root/ppapi/tests/testing_instance.cc

DEFINITIONS

1. remove_plugin_
2. Init
3. GetInstanceObject
4. HandleMessage
5. DidChangeView
6. HandleInputEvent
7. EvalScript
8. SetCookie
9. LogTest
10. AppendError
11. ExecuteTests
12. CaseForTestName
13. SendTestCommand
14. SendTestCommand
15. LogAvailableTests
16. LogError
17. LogHTML
18. ReportProgress
19. AddPostCondition
20. LogTestTime
21. CreateInstance
22. CreateModule

// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

#include "ppapi/tests/testing_instance.h"

#include <algorithm>
#include <cstring>
#include <iomanip>
#include <sstream>
#include <vector>

#include "ppapi/cpp/core.h"
#include "ppapi/cpp/module.h"
#include "ppapi/cpp/var.h"
#include "ppapi/cpp/view.h"
#include "ppapi/tests/test_case.h"

TestCaseFactory* TestCaseFactory::head_ = NULL;

// Cookie value we use to signal "we're still working." See the comment above
// the class declaration for how this works.
static const char kProgressSignal[] = "...";

// Returns a new heap-allocated test case for the given test, or NULL on
// failure.
TestingInstance::TestingInstance(PP_Instance instance)
#if (defined __native_client__)
    : pp::Instance(instance),
#else
    : pp::InstancePrivate(instance),
#endif
      current_case_(NULL),
      executed_tests_(false),
      number_tests_executed_(0),
      nacl_mode_(false),
      ssl_server_port_(-1),
      websocket_port_(-1),
      remove_plugin_(true) {
  callback_factory_.Initialize(this);
}

TestingInstance::~TestingInstance() {
  if (current_case_)
    delete current_case_;
}

bool TestingInstance::Init(uint32_t argc,
                           const char* argn[],
                           const char* argv[]) {
  for (uint32_t i = 0; i < argc; i++) {
    if (std::strcmp(argn[i], "mode") == 0) {
      if (std::strcmp(argv[i], "nacl") == 0)
        nacl_mode_ = true;
    } else if (std::strcmp(argn[i], "protocol") == 0) {
      protocol_ = argv[i];
    } else if (std::strcmp(argn[i], "websocket_host") == 0) {
      websocket_host_ = argv[i];
    } else if (std::strcmp(argn[i], "websocket_port") == 0) {
      websocket_port_ = atoi(argv[i]);
    } else if (std::strcmp(argn[i], "ssl_server_port") == 0) {
      ssl_server_port_ = atoi(argv[i]);
    }
  }
  // Create the proper test case from the argument.
  for (uint32_t i = 0; i < argc; i++) {
    if (std::strcmp(argn[i], "testcase") == 0) {
      if (argv[i][0] == '\0')
        break;
      current_case_ = CaseForTestName(argv[i]);
      test_filter_ = argv[i];
      if (!current_case_)
        errors_.append(std::string("Unknown test case ") + argv[i]);
      else if (!current_case_->Init())
        errors_.append(" Test case could not initialize.");
      return true;
    }
  }

  // In DidChangeView, we'll dump out a list of all available tests.
  return true;
}

#if !(defined __native_client__)
pp::Var TestingInstance::GetInstanceObject() {
  if (current_case_)
    return current_case_->GetTestObject();

  return pp::VarPrivate();
}
#endif

void TestingInstance::HandleMessage(const pp::Var& message_data) {
  if (current_case_)
    current_case_->HandleMessage(message_data);
}

void TestingInstance::DidChangeView(const pp::View& view) {
  if (!executed_tests_) {
    executed_tests_ = true;
    pp::Module::Get()->core()->CallOnMainThread(
        0,
        callback_factory_.NewCallback(&TestingInstance::ExecuteTests));
  }
  if (current_case_)
    current_case_->DidChangeView(view);
}

bool TestingInstance::HandleInputEvent(const pp::InputEvent& event) {
  if (current_case_)
    return current_case_->HandleInputEvent(event);
  return false;
}

void TestingInstance::EvalScript(const std::string& script) {
  SendTestCommand("EvalScript", script);
}

void TestingInstance::SetCookie(const std::string& name,
                                const std::string& value) {
  SendTestCommand("SetCookie", name + "=" + value);
}

void TestingInstance::LogTest(const std::string& test_name,
                              const std::string& error_message,
                              PP_TimeTicks start_time) {
  // Compute the time to run the test and save it in a string for logging:
  PP_TimeTicks end_time(pp::Module::Get()->core()->GetTimeTicks());
  std::ostringstream number_stream;
  PP_TimeTicks elapsed_time(end_time - start_time);
  number_stream << std::fixed << std::setprecision(3) << elapsed_time;
  std::string time_string(number_stream.str());

