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author | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
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committer | Matt A. Tobin <mattatobin@localhost.localdomain> | 2018-02-02 04:16:08 -0500 |
commit | 5f8de423f190bbb79a62f804151bc24824fa32d8 (patch) | |
tree | 10027f336435511475e392454359edea8e25895d /js/src/doc/Debugger/Debugger-API.md | |
parent | 49ee0794b5d912db1f95dce6eb52d781dc210db5 (diff) | |
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Add m-esr52 at 52.6.0
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diff --git a/js/src/doc/Debugger/Debugger-API.md b/js/src/doc/Debugger/Debugger-API.md new file mode 100644 index 000000000..10f6ebf89 --- /dev/null +++ b/js/src/doc/Debugger/Debugger-API.md @@ -0,0 +1,126 @@ +# The `Debugger` Interface + +Mozilla's JavaScript engine, SpiderMonkey, provides a debugging interface +named `Debugger` which lets JavaScript code observe and manipulate the +execution of other JavaScript code. Both Firefox's built-in developer tools +and the Firebug add-on use `Debugger` to implement their JavaScript +debuggers. However, `Debugger` is quite general, and can be used to +implement other kinds of tools like tracers, coverage analysis, +patch-and-continue, and so on. + +`Debugger` has three essential qualities: + +- It is a *source level* interface: it operates in terms of the JavaScript + language, not machine language. It operates on JavaScript objects, stack + frames, environments, and code, and presents a consistent interface + regardless of whether the debuggee is interpreted, compiled, or + optimized. If you have a strong command of the JavaScript language, you + should have all the background you need to use `Debugger` successfully, + even if you have never looked into the language's implementation. + +- It is for use *by JavaScript code*. JavaScript is both the debuggee + language and the tool implementation language, so the qualities that make + JavaScript effective on the web can be brought to bear in crafting tools + for developers. As is expected of JavaScript APIs, `Debugger` is a + *sound* interface: using (or even misusing) `Debugger` should never cause + Gecko to crash. Errors throw proper JavaScript exceptions. + +- It is an *intra-thread* debugging API. Both the debuggee and the code + using `Debugger` to observe it must run in the same thread. Cross-thread, + cross-process, and cross-device tools must use `Debugger` to observe the + debuggee from within the same thread, and then handle any needed + communication themselves. (Firefox's builtin tools have a + [protocol][protocol] defined for this purpose.) + +In Gecko, the `Debugger` API is available to chrome code only. By design, +it ought not to introduce security holes, so in principle it could be made +available to content as well; but it is hard to justify the security risks +of the additional attack surface. + +The `Debugger` API cannot currently observe self-hosted JavaScript. This is not +inherent in the API's design, but simply that the self-hosting infrastructure +isn't prepared for the kind of invasions the `Debugger` API can perform. + + +## Debugger Instances and Shadow Objects + +`Debugger` reflects every aspect of the debuggee's state as a JavaScript +value---not just actual JavaScript values like objects and primitives, +but also stack frames, environments, scripts, and compilation units, which +are not normally accessible as objects in their own right. + +Here is a JavaScript program in the process of running a timer callback function: + +![A running JavaScript program and its Debugger shadows][img-shadows] + +This diagram shows the various types of shadow objects that make up the +Debugger API (which all follow some [general conventions][conventions]): + +- A [`Debugger.Object`][object] represents a debuggee object, offering a + reflection-oriented API that protects the debugger from accidentally + invoking getters, setters, proxy traps, and so on. + +- A [`Debugger.Script`][script] represents a block of JavaScript + code---either a function body or a top-level script. Given a + `Debugger.Script`, one can set breakpoints, translate between source + positions and bytecode offsets (a deviation from the "source level" + design principle), and find other static characteristics of the code. + +- A [`Debugger.Frame`][frame] represents a running stack frame. You can use + these to walk the stack and find each frame's script and environment. You + can also set `onStep` and `onPop` handlers on frames. + +- A [`Debugger.Environment`][environment] represents an environment, + associating variable names with storage locations. Environments may + belong to a running stack frame, captured by a function closure, or + reflect some global object's properties as variables. + +The [`Debugger`][debugger-object] instance itself is not really a shadow of +anything in the debuggee; rather, it maintains the set of global objects +which are to be considered debuggees. A `Debugger` observes only execution +taking place in the scope of these global objects. You can set functions to +be called when new stack frames are pushed; when new code is loaded; and so +on. + +Omitted from this picture are [`Debugger.Source`][source] instances, which +represent JavaScript compilation units. A `Debugger.Source` can furnish a +full copy of its source code, and explain how the code entered the system, +whether via a call to `eval`, a `<script>` element, or otherwise. A +`Debugger.Script` points to the `Debugger.Source` from which it is derived. + +Also omitted is the `Debugger`'s [`Debugger.Memory`][memory] instance, which +holds methods and accessors for observing the debuggee's memory use. + +All these types follow some [general conventions][conventions], which you +should look through before drilling down into any particular type's +specification. + +All shadow objects are unique per `Debugger` and per referent. For a given +`Debugger`, there is exactly one `Debugger.Object` that refers to a +particular debuggee object; exactly one `Debugger.Frame` for a particular +stack frame; and so on. Thus, a tool can store metadata about a shadow's +referent as a property on the shadow itself, and count on finding that +metadata again if it comes across the same referent. And since shadows are +per-`Debugger`, tools can do so without worrying about interfering with +other tools that use their own `Debugger` instances. + + +## Examples + +Here are some things you can try out yourself that show off some of `Debugger`'s +features: + +- [Evaluating an expression in a web page's stack frame when it executes a `debugger;` statement.][tut debugger] + +- [Showing how many objects different call paths allocate.][tut alloc log] + + +## Gecko-specific features + +While the `Debugger` core API deals only with concepts common to any +JavaScript implementation, it also includes some Gecko-specific features: + +- [Global tracking][global] supports debugging all the code running in a + Gecko instance at once---the 'chrome debugging' model. +- [Object wrapper][wrapper] functions help manipulate object references + that cross privilege boundaries. |