// Copyright 2010 Google LLC
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google LLC nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Original author: Jim Blandy <jimb@mozilla.com> <jimb@red-bean.com>
// module_unittest.cc: Unit tests for google_breakpad::Module.
#ifdef HAVE_CONFIG_H
#include <config.h> // Must come first
#endif
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <algorithm>
#include <memory>
#include <sstream>
#include <string>
#include <utility>
#include "breakpad_googletest_includes.h"
#include "common/module.h"
#include "common/using_std_string.h"
using google_breakpad::Module;
using google_breakpad::StringView;
using std::stringstream;
using std::vector;
using testing::ContainerEq;
static Module::Function* generate_duplicate_function(StringView name) {
const Module::Address DUP_ADDRESS = 0xd35402aac7a7ad5cULL;
const Module::Address DUP_SIZE = 0x200b26e605f99071ULL;
const Module::Address DUP_PARAMETER_SIZE = 0xf14ac4fed48c4a99ULL;
Module::Function* function = new Module::Function(name, DUP_ADDRESS);
Module::Range range(DUP_ADDRESS, DUP_SIZE);
function->ranges.push_back(range);
function->parameter_size = DUP_PARAMETER_SIZE;
return function;
}
#define MODULE_NAME "name with spaces"
#define MODULE_OS "os-name"
#define MODULE_ARCH "architecture"
#define MODULE_ID "id-string"
#define MODULE_CODE_ID "code-id-string"
TEST(Module, WriteHeader) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n",
contents.c_str());
}
TEST(Module, WriteHeaderCodeId) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID, MODULE_CODE_ID);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"INFO CODE_ID code-id-string\n",
contents.c_str());
}
TEST(Module, WriteOneLineFunc) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
Module::File* file = m.FindFile("file_name.cc");
Module::Function* function = new Module::Function(
"function_name", 0xe165bf8023b9d9abULL);
Module::Range range(0xe165bf8023b9d9abULL, 0x1e4bb0eb1cbf5b09ULL);
function->ranges.push_back(range);
function->parameter_size = 0x772beee89114358aULL;
Module::Line line = { 0xe165bf8023b9d9abULL, 0x1e4bb0eb1cbf5b09ULL,
file, 67519080 };
function->lines.push_back(line);
m.AddFunction(function);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FILE 0 file_name.cc\n"
"FUNC e165bf8023b9d9ab 1e4bb0eb1cbf5b09 772beee89114358a"
" function_name\n"
"e165bf8023b9d9ab 1e4bb0eb1cbf5b09 67519080 0\n",
contents.c_str());
}
TEST(Module, WriteRelativeLoadAddress) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Some source files. We will expect to see them in lexicographic order.
Module::File* file1 = m.FindFile("filename-b.cc");
Module::File* file2 = m.FindFile("filename-a.cc");
// A function.
Module::Function* function = new Module::Function(
"A_FLIBBERTIJIBBET::a_will_o_the_wisp(a clown)", 0xbec774ea5dd935f3ULL);
Module::Range range(0xbec774ea5dd935f3ULL, 0x2922088f98d3f6fcULL);
function->ranges.push_back(range);
function->parameter_size = 0xe5e9aa008bd5f0d0ULL;
// Some source lines. The module should not sort these.
Module::Line line1 = { 0xbec774ea5dd935f3ULL, 0x1c2be6d6c5af2611ULL,
file1, 41676901 };
Module::Line line2 = { 0xdaf35bc123885c04ULL, 0xcf621b8d324d0ebULL,
file2, 67519080 };
function->lines.push_back(line2);
function->lines.push_back(line1);
m.AddFunction(function);
// Some stack information.
auto entry = std::make_unique<Module::StackFrameEntry>();
entry->address = 0x30f9e5c83323973dULL;
entry->size = 0x49fc9ca7c7c13dc2ULL;
entry->initial_rules[".cfa"] = "he was a handsome man";
entry->initial_rules["and"] = "what i want to know is";
entry->rule_changes[0x30f9e5c83323973eULL]["how"] =
"do you like your blueeyed boy";
entry->rule_changes[0x30f9e5c83323973eULL]["Mister"] = "Death";
m.AddStackFrameEntry(std::move(entry));
// Set the load address. Doing this after adding all the data to
// the module must work fine.