  // Tell the browser we're still working.
  ReportProgress(kProgressSignal);

  number_tests_executed_++;

  std::string html;
  html.append("<div class=\"test_line\"><span class=\"test_name\">");
  html.append(test_name);
  html.append("</span> ");
  if (error_message.empty()) {
    html.append("<span class=\"pass\">PASS</span>");
  } else {
    html.append("<span class=\"fail\">FAIL</span>: <span class=\"err_msg\">");
    html.append(error_message);
    html.append("</span>");

    if (!errors_.empty())
      errors_.append(", ");  // Separator for different error messages.
    errors_.append(test_name + " FAIL: " + error_message);
  }
  html.append(" <span class=\"time\">(");
  html.append(time_string);
  html.append("s)</span>");

  html.append("</div>");
  LogHTML(html);

  std::string test_time;
  test_time.append(test_name);
  test_time.append(" finished in ");
  test_time.append(time_string);
  test_time.append(" seconds.");
  LogTestTime(test_time);
}

void TestingInstance::AppendError(const std::string& message) {
  if (!errors_.empty())
    errors_.append(", ");
  errors_.append(message);
}

void TestingInstance::ExecuteTests(int32_t unused) {
  ReportProgress(kProgressSignal);

  // Clear the console.
  SendTestCommand("ClearConsole");

  if (!errors_.empty()) {
    // Catch initialization errors and output the current error string to
    // the console.
    LogError("Plugin initialization failed: " + errors_);
  } else if (!current_case_) {
    LogAvailableTests();
    errors_.append("FAIL: Only listed tests");
  } else {
    current_case_->RunTests(test_filter_);

    if (number_tests_executed_ == 0) {
      errors_.append("No tests executed. The test filter might be too "
                     "restrictive: '" + test_filter_ + "'.");
      LogError(errors_);
    }
    if (current_case_->skipped_tests().size()) {
      // TODO(dmichael): Convert all TestCases to run all tests in one fixture,
      //                 and enable this check. Currently, a lot of our tests
      //                 run 1 test per fixture, which is slow.
      /*
      errors_.append("Some tests were not listed and thus were not run. Make "
                     "sure all tests are passed in the test_case URL (even if "
                     "they are marked DISABLED_). Forgotten tests: ");
      std::set<std::string>::const_iterator iter =
          current_case_->skipped_tests().begin();
      for (; iter != current_case_->skipped_tests().end(); ++iter) {
        errors_.append(*iter);
        errors_.append(" ");
      }
      LogError(errors_);
      */
    }
    if (current_case_->remaining_tests().size()) {
      errors_.append("Some listed tests were not found in the TestCase. Check "
                     "the test names that were passed to make sure they match "
                     "tests in the TestCase. Unknown tests: ");
      std::map<std::string, bool>::const_iterator iter =
          current_case_->remaining_tests().begin();
      for (; iter != current_case_->remaining_tests().end(); ++iter) {
        errors_.append(iter->first);
        errors_.append(" ");
      }
      LogError(errors_);
    }
  }

  if (remove_plugin_)
    SendTestCommand("RemovePluginWhenFinished");
  std::string result(errors_);
  if (result.empty())
    result = "PASS";
  SendTestCommand("DidExecuteTests", result);
  // Note, DidExecuteTests may unload the plugin. We can't really do anything
  // after this point.
}

TestCase* TestingInstance::CaseForTestName(const std::string& name) {
  std::string case_name = name.substr(0, name.find_first_of('_'));
  TestCaseFactory* iter = TestCaseFactory::head_;
  while (iter != NULL) {
    if (case_name == iter->name_)
      return iter->method_(this);
    iter = iter->next_;
  }
  return NULL;
}

void TestingInstance::SendTestCommand(const std::string& command) {
  std::string msg("TESTING_MESSAGE:");
  msg += command;
  PostMessage(pp::Var(msg));
}

void TestingInstance::SendTestCommand(const std::string& command,
                                      const std::string& params) {
  SendTestCommand(command + ":" + params);
}


void TestingInstance::LogAvailableTests() {
  // Print out a listing of all tests.
  std::vector<std::string> test_cases;
  TestCaseFactory* iter = TestCaseFactory::head_;
  while (iter != NULL) {
    test_cases.push_back(iter->name_);
    iter = iter->next_;
  }
  std::sort(test_cases.begin(), test_cases.end());

  std::string html;
  html.append("Available test cases: <dl>");
  for (size_t i = 0; i < test_cases.size(); ++i) {
    html.append("<dd><a href='?testcase=");
    html.append(test_cases[i]);
    if (nacl_mode_)
       html.append("&mode=nacl");
    html.append("'>");
    html.append(test_cases[i]);
    html.append("</a></dd>");
  }
  html.append("</dl>");
  html.append("<button onclick='RunAll()'>Run All Tests</button>");

  LogHTML(html);
}

void TestingInstance::LogError(const std::string& text) {
  std::string html;
  html.append("<span class=\"fail\">FAIL</span>: <span class=\"err_msg\">");
  html.append(text);
  html.append("</span>");
  LogHTML(html);
}

void TestingInstance::LogHTML(const std::string& html) {
  SendTestCommand("LogHTML", html);
}

void TestingInstance::ReportProgress(const std::string& progress_value) {
  SendTestCommand("ReportProgress", progress_value);
}

void TestingInstance::AddPostCondition(const std::string& script) {
  SendTestCommand("AddPostCondition", script);
}

void TestingInstance::LogTestTime(const std::string& test_time) {
  SendTestCommand("LogTestTime", test_time);
}

class Module : public pp::Module {
 public:
  Module() : pp::Module() {}
  virtual ~Module() {}

  virtual pp::Instance* CreateInstance(PP_Instance instance) {
    return new TestingInstance(instance);
  }
};

namespace pp {

Module* CreateModule() {
  return new ::Module();
}

}  // namespace pp