* build: remove gyp build files * docs: update build instructions * build: temporary restore electron.gyp * build: do not update Electron version in the electron.gyp * chore: remove unused submodules * ci: remove obsolete CI scripts and configs * chore: remove obsolete scripts * chore: remove obsolete functions from lib/util.py * ci: send Slack notification for nightly build results
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Debugging on Windows
If you experience crashes or issues in Electron that you believe are not caused by your JavaScript application, but instead by Electron itself, debugging can be a little bit tricky, especially for developers not used to native/C++ debugging. However, using Visual Studio, GitHub's hosted Electron Symbol Server, and the Electron source code, you can enable step-through debugging with breakpoints inside Electron's source code.
See also: There's a wealth of information on debugging Chromium, much of which also applies to Electron, on the Chromium developers site: Debugging Chromium on Windows.
Requirements
-
A debug build of Electron: The easiest way is usually building it yourself, using the tools and prerequisites listed in the build instructions for Windows. While you can attach to and debug Electron as you can download it directly, you will find that it is heavily optimized, making debugging substantially more difficult: The debugger will not be able to show you the content of all variables and the execution path can seem strange because of inlining, tail calls, and other compiler optimizations.
-
Visual Studio with C++ Tools: The free community editions of Visual Studio 2013 and Visual Studio 2015 both work. Once installed, configure Visual Studio to use GitHub's Electron Symbol server. It will enable Visual Studio to gain a better understanding of what happens inside Electron, making it easier to present variables in a human-readable format.
-
ProcMon: The free SysInternals tool allows you to inspect a processes parameters, file handles, and registry operations.
Attaching to and Debugging Electron
To start a debugging session, open up PowerShell/CMD and execute your debug build of Electron, using the application to open as a parameter.
$ ./out/Debug/electron.exe ~/my-electron-app/
Setting Breakpoints
Then, open up Visual Studio. Electron is not built with Visual Studio and hence does not contain a project file - you can however open up the source code files "As File", meaning that Visual Studio will open them up by themselves. You can still set breakpoints - Visual Studio will automatically figure out that the source code matches the code running in the attached process and break accordingly.
Relevant code files can be found in ./atom/
as well as in Brightray, found in
./brightray/browser
and ./brightray/common
.
Attaching
You can attach the Visual Studio debugger to a running process on a local or
remote computer. After the process is running, click Debug / Attach to Process
(or press CTRL+ALT+P
) to open the "Attach to Process" dialog box. You can use
this capability to debug apps that are running on a local or remote computer,
debug multiple processes simultaneously.
If Electron is running under a different user account, select the
Show processes from all users
check box. Notice that depending on how many
BrowserWindows your app opened, you will see multiple processes. A typical
one-window app will result in Visual Studio presenting you with two
Electron.exe
entries - one for the main process and one for the renderer
process. Since the list only gives you names, there's currently no reliable
way of figuring out which is which.
Which Process Should I Attach to?
Code executed within the main process (that is, code found in or eventually run
by your main JavaScript file) as well as code called using the remote
(require('electron').remote
) will run inside the main process, while other
code will execute inside its respective renderer process.
You can be attached to multiple programs when you are debugging, but only one
program is active in the debugger at any time. You can set the active program
in the Debug Location
toolbar or the Processes window
.
Using ProcMon to Observe a Process
While Visual Studio is fantastic for inspecting specific code paths, ProcMon's strength is really in observing everything your application is doing with the operating system - it captures File, Registry, Network, Process, and Profiling details of processes. It attempts to log all events occurring and can be quite overwhelming, but if you seek to understand what and how your application is doing to the operating system, it can be a valuable resource.
For an introduction to ProcMon's basic and advanced debugging features, go check out this video tutorial provided by Microsoft.