m.SetLoadAddress(0x2ab698b0b6407073ULL);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FILE 0 filename-a.cc\n"
"FILE 1 filename-b.cc\n"
"FUNC 9410dc39a798c580 2922088f98d3f6fc e5e9aa008bd5f0d0"
" A_FLIBBERTIJIBBET::a_will_o_the_wisp(a clown)\n"
"b03cc3106d47eb91 cf621b8d324d0eb 67519080 0\n"
"9410dc39a798c580 1c2be6d6c5af2611 41676901 1\n"
"STACK CFI INIT 6434d177ce326ca 49fc9ca7c7c13dc2"
" .cfa: he was a handsome man"
" and: what i want to know is\n"
"STACK CFI 6434d177ce326cb"
" Mister: Death"
" how: do you like your blueeyed boy\n",
contents.c_str());
}
TEST(Module, WriteOmitUnusedFiles) {
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Create some source files.
Module::File* file1 = m.FindFile("filename1");
m.FindFile("filename2"); // not used by any line
Module::File* file3 = m.FindFile("filename3");
// Create a function.
Module::Function* function = new Module::Function(
"function_name", 0x9b926d464f0b9384ULL);
Module::Range range(0x9b926d464f0b9384ULL, 0x4f524a4ba795e6a6ULL);
function->ranges.push_back(range);
function->parameter_size = 0xbbe8133a6641c9b7ULL;
// Source files that refer to some files, but not others.
Module::Line line1 = { 0xab415089485e1a20ULL, 0x126e3124979291f2ULL,
file1, 137850127 };
Module::Line line2 = { 0xb2675b5c3c2ed33fULL, 0x1df77f5551dbd68cULL,
file3, 28113549 };
function->lines.push_back(line1);
function->lines.push_back(line2);
m.AddFunction(function);
m.AssignSourceIds();
vector<Module::File*> vec;
m.GetFiles(&vec);
EXPECT_EQ((size_t) 3, vec.size());
EXPECT_STREQ("filename1", vec[0]->name.c_str());
EXPECT_NE(-1, vec[0]->source_id);
// Expect filename2 not to be used.
EXPECT_STREQ("filename2", vec[1]->name.c_str());
EXPECT_EQ(-1, vec[1]->source_id);
EXPECT_STREQ("filename3", vec[2]->name.c_str());
EXPECT_NE(-1, vec[2]->source_id);
stringstream s;
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FILE 0 filename1\n"
"FILE 1 filename3\n"
"FUNC 9b926d464f0b9384 4f524a4ba795e6a6 bbe8133a6641c9b7"
" function_name\n"
"ab415089485e1a20 126e3124979291f2 137850127 0\n"
"b2675b5c3c2ed33f 1df77f5551dbd68c 28113549 1\n",
contents.c_str());
}
TEST(Module, WriteNoCFI) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Some source files. We will expect to see them in lexicographic order.
Module::File* file1 = m.FindFile("filename.cc");
// A function.
Module::Function* function = new Module::Function(
"A_FLIBBERTIJIBBET::a_will_o_the_wisp(a clown)", 0xbec774ea5dd935f3ULL);
Module::Range range(0xbec774ea5dd935f3ULL, 0x2922088f98d3f6fcULL);
function->ranges.push_back(range);
function->parameter_size = 0xe5e9aa008bd5f0d0ULL;
// Some source lines. The module should not sort these.
Module::Line line1 = { 0xbec774ea5dd935f3ULL, 0x1c2be6d6c5af2611ULL,
file1, 41676901 };
function->lines.push_back(line1);
m.AddFunction(function);
// Some stack information.
auto entry = std::make_unique<Module::StackFrameEntry>();
entry->address = 0x30f9e5c83323973dULL;
entry->size = 0x49fc9ca7c7c13dc2ULL;
entry->initial_rules[".cfa"] = "he was a handsome man";
entry->initial_rules["and"] = "what i want to know is";
entry->rule_changes[0x30f9e5c83323973eULL]["how"] =
"do you like your blueeyed boy";
entry->rule_changes[0x30f9e5c83323973eULL]["Mister"] = "Death";
m.AddStackFrameEntry(std::move(entry));
// Set the load address. Doing this after adding all the data to
// the module must work fine.
m.SetLoadAddress(0x2ab698b0b6407073ULL);
m.Write(s, SYMBOLS_AND_FILES | INLINES);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FILE 0 filename.cc\n"
"FUNC 9410dc39a798c580 2922088f98d3f6fc e5e9aa008bd5f0d0"
" A_FLIBBERTIJIBBET::a_will_o_the_wisp(a clown)\n"
"9410dc39a798c580 1c2be6d6c5af2611 41676901 0\n",
contents.c_str());
}
TEST(Module, ConstructAddFunction) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Two functions.
