pxt-ev3/editor/wrap.ts

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import HF2 = pxt.HF2
import U = pxt.U
function log(msg: string) {
pxt.debug("EWRAP: " + msg)
}
export interface DirEntry {
name: string;
md5?: string;
size?: number;
}
const runTemplate = "C00882010084XX0060640301606400"
const usbMagic = 0x3d3f
export class Ev3Wrapper {
msgs = new U.PromiseBuffer<Uint8Array>()
private cmdSeq = U.randomUint32() & 0xffff;
private lock = new U.PromiseQueue();
isStreaming = false;
dataDump = false;
constructor(public io: pxt.HF2.PacketIO) {
io.onData = buf => {
buf = buf.slice(0, HF2.read16(buf, 0) + 2)
if (HF2.read16(buf, 4) == usbMagic) {
let code = HF2.read16(buf, 6)
let payload = buf.slice(8)
if (code == 1) {
let str = U.uint8ArrayToString(payload)
if (U.isNodeJS)
pxt.debug("SERIAL: " + str.replace(/\n+$/, ""))
else
window.postMessage({
type: 'serial',
id: 'n/a', // TODO?
data: str
}, "*")
} else
pxt.debug("Magic: " + code + ": " + U.toHex(payload))
return
}
if (this.dataDump)
log("RECV: " + U.toHex(buf))
this.msgs.push(buf)
}
}
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private allocCore(addSize: number, replyType: number) {
let len = 5 + addSize
let buf = new Uint8Array(len)
HF2.write16(buf, 0, len - 2) // pktLen
HF2.write16(buf, 2, this.cmdSeq++) // msgCount
buf[4] = replyType
return buf
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}
private allocSystem(addSize: number, cmd: number, replyType = 1) {
let buf = this.allocCore(addSize + 1, replyType)
buf[5] = cmd
return buf
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}
private allocCustom(code: number, addSize = 0) {
let buf = this.allocCore(1 + 2 + addSize, 0)
HF2.write16(buf, 4, usbMagic)
HF2.write16(buf, 6, code)
return buf
}
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stopAsync() {
return this.isVmAsync()
.then(vm => {
if (vm) return Promise.resolve();
log(`stopping PXT app`)
let buf = this.allocCustom(2)
return this.justSendAsync(buf)
.then(() => Promise.delay(500))
})
}
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dmesgAsync() {
log(`asking for DMESG buffer over serial`)
let buf = this.allocCustom(3)
return this.justSendAsync(buf)
}
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runAsync(path: string) {
let codeHex = runTemplate.replace("XX", U.toHex(U.stringToUint8Array(path)))
let code = U.fromHex(codeHex)
let pkt = this.allocCore(2 + code.length, 0)
HF2.write16(pkt, 5, 0x0800)
U.memcpy(pkt, 7, code)
log(`run ${path}`)
return this.justSendAsync(pkt)
}
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justSendAsync(buf: Uint8Array) {
return this.lock.enqueue("talk", () => {
this.msgs.drain()
if (this.dataDump)
log("SEND: " + U.toHex(buf))
return this.io.sendPacketAsync(buf)
})
}
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talkAsync(buf: Uint8Array, altResponse = 0) {
return this.lock.enqueue("talk", () => {
this.msgs.drain()
if (this.dataDump)
log("TALK: " + U.toHex(buf))
return this.io.sendPacketAsync(buf)
.then(() => this.msgs.shiftAsync(1000))
.then(resp => {
if (resp[2] != buf[2] || resp[3] != buf[3])
U.userError("msg count de-sync")
if (buf[4] == 1) {
if (altResponse != -1 && resp[5] != buf[5])
U.userError("cmd de-sync")
if (altResponse != -1 && resp[6] != 0 && resp[6] != altResponse)
U.userError("cmd error: " + resp[6])
}
return resp
})
})
}
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flashAsync(path: string, file: Uint8Array) {
log(`write ${file.length} bytes to ${path}`)
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let handle = -1
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let loopAsync = (pos: number): Promise<void> => {
if (pos >= file.length) return Promise.resolve()
let size = file.length - pos
if (size > 1000) size = 1000
let upl = this.allocSystem(1 + size, 0x93, 0x1)
upl[6] = handle
U.memcpy(upl, 6 + 1, file, pos, size)
