfda36ecf7f46dLL, function->address);
EXPECT_LT(0U, function->size); // should have used dummy size
EXPECT_EQ(0U, function->parameter_size);
ASSERT_EQ(0U, function->lines.size());
}
TEST(InferSizes, LineSize) {
Module m("name", "os", "arch", "id");
StabsToModule h(&m);
// Feed in a simple compilation unit that defines a function with
// one line.
EXPECT_TRUE(h.StartCompilationUnit("compilation-unit", 0xb4513962eff94e92LL,
"build-directory"));
EXPECT_TRUE(h.StartFunction("function", 0xb4513962eff94e92LL));
EXPECT_TRUE(h.Line(0xb4513962eff94e92LL, "source-file-name-1", 77396614));
EXPECT_TRUE(h.Line(0xb4513963eff94e92LL, "source-file-name-2", 87660088));
EXPECT_TRUE(h.EndFunction(0)); // unknown function end address
EXPECT_TRUE(h.EndCompilationUnit(0)); // unknown CU end address
EXPECT_TRUE(h.StartCompilationUnit("compilation-unit-2", 0xb4523963eff94e92LL,
"build-directory-2")); // next boundary
EXPECT_TRUE(h.EndCompilationUnit(0));
h.Finalize();
// Now check to see what has been added to the Module.
Module::File *file1 = m.FindExistingFile("source-file-name-1");
ASSERT_TRUE(file1 != NULL);
Module::File *file2 = m.FindExistingFile("source-file-name-2");
ASSERT_TRUE(file2 != NULL);
vector<Module::Function *> functions;
m.GetFunctions(&functions, functions.end());
ASSERT_EQ((size_t) 1, functions.size());
Module::Function *function = functions[0];
EXPECT_STREQ("function", function->name.c_str());
EXPECT_EQ(0xb4513962eff94e92LL, function->address);
EXPECT_EQ(0x1000100000000ULL, function->size); // inferred from CU end
EXPECT_EQ(0U, function->parameter_size);
ASSERT_EQ((size_t) 2, function->lines.size());
Module::Line *line1 = &function->lines[0];
EXPECT_EQ(0xb4513962eff94e92LL, line1->address);
EXPECT_EQ(0x100000000ULL, line1->size); // derived from EndFunction
EXPECT_TRUE(line1->file == file1);
EXPECT_EQ(77396614, line1->number);
Module::Line *line2 = &function->lines[1];
EXPECT_EQ(0xb4513963eff94e92LL, line2->address);
EXPECT_EQ(0x1000000000000ULL, line2->size); // derived from EndFunction
EXPECT_TRUE(line2->file == file2);
EXPECT_EQ(87660088, line2->number);
}
#ifdef __GNUC__
// Function name mangling can vary by compiler, so only run mangled-name
// tests on GCC for simplicity's sake.
TEST(FunctionNames, Mangled) {
Module m("name", "os", "arch", "id");
StabsToModule h(&m);
// Compilation unit with one function, mangled name.
EXPECT_TRUE(h.StartCompilationUnit("compilation-unit", 0xf2cfda63cef7f46cLL,
"build-directory"));
EXPECT_TRUE(h.StartFunction("_ZNSt6vectorIySaIyEE9push_backERKy",
0xf2cfda63cef7f46dLL));
EXPECT_TRUE(h.EndFunction(0));
EXPECT_TRUE(h.EndCompilationUnit(0));
h.Finalize();
// Now check to see what has been added to the Module.
Module::File *file = m.FindExistingFile("compilation-unit");
ASSERT_TRUE(file != NULL);
vector<Module::Function *> functions;
m.GetFunctions(&functions, functions.end());
ASSERT_EQ(1U, functions.size());
Module::Function *function = functions[0];
// This is GCC-specific, but we shouldn't be seeing STABS data anywhere
// but Linux.
EXPECT_STREQ("std::vector<unsigned long long, "
"std::allocator<unsigned long long> >::"
"push_back(unsigned long long const&)",
function->name.c_str());
EXPECT_EQ(0xf2cfda63cef7f46dLL, function->address);
EXPECT_LT(0U, function->size); // should have used dummy size
EXPECT_EQ(0U, function->parameter_size);
ASSERT_EQ(0U, function->lines.size());
}
#endif // __GNUC__
// The GNU toolchain can omit functions that are not used; however,
// when it does so, it doesn't clean up the debugging information that
// refers to them. In STABS, this results in compilation units whose
// SO addresses are zero.
TEST(Omitted, Function) {
Module m("name", "os", "arch", "id");
StabsToModule h(&m);
// The StartCompilationUnit and EndCompilationUnit calls may both have an
// address of zero if the compilation unit has had sections removed.
EXPECT_TRUE(h.StartCompilationUnit("compilation-unit", 0, "build-directory"));
EXPECT_TRUE(h.StartFunction("function", 0x2a133596));
EXPECT_TRUE(h.EndFunction(0));
EXPECT_TRUE(h.EndCompilationUnit(0));
}
// TODO --- if we actually cared about STABS. Even without these we've
// got full coverage of non-failure source lines in dump_stabs.cc.
// Line size from next line
// Line size from function end
// Line size from next function start
// line size from cu end
// line size from next cu start
// fallback size is something plausible
// function size from function end
// function size from next function start
// function size from cu end
// function size from next cu start
// fallback size is something plausible
// omitting functions outside the compilation unit's address range
// zero-line, one-line, many-line functions