Module::Function* function1 = new Module::Function(
"_without_form", 0xd35024aa7ca7da5cULL);
Module::Range r1(0xd35024aa7ca7da5cULL, 0x200b26e605f99071ULL);
function1->ranges.push_back(r1);
function1->parameter_size = 0xf14ac4fed48c4a99ULL;
Module::Function* function2 = new Module::Function(
"_and_void", 0x2987743d0b35b13fULL);
Module::Range r2(0x2987743d0b35b13fULL, 0xb369db048deb3010ULL);
function2->ranges.push_back(r2);
function2->parameter_size = 0x938e556cb5a79988ULL;
// Put them in a vector.
vector<Module::Function*> vec;
vec.push_back(function1);
vec.push_back(function2);
for (Module::Function* func: vec)
m.AddFunction(func);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FUNC 2987743d0b35b13f b369db048deb3010 938e556cb5a79988"
" _and_void\n"
"FUNC d35024aa7ca7da5c 200b26e605f99071 f14ac4fed48c4a99"
" _without_form\n",
contents.c_str());
// Check that m.GetFunctions returns the functions we expect.
vec.clear();
m.GetFunctions(&vec, vec.end());
EXPECT_TRUE(vec.end() != find(vec.begin(), vec.end(), function1));
EXPECT_TRUE(vec.end() != find(vec.begin(), vec.end(), function2));
EXPECT_EQ((size_t) 2, vec.size());
}
TEST(Module, WriteOutOfRangeAddresses) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Specify an allowed address range, representing a PT_LOAD segment in a
// module.
vector<Module::Range> address_ranges = {
Module::Range(0x2000ULL, 0x1000ULL),
};
m.SetAddressRanges(address_ranges);
// Add three stack frames (one lower, one in, and one higher than the allowed
// address range). Only the middle frame should be captured.
auto entry1 = std::make_unique<Module::StackFrameEntry>();
entry1->address = 0x1000ULL;
entry1->size = 0x100ULL;
m.AddStackFrameEntry(std::move(entry1));
auto entry2 = std::make_unique<Module::StackFrameEntry>();
entry2->address = 0x2000ULL;
entry2->size = 0x100ULL;
m.AddStackFrameEntry(std::move(entry2));
auto entry3 = std::make_unique<Module::StackFrameEntry>();
entry3->address = 0x3000ULL;
entry3->size = 0x100ULL;
m.AddStackFrameEntry(std::move(entry3));
// Add a function outside the allowed range.
Module::File* file = m.FindFile("file_name.cc");
Module::Function* function = new Module::Function(
"function_name", 0x4000ULL);
Module::Range range(0x4000ULL, 0x1000ULL);
function->ranges.push_back(range);
function->parameter_size = 0x100ULL;
Module::Line line = { 0x4000ULL, 0x100ULL, file, 67519080 };
function->lines.push_back(line);
m.AddFunction(function);
// Add an extern outside the allowed range.
auto extern1 = std::make_unique<Module::Extern>(0x5000ULL);
extern1->name = "_xyz";
m.AddExtern(std::move(extern1));
m.Write(s, ALL_SYMBOL_DATA);
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"STACK CFI INIT 2000 100 \n",
s.str().c_str());
// Cleanup - Prevent Memory Leak errors.
delete (function);
}
TEST(Module, ConstructAddFrames) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// First STACK CFI entry, with no initial rules or deltas.
auto entry1 = std::make_unique<Module::StackFrameEntry>();
entry1->address = 0xddb5f41285aa7757ULL;
entry1->size = 0x1486493370dc5073ULL;
m.AddStackFrameEntry(std::move(entry1));
// Second STACK CFI entry, with initial rules but no deltas.