return this.talkAsync(upl, 8) // 8=EOF
.then(() => loopAsync(pos + size))
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}
let begin = this.allocSystem(4 + path.length + 1, 0x92)
HF2.write32(begin, 6, file.length) // fileSize
U.memcpy(begin, 10, U.stringToUint8Array(path))
return this.lock.enqueue("file", () =>
this.talkAsync(begin)
.then(resp => {
handle = resp[7]
return loopAsync(0)
}))
}
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lsAsync(path: string): Promise<DirEntry[]> {
let lsReq = this.allocSystem(2 + path.length + 1, 0x99)
HF2.write16(lsReq, 6, 1024) // maxRead
U.memcpy(lsReq, 8, U.stringToUint8Array(path))
return this.talkAsync(lsReq, 8)
.then(resp =>
U.uint8ArrayToString(resp.slice(12)).split(/\n/).map(s => {
if (!s) return null as DirEntry
let m = /^([A-F0-9]+) ([A-F0-9]+) ([^\/]*)$/.exec(s)
if (m)
return {
md5: m[1],
size: parseInt(m[2], 16),
name: m[3]
}
else
return {
name: s.replace(/\/$/, "")
}
}).filter(v => !!v))
}
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rmAsync(path: string): Promise<void> {
log(`rm ${path}`)
let rmReq = this.allocSystem(path.length + 1, 0x9c)
U.memcpy(rmReq, 6, U.stringToUint8Array(path))
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return this.talkAsync(rmReq, 5)
.then(resp => { })
}
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isVmAsync(): Promise<boolean> {
let path = "/no/such/dir"
let mkdirReq = this.allocSystem(path.length + 1, 0x9b)
U.memcpy(mkdirReq, 6, U.stringToUint8Array(path))
return this.talkAsync(mkdirReq, -1)
.then(resp => {
let isVM = resp[6] == 0x05
log(`${isVM ? "PXT app" : "VM"} running`)
return isVM
})
}
private streamFileOnceAsync(path: string, cb: (d: Uint8Array) => void) {
let fileSize = 0
let filePtr = 0
let handle = -1
let resp = (buf: Uint8Array): Promise<void> => {
if (buf[6] == 2) {
// handle not ready - file is missing
this.isStreaming = false
return Promise.resolve()
}
if (buf[6] != 0 && buf[6] != 8)
U.userError("bad response when streaming file: " + buf[6] + " " + U.toHex(buf))
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this.isStreaming = true
fileSize = HF2.read32(buf, 7)
if (handle == -1) {
handle = buf[11]
log(`stream on, handle=${handle}`)
}
let data = buf.slice(12)
filePtr += data.length
if (data.length > 0)
cb(data)
if (buf[6] == 8) {
// end of file
this.isStreaming = false
return this.rmAsync(path)
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}
let contFileReq = this.allocSystem(1 + 2, 0x97)
HF2.write16(contFileReq, 7, 1000) // maxRead
contFileReq[6] = handle
return Promise.delay(data.length > 0 ? 0 : 500)
.then(() => this.talkAsync(contFileReq, -1))
.then(resp)
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}
let getFileReq = this.allocSystem(2 + path.length + 1, 0x96)
HF2.write16(getFileReq, 6, 1000) // maxRead
U.memcpy(getFileReq, 8, U.stringToUint8Array(path))
return this.talkAsync(getFileReq, -1).then(resp)
}
streamFileAsync(path: string, cb: (d: Uint8Array) => void) {
let loop = (): Promise<void> =>
this.lock.enqueue("file", () =>
this.streamFileOnceAsync(path, cb))
.then(() => Promise.delay(500))
.then(loop)
return loop()
}
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downloadFileAsync(path: string, cb: (d: Uint8Array) => void) {
return this.lock.enqueue("file", () =>
this.streamFileOnceAsync(path, cb))
}
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private initAsync() {
return Promise.resolve()
}
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private resetState() {
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}
reconnectAsync(first = false): Promise<void> {
this.resetState()
if (first) return this.initAsync()
log(`reconnect`);
return this.io.reconnectAsync()
.then(() => this.initAsync())
}
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disconnectAsync() {
log(`disconnect`);
return this.io.disconnectAsync()
}
}