From 5f8de423f190bbb79a62f804151bc24824fa32d8 Mon Sep 17 00:00:00 2001 From: "Matt A. Tobin" Date: Fri, 2 Feb 2018 04:16:08 -0500 Subject: Add m-esr52 at 52.6.0 --- js/src/doc/Debugger/Conventions.md | 168 +++++++++++++++++++++++++++++++++++++ 1 file changed, 168 insertions(+) create mode 100644 js/src/doc/Debugger/Conventions.md (limited to 'js/src/doc/Debugger/Conventions.md') diff --git a/js/src/doc/Debugger/Conventions.md b/js/src/doc/Debugger/Conventions.md new file mode 100644 index 000000000..e8bd3ee43 --- /dev/null +++ b/js/src/doc/Debugger/Conventions.md @@ -0,0 +1,168 @@ +# General Conventions + +This page describes general conventions used in the [`Debugger`][debugger] API, +and defines some terminology used throughout the specification. + + +## Properties + +Properties of objects that comprise the `Debugger` interface, and those +that the interface creates, follow some general conventions: + +- Instances and prototypes are extensible; you can add your own properties + and methods to them. + +- Properties are configurable. This applies to both "own" and prototype + properties, and to both methods and data properties. (Leaving these + properties open to redefinition will hopefully make it easier for + JavaScript debugger code to cope with bugs, bug fixes, and changes in the + interface over time.) + +- Method properties are writable. + +- We prefer inherited accessor properties to own data properties. Both are + read using the same syntax, but inherited accessors seem like a more + accurate reflection of what's going on. Unless otherwise noted, these + properties have getters but no setters, as they cannot meaningfully be + assigned to. + + +## Debuggee Values + +The `Debugger` interface follows some conventions to help debuggers safely +inspect and modify the debuggee's objects and values. Primitive values are +passed freely between debugger and debuggee; copying or wrapping is handled +transparently. Objects received from the debuggee (including host objects +like DOM elements) are fronted in the debugger by `Debugger.Object` +instances, which provide reflection-oriented methods for inspecting their +referents; see `Debugger.Object`, below. + +Of the debugger's objects, only `Debugger.Object` instances may be passed +to the debuggee: when this occurs, the debuggee receives the +`Debugger.Object`'s referent, not the `Debugger.Object` instance itself. + +In the descriptions below, the term "debuggee value" means either a +primitive value or a `Debugger.Object` instance; it is a value that might +be received from the debuggee, or that could be passed to the debuggee. + + +## Debuggee Code + +Each `Debugger` instance maintains a set of global objects that, taken +together, comprise the debuggee. Code evaluated in the scope of a debuggee +global object, directly or indirectly, is considered *debuggee code*. +Similarly: + +- a *debuggee frame* is a frame running debuggee code; + +- a *debuggee function* is a function that closes over a debuggee + global object (and thus the function's code is debuggee code); + +- a *debuggee environment* is an environment whose outermost + enclosing environment is a debuggee global object; and + +- a *debuggee script* is a script containing debuggee code. + + +## Completion Values + +When a debuggee stack frame completes its execution, or when some sort +of debuggee call initiated by the debugger finishes, the `Debugger` +interface provides a value describing how the code completed; these are +called *completion values*. A completion value has one of the +following forms: + +{ return: value } +: The code completed normally, returning value. Value is a + debuggee value. + +{ throw: value } +: The code threw value as an exception. Value is a debuggee + value. + +`null` +: The code was terminated, as if by the "slow script" dialog box. + +If control reaches the end of a generator frame, the completion value is +{ throw: stop } where stop is a +`Debugger.Object` object representing the `StopIteration` object being +thrown. + + +## Resumption Values + +As the debuggee runs, the `Debugger` interface calls various +debugger-provided handler functions to report the debuggee's behavior. +Some of these calls can return a value indicating how the debuggee's +execution should continue; these are called *resumption values*. A +resumption value has one of the following forms: + +`undefined` +: The debuggee should continue execution normally. + +{ return: value } +: Return value immediately as the current value of the function. + Value must be a debuggee value. (Most handler functions support + this, except those whose descriptions say otherwise.) If the function + was called as a constructor (that is, via a `new` expression), then + value serves as the value returned by the function's body, not + that produced by the `new` expression: if the value is not an object, + the `new` expression returns the frame's `this` value. Similarly, if + the function is the constructor for a subclass, then a non-object + value may result in a TypeError. + If the frame is a generator or async function, then value must + conform to the iterator protocol: it must be a non-proxy object of the form + { done: boolean, value: v }, where + both `done` and `value` are ordinary properties. + +{ throw: value } +: Throw value as an exception from the current bytecode + instruction. Value must be a debuggee value. + +`null` +: Terminate the debuggee, as if it had been cancelled by the "slow script" + dialog box. + +If a function that would normally return a resumption value to indicate +how the debuggee should continue instead throws an exception, we never +propagate such an exception to the debuggee; instead, we call the +associated `Debugger` instance's `uncaughtExceptionHook` property, as +described below. + + +## Timestamps + +Timestamps are expressed in units of milliseconds since an arbitrary, +but fixed, epoch. The resolution of timestamps is generally greater +than milliseconds, though no specific resolution is guaranteed. + + +## The `Debugger.DebuggeeWouldRun` Exception + +Some debugger operations that appear to simply inspect the debuggee's state +may actually cause debuggee code to run. For example, reading a variable +might run a getter function on the global or on a `with` expression's +operand; and getting an object's property descriptor will run a handler +trap if the object is a proxy. To protect the debugger's integrity, only +methods whose stated purpose is to run debuggee code can do so. These +methods are called [invocation functions][inv fr], and they follow certain +common conventions to report the debuggee's behavior safely. For other +methods, if their normal operation would cause debuggee code to run, they +throw an instance of the `Debugger.DebuggeeWouldRun` exception. + +If there are debugger frames on stack from multiple Debugger instances, the +thrown exception is an instance of the topmost locking debugger's global's +`Debugger.DebuggeeWouldRun`. + +A `Debugger.DebuggeeWouldRun` exception may have a `cause` property, +providing more detailed information on why the debuggee would have run. The +`cause` property's value is one of the following strings: + + cause value meaning + -------------------- -------------------------------------------------------------------------------- + "proxy" Carrying out the operation would have caused a proxy handler to run. + "getter" Carrying out the operation would have caused an object property getter to run. + "setter" Carrying out the operation would have caused an object property setter to run. + +If the system can't determine why control attempted to enter the debuggee, +it will leave the exception's `cause` property undefined. -- cgit v1.2.3