auto entry2 = std::make_unique<Module::StackFrameEntry>();
entry2->address = 0x8064f3af5e067e38ULL;
entry2->size = 0x0de2a5ee55509407ULL;
entry2->initial_rules[".cfa"] = "I think that I shall never see";
entry2->initial_rules["stromboli"] = "a poem lovely as a tree";
entry2->initial_rules["cannoli"] = "a tree whose hungry mouth is prest";
m.AddStackFrameEntry(std::move(entry2));
// Third STACK CFI entry, with initial rules and deltas.
auto entry3 = std::make_unique<Module::StackFrameEntry>();
entry3->address = 0x5e8d0db0a7075c6cULL;
entry3->size = 0x1c7edb12a7aea229ULL;
entry3->initial_rules[".cfa"] = "Whose woods are these";
entry3->rule_changes[0x47ceb0f63c269d7fULL]["calzone"] =
"the village though";
entry3->rule_changes[0x47ceb0f63c269d7fULL]["cannoli"] =
"he will not see me stopping here";
entry3->rule_changes[0x36682fad3763ffffULL]["stromboli"] =
"his house is in";
entry3->rule_changes[0x36682fad3763ffffULL][".cfa"] =
"I think I know";
m.AddStackFrameEntry(std::move(entry3));
// Check that Write writes STACK CFI records properly.
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"STACK CFI INIT ddb5f41285aa7757 1486493370dc5073 \n"
"STACK CFI INIT 8064f3af5e067e38 de2a5ee55509407"
" .cfa: I think that I shall never see"
" cannoli: a tree whose hungry mouth is prest"
" stromboli: a poem lovely as a tree\n"
"STACK CFI INIT 5e8d0db0a7075c6c 1c7edb12a7aea229"
" .cfa: Whose woods are these\n"
"STACK CFI 36682fad3763ffff"
" .cfa: I think I know"
" stromboli: his house is in\n"
"STACK CFI 47ceb0f63c269d7f"
" calzone: the village though"
" cannoli: he will not see me stopping here\n",
contents.c_str());
// Check that GetStackFrameEntries works.
vector<Module::StackFrameEntry*> entries;
m.GetStackFrameEntries(&entries);
ASSERT_EQ(3U, entries.size());
// Check first entry.
EXPECT_EQ(0xddb5f41285aa7757ULL, entries[0]->address);
EXPECT_EQ(0x1486493370dc5073ULL, entries[0]->size);
ASSERT_EQ(0U, entries[0]->initial_rules.size());
ASSERT_EQ(0U, entries[0]->rule_changes.size());
// Check second entry.
EXPECT_EQ(0x8064f3af5e067e38ULL, entries[1]->address);
EXPECT_EQ(0x0de2a5ee55509407ULL, entries[1]->size);
ASSERT_EQ(3U, entries[1]->initial_rules.size());
Module::RuleMap entry2_initial;
entry2_initial[".cfa"] = "I think that I shall never see";
entry2_initial["stromboli"] = "a poem lovely as a tree";
entry2_initial["cannoli"] = "a tree whose hungry mouth is prest";
EXPECT_THAT(entries[1]->initial_rules, ContainerEq(entry2_initial));
ASSERT_EQ(0U, entries[1]->rule_changes.size());
// Check third entry.
EXPECT_EQ(0x5e8d0db0a7075c6cULL, entries[2]->address);
EXPECT_EQ(0x1c7edb12a7aea229ULL, entries[2]->size);
Module::RuleMap entry3_initial;
entry3_initial[".cfa"] = "Whose woods are these";
EXPECT_THAT(entries[2]->initial_rules, ContainerEq(entry3_initial));
Module::RuleChangeMap entry3_changes;
entry3_changes[0x36682fad3763ffffULL][".cfa"] = "I think I know";
entry3_changes[0x36682fad3763ffffULL]["stromboli"] = "his house is in";
entry3_changes[0x47ceb0f63c269d7fULL]["calzone"] = "the village though";
entry3_changes[0x47ceb0f63c269d7fULL]["cannoli"] =
"he will not see me stopping here";
EXPECT_THAT(entries[2]->rule_changes, ContainerEq(entry3_changes));
}
TEST(Module, ConstructUniqueFiles) {
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
Module::File* file1 = m.FindFile("foo");
Module::File* file2 = m.FindFile(string("bar"));
Module::File* file3 = m.FindFile(string("foo"));
Module::File* file4 = m.FindFile("bar");
EXPECT_NE(file1, file2);
EXPECT_EQ(file1, file3);
EXPECT_EQ(file2, file4);
EXPECT_EQ(file1, m.FindExistingFile("foo"));
EXPECT_TRUE(m.FindExistingFile("baz") == NULL);
}
TEST(Module, ConstructDuplicateFunctions) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Two functions.
