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// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
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"use strict" ;
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( ( window ) => {
const core = window . Deno . core ;
const util = window . _ _bootstrap . util ;
// Using an object without a prototype because `Map` was causing GC problems.
const promiseTableMin = Object . create ( null ) ;
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const decoder = new TextDecoder ( ) ;
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// Note it's important that promiseId starts at 1 instead of 0, because sync
// messages are indicated with promiseId 0. If we ever add wrap around logic for
// overflows, this should be taken into account.
let _nextPromiseId = 1 ;
function nextPromiseId ( ) {
return _nextPromiseId ++ ;
}
function recordFromBufMinimal ( ui8 ) {
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const headerLen = 12 ;
const header = ui8 . subarray ( 0 , headerLen ) ;
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const buf32 = new Int32Array (
header . buffer ,
header . byteOffset ,
header . byteLength / 4 ,
) ;
const promiseId = buf32 [ 0 ] ;
const arg = buf32 [ 1 ] ;
const result = buf32 [ 2 ] ;
let err ;
if ( arg < 0 ) {
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err = {
className : decoder . decode ( ui8 . subarray ( headerLen , headerLen + result ) ) ,
message : decoder . decode ( ui8 . subarray ( headerLen + result ) ) ,
} ;
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} else if ( ui8 . length != 12 ) {
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throw new TypeError ( "Malformed response message" ) ;
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}
return {
promiseId ,
arg ,
result ,
err ,
} ;
}
function unwrapResponse ( res ) {
if ( res . err != null ) {
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const ErrorClass = core . getErrorClass ( res . err . className ) ;
if ( ! ErrorClass ) {
throw new Error (
` Unregistered error class: " ${ res . err . className } " \n ${ res . err . message } \n Classes of errors returned from ops should be registered via Deno.core.registerErrorClass(). ` ,
) ;
}
throw new ErrorClass ( res . err . message ) ;
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}
return res . result ;
}
const scratch32 = new Int32Array ( 3 ) ;
const scratchBytes = new Uint8Array (
scratch32 . buffer ,
scratch32 . byteOffset ,
scratch32 . byteLength ,
) ;
util . assert ( scratchBytes . byteLength === scratch32 . length * 4 ) ;
function asyncMsgFromRust ( ui8 ) {
const record = recordFromBufMinimal ( ui8 ) ;
const { promiseId } = record ;
const promise = promiseTableMin [ promiseId ] ;
delete promiseTableMin [ promiseId ] ;
util . assert ( promise ) ;
promise . resolve ( record ) ;
}
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async function sendAsync ( opName , arg , zeroCopy ) {
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const promiseId = nextPromiseId ( ) ; // AKA cmdId
scratch32 [ 0 ] = promiseId ;
scratch32 [ 1 ] = arg ;
scratch32 [ 2 ] = 0 ; // result
const promise = util . createResolvable ( ) ;
const buf = core . dispatchByName ( opName , scratchBytes , zeroCopy ) ;
if ( buf != null ) {
const record = recordFromBufMinimal ( buf ) ;
// Sync result.
promise . resolve ( record ) ;
} else {
// Async result.
promiseTableMin [ promiseId ] = promise ;
}
const res = await promise ;
return unwrapResponse ( res ) ;
}
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function sendSync ( opName , arg , zeroCopy ) {
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scratch32 [ 0 ] = 0 ; // promiseId 0 indicates sync
scratch32 [ 1 ] = arg ;
const res = core . dispatchByName ( opName , scratchBytes , zeroCopy ) ;
const resRecord = recordFromBufMinimal ( res ) ;
return unwrapResponse ( resRecord ) ;
}
window . _ _bootstrap . dispatchMinimal = {
asyncMsgFromRust ,
sendSync ,
sendAsync ,
} ;
} ) ( this ) ;