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fuchsia / third_party / crashpad / 46a94a85ab59839388351d9b4ff179edfcf8ac27 / . / util / mach / composite_mach_message_server_test.cc
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// Copyright 2014 The Crashpad Authors. All rights reserved.
//
// 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.
#include "util/mach/composite_mach_message_server.h"
#include <sys/types.h>
#include "base/cxx17_backports.h"
#include "base/strings/stringprintf.h"
#include "gtest/gtest.h"
#include "test/gtest_death.h"
#include "util/mach/mach_message.h"
namespace crashpad {
namespace test {
namespace {
TEST(CompositeMachMessageServer, Empty) {
CompositeMachMessageServer server;
EXPECT_TRUE(server.MachMessageServerRequestIDs().empty());
mach_msg_empty_rcv_t request = {};
EXPECT_EQ(server.MachMessageServerRequestSize(), sizeof(request.header));
mig_reply_error_t reply = {};
EXPECT_EQ(server.MachMessageServerReplySize(), sizeof(reply));
bool destroy_complex_request = false;
EXPECT_FALSE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, MIG_BAD_ID);
}
class TestMachMessageHandler : public MachMessageServer::Interface {
public:
TestMachMessageHandler()
: MachMessageServer::Interface(),
request_ids_(),
request_size_(0),
reply_size_(0),
return_code_(KERN_FAILURE),
return_value_(false),
destroy_complex_request_(false) {
}
~TestMachMessageHandler() {
}
void SetReturnCodes(bool return_value,
kern_return_t return_code,
bool destroy_complex_request) {
return_value_ = return_value;
return_code_ = return_code;
destroy_complex_request_ = destroy_complex_request;
}
void AddRequestID(mach_msg_id_t request_id) {
request_ids_.insert(request_id);
}
void SetRequestSize(mach_msg_size_t request_size) {
request_size_ = request_size;
}
void SetReplySize(mach_msg_size_t reply_size) {
reply_size_ = reply_size;
}
// MachMessageServer::Interface:
bool MachMessageServerFunction(const mach_msg_header_t* in,
mach_msg_header_t* out,
bool* destroy_complex_request) override {
EXPECT_NE(request_ids_.find(in->msgh_id), request_ids_.end());
*destroy_complex_request = destroy_complex_request_;
PrepareMIGReplyFromRequest(in, out);
SetMIGReplyError(out, return_code_);
return return_value_;
}
std::set<mach_msg_id_t> MachMessageServerRequestIDs() override {
return request_ids_;
}
mach_msg_size_t MachMessageServerRequestSize() override {
return request_size_;
}
mach_msg_size_t MachMessageServerReplySize() override {
return reply_size_;
}
private:
std::set<mach_msg_id_t> request_ids_;
mach_msg_size_t request_size_;
mach_msg_size_t reply_size_;
kern_return_t return_code_;
bool return_value_;
bool destroy_complex_request_;
DISALLOW_COPY_AND_ASSIGN(TestMachMessageHandler);
};
TEST(CompositeMachMessageServer, HandlerDoesNotHandle) {
TestMachMessageHandler handler;
CompositeMachMessageServer server;
server.AddHandler(&handler);
EXPECT_TRUE(server.MachMessageServerRequestIDs().empty());
mach_msg_empty_rcv_t request = {};
EXPECT_EQ(server.MachMessageServerRequestSize(), sizeof(request.header));
mig_reply_error_t reply = {};
EXPECT_EQ(server.MachMessageServerReplySize(), sizeof(reply));
bool destroy_complex_request = false;
EXPECT_FALSE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, MIG_BAD_ID);
EXPECT_FALSE(destroy_complex_request);
}
TEST(CompositeMachMessageServer, OneHandler) {
constexpr mach_msg_id_t kRequestID = 100;
constexpr mach_msg_size_t kRequestSize = 256;
constexpr mach_msg_size_t kReplySize = 128;
constexpr kern_return_t kReturnCode = KERN_SUCCESS;
TestMachMessageHandler handler;
handler.AddRequestID(kRequestID);
handler.SetRequestSize(kRequestSize);
handler.SetReplySize(kReplySize);
handler.SetReturnCodes(true, kReturnCode, true);
CompositeMachMessageServer server;
// The chosen request and reply sizes must be larger than the defaults for
// that portion fo the test to be valid.
EXPECT_GT(kRequestSize, server.MachMessageServerRequestSize());
EXPECT_GT(kReplySize, server.MachMessageServerReplySize());
server.AddHandler(&handler);
std::set<mach_msg_id_t> expect_request_ids;
expect_request_ids.insert(kRequestID);
EXPECT_EQ(server.MachMessageServerRequestIDs(), expect_request_ids);
EXPECT_EQ(server.MachMessageServerRequestSize(), kRequestSize);
EXPECT_EQ(server.MachMessageServerReplySize(), kReplySize);
mach_msg_empty_rcv_t request = {};
mig_reply_error_t reply = {};
// Send a message with an unknown request ID.
request.header.msgh_id = 0;
bool destroy_complex_request = false;
EXPECT_FALSE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, MIG_BAD_ID);
EXPECT_FALSE(destroy_complex_request);
// Send a message with a known request ID.