Module::Function* function1 = generate_duplicate_function("_without_form");
Module::Function* function2 = generate_duplicate_function("_without_form");
m.AddFunction(function1);
// If this succeeds, we'll have a double-free with the `delete` below. Avoid
// that.
ASSERT_FALSE(m.AddFunction(function2));
delete function2;
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FUNC d35402aac7a7ad5c 200b26e605f99071 f14ac4fed48c4a99"
" _without_form\n",
contents.c_str());
}
TEST(Module, ConstructFunctionsWithSameAddress) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Two functions.
Module::Function* function1 = generate_duplicate_function("_without_form");
Module::Function* function2 = generate_duplicate_function("_and_void");
m.AddFunction(function1);
m.AddFunction(function2);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE os-name architecture id-string name with spaces\n"
"FUNC d35402aac7a7ad5c 200b26e605f99071 f14ac4fed48c4a99"
" _and_void\n"
"FUNC d35402aac7a7ad5c 200b26e605f99071 f14ac4fed48c4a99"
" _without_form\n",
contents.c_str());
}
// If multiple fields are enabled, only one function is included per address.
// The entry will be tagged with `m` to show that there are multiple symbols
// at that address.
// TODO(lgrey): Remove the non-multiple versions of these tests and remove the
// suffixes from the suffxed ones when removing `enable_multiple_field_`.
TEST(Module, ConstructFunctionsWithSameAddressMultiple) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID, "", true);
// Two functions.
Module::Function* function1 = generate_duplicate_function("_without_form");
Module::Function* function2 = generate_duplicate_function("_and_void");
m.AddFunction(function1);
// If this succeeds, we'll have a double-free with the `delete` below. Avoid
// that.
ASSERT_FALSE(m.AddFunction(function2));
delete function2;
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ(
"MODULE os-name architecture id-string name with spaces\n"
"FUNC m d35402aac7a7ad5c 200b26e605f99071 f14ac4fed48c4a99"
" _without_form\n",
contents.c_str());
}
// Externs should be written out as PUBLIC records, sorted by
// address.
TEST(Module, ConstructExterns) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Two externs.
auto extern1 = std::make_unique<Module::Extern>(0xffff);
extern1->name = "_abc";
auto extern2 = std::make_unique<Module::Extern>(0xaaaa);
extern2->name = "_xyz";
m.AddExtern(std::move(extern1));
m.AddExtern(std::move(extern2));
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " " MODULE_ARCH " "
MODULE_ID " " MODULE_NAME "\n"
"PUBLIC aaaa 0 _xyz\n"
"PUBLIC ffff 0 _abc\n",
contents.c_str());
}
// Externs with the same address should only keep the first entry
// added.
TEST(Module, ConstructDuplicateExterns) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Two externs.
auto extern1 = std::make_unique<Module::Extern>(0xffff);
extern1->name = "_xyz";
auto extern2 = std::make_unique<Module::Extern>(0xffff);
extern2->name = "_abc";
m.AddExtern(std::move(extern1));
m.AddExtern(std::move(extern2));
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " " MODULE_ARCH " "
MODULE_ID " " MODULE_NAME "\n"
"PUBLIC ffff 0 _xyz\n",
contents.c_str());
}
// Externs with the same address have the `m` tag if the multiple field are
// enabled.
TEST(Module, ConstructDuplicateExternsMultiple) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID, "", true);
// Two externs.
auto extern1 = std::make_unique<Module::Extern>(0xffff);
extern1->name = "_xyz";
auto extern2 = std::make_unique<Module::Extern>(0xffff);
extern2->name = "_abc";
m.AddExtern(std::move(extern1));
m.AddExtern(std::move(extern2));
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " " MODULE_ARCH " " MODULE_ID " " MODULE_NAME
"\n"
"PUBLIC m ffff 0 _xyz\n",
contents.c_str());
}
// If there exists an extern and a function at the same address, only write
// out the FUNC entry.