request.header.msgh_id = kRequestID;
EXPECT_TRUE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, kReturnCode);
EXPECT_TRUE(destroy_complex_request);
}
TEST(CompositeMachMessageServer, ThreeHandlers) {
static constexpr mach_msg_id_t kRequestIDs0[] = {5};
constexpr kern_return_t kReturnCode0 = KERN_SUCCESS;
static constexpr mach_msg_id_t kRequestIDs1[] = {4, 7};
constexpr kern_return_t kReturnCode1 = KERN_PROTECTION_FAILURE;
static constexpr mach_msg_id_t kRequestIDs2[] = {10, 0, 20};
constexpr mach_msg_size_t kRequestSize2 = 6144;
constexpr mach_msg_size_t kReplySize2 = 16384;
constexpr kern_return_t kReturnCode2 = KERN_NOT_RECEIVER;
TestMachMessageHandler handlers[3];
std::set<mach_msg_id_t> expect_request_ids;
for (size_t index = 0; index < base::size(kRequestIDs0); ++index) {
const mach_msg_id_t request_id = kRequestIDs0[index];
handlers[0].AddRequestID(request_id);
expect_request_ids.insert(request_id);
}
handlers[0].SetRequestSize(sizeof(mach_msg_header_t));
handlers[0].SetReplySize(sizeof(mig_reply_error_t));
handlers[0].SetReturnCodes(true, kReturnCode0, false);
for (size_t index = 0; index < base::size(kRequestIDs1); ++index) {
const mach_msg_id_t request_id = kRequestIDs1[index];
handlers[1].AddRequestID(request_id);
expect_request_ids.insert(request_id);
}
handlers[1].SetRequestSize(100);
handlers[1].SetReplySize(200);
handlers[1].SetReturnCodes(false, kReturnCode1, true);
for (size_t index = 0; index < base::size(kRequestIDs2); ++index) {
const mach_msg_id_t request_id = kRequestIDs2[index];
handlers[2].AddRequestID(request_id);
expect_request_ids.insert(request_id);
}
handlers[2].SetRequestSize(kRequestSize2);
handlers[2].SetReplySize(kReplySize2);
handlers[2].SetReturnCodes(true, kReturnCode2, true);
CompositeMachMessageServer server;
// The chosen request and reply sizes must be larger than the defaults for
// that portion fo the test to be valid.
EXPECT_GT(kRequestSize2, server.MachMessageServerRequestSize());
EXPECT_GT(kReplySize2, server.MachMessageServerReplySize());
server.AddHandler(&handlers[0]);
server.AddHandler(&handlers[1]);
server.AddHandler(&handlers[2]);
EXPECT_EQ(server.MachMessageServerRequestIDs(), expect_request_ids);
EXPECT_EQ(server.MachMessageServerRequestSize(), kRequestSize2);
EXPECT_EQ(server.MachMessageServerReplySize(), kReplySize2);
mach_msg_empty_rcv_t request = {};
mig_reply_error_t reply = {};
// Send a message with an unknown request ID.
request.header.msgh_id = 100;
bool destroy_complex_request = false;
EXPECT_FALSE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, MIG_BAD_ID);
EXPECT_FALSE(destroy_complex_request);
// Send messages with known request IDs.
for (size_t index = 0; index < base::size(kRequestIDs0); ++index) {
request.header.msgh_id = kRequestIDs0[index];
SCOPED_TRACE(base::StringPrintf(
"handler 0, index %zu, id %d", index, request.header.msgh_id));
EXPECT_TRUE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, kReturnCode0);
EXPECT_FALSE(destroy_complex_request);
}
for (size_t index = 0; index < base::size(kRequestIDs1); ++index) {
request.header.msgh_id = kRequestIDs1[index];
SCOPED_TRACE(base::StringPrintf(
"handler 1, index %zu, id %d", index, request.header.msgh_id));
EXPECT_FALSE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, kReturnCode1);
EXPECT_TRUE(destroy_complex_request);
}
for (size_t index = 0; index < base::size(kRequestIDs2); ++index) {
request.header.msgh_id = kRequestIDs2[index];
SCOPED_TRACE(base::StringPrintf(
"handler 2, index %zu, id %d", index, request.header.msgh_id));
EXPECT_TRUE(server.MachMessageServerFunction(
&request.header, &reply.Head, &destroy_complex_request));
EXPECT_EQ(reply.RetCode, kReturnCode2);
EXPECT_TRUE(destroy_complex_request);
}
}
// CompositeMachMessageServer can’t deal with two handlers that want to handle
// the same request ID.
TEST(CompositeMachMessageServerDeathTest, DuplicateRequestID) {
constexpr mach_msg_id_t kRequestID = 400;
TestMachMessageHandler handlers[2];
handlers[0].AddRequestID(kRequestID);
handlers[1].AddRequestID(kRequestID);
CompositeMachMessageServer server;
server.AddHandler(&handlers[0]);
EXPECT_DEATH_CHECK(server.AddHandler(&handlers[1]), "duplicate request ID");
}
} // namespace
} // namespace test
} // namespace crashpad