TEST(Module, ConstructFunctionsAndExternsWithSameAddress) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID);
// Two externs.
auto extern1 = std::make_unique<Module::Extern>(0xabc0);
extern1->name = "abc";
auto extern2 = std::make_unique<Module::Extern>(0xfff0);
extern2->name = "xyz";
m.AddExtern(std::move(extern1));
m.AddExtern(std::move(extern2));
Module::Function* function = new Module::Function("_xyz", 0xfff0);
Module::Range range(0xfff0, 0x10);
function->ranges.push_back(range);
function->parameter_size = 0;
m.AddFunction(function);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " " MODULE_ARCH " "
MODULE_ID " " MODULE_NAME "\n"
"FUNC fff0 10 0 _xyz\n"
"PUBLIC abc0 0 abc\n",
contents.c_str());
}
// If there exists an extern and a function at the same address, only write
// out the FUNC entry.
TEST(Module, ConstructFunctionsAndExternsWithSameAddressPreferExternName) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID, "", false, true);
// Two externs.
auto extern1 = std::make_unique<Module::Extern>(0xabc0);
extern1->name = "extern1";
auto extern2 = std::make_unique<Module::Extern>(0xfff0);
extern2->name = "extern2";
m.AddExtern(std::move(extern1));
m.AddExtern(std::move(extern2));
Module::Function* function = new Module::Function("function2", 0xfff0);
Module::Range range(0xfff0, 0x10);
function->ranges.push_back(range);
function->parameter_size = 0;
m.AddFunction(function);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " " MODULE_ARCH " " MODULE_ID " " MODULE_NAME
"\n"
"FUNC fff0 10 0 extern2\n"
"PUBLIC abc0 0 extern1\n",
contents.c_str());
}
// If there exists an extern and a function at the same address, only write
// out the FUNC entry, and mark it with `m` if the multiple field is enabled.
TEST(Module, ConstructFunctionsAndExternsWithSameAddressMultiple) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, MODULE_ARCH, MODULE_ID, "", true);
// Two externs.
auto extern1 = std::make_unique<Module::Extern>(0xabc0);
extern1->name = "abc";
auto extern2 = std::make_unique<Module::Extern>(0xfff0);
extern2->name = "xyz";
m.AddExtern(std::move(extern1));
m.AddExtern(std::move(extern2));
Module::Function* function = new Module::Function("_xyz", 0xfff0);
Module::Range range(0xfff0, 0x10);
function->ranges.push_back(range);
function->parameter_size = 0;
m.AddFunction(function);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " " MODULE_ARCH " " MODULE_ID " " MODULE_NAME
"\n"
"FUNC m fff0 10 0 _xyz\n"
"PUBLIC abc0 0 abc\n",
contents.c_str());
}
// If there exists an extern and a function at the same address, only write
// out the FUNC entry. For ARM THUMB, the extern that comes from the ELF
// symbol section has bit 0 set.
TEST(Module, ConstructFunctionsAndThumbExternsWithSameAddress) {
stringstream s;
Module m(MODULE_NAME, MODULE_OS, "arm", MODULE_ID);
// Two THUMB externs.
auto thumb_extern1 = std::make_unique<Module::Extern>(0xabc1);
thumb_extern1->name = "thumb_abc";
auto thumb_extern2 = std::make_unique<Module::Extern>(0xfff1);
thumb_extern2->name = "thumb_xyz";
auto arm_extern1 = std::make_unique<Module::Extern>(0xcc00);
arm_extern1->name = "arm_func";
m.AddExtern(std::move(thumb_extern1));
m.AddExtern(std::move(thumb_extern2));
m.AddExtern(std::move(arm_extern1));
// The corresponding function from the DWARF debug data have the actual
// address.
Module::Function* function = new Module::Function("_thumb_xyz", 0xfff0);
Module::Range range(0xfff0, 0x10);
function->ranges.push_back(range);
function->parameter_size = 0;
m.AddFunction(function);
m.Write(s, ALL_SYMBOL_DATA);
string contents = s.str();
EXPECT_STREQ("MODULE " MODULE_OS " arm "
MODULE_ID " " MODULE_NAME "\n"
"FUNC fff0 10 0 _thumb_xyz\n"
"PUBLIC abc1 0 thumb_abc\n"
"PUBLIC cc00 0 arm_func\n",
contents.c_str());
}