c_meyer/pxt-calliope
1
0
Fork 0
Code Issues Pull Requests Packages Projects Releases Wiki Activity
d24b6da781
pxt-calliope/editor/extension.tsx
Peli de Halleux 26036e4b28
Dapjs (#1963) 
* properly log exception

* report more error paths

* tweak dialogs

* move dapjs to prepend folder

* bump pxt
2019-04-04 20:42:04 -07:00

1059 lines
41 KiB
TypeScript
Raw Blame History

/// <reference path="../node_modules/pxt-core/localtypings/pxtarget.d.ts" />
/// <reference path="../node_modules/pxt-core/built/pxtblocks.d.ts" />
/// <reference path="../node_modules/pxt-core/built/pxtcompiler.d.ts" />
/// <reference path="../node_modules/pxt-core/built/pxtlib.d.ts" />
/// <reference path="../node_modules/pxt-core/built/pxteditor.d.ts" />
/// <reference path="dapjs.d.ts" />
import * as React from "react";
const imul = (Math as any).imul;
const pageSize = 1024;
const numPages = 256;
const timeoutMessage = "timeout";
function murmur3_core(data: Uint8Array) {
let h0 = 0x2F9BE6CC;
let h1 = 0x1EC3A6C8;
for (let i = 0; i < data.length; i += 4) {
let k = pxt.HF2.read32(data, i) >>> 0
k = imul(k, 0xcc9e2d51);
k = (k << 15) | (k >>> 17);
k = imul(k, 0x1b873593);
h0 ^= k;
h1 ^= k;
h0 = (h0 << 13) | (h0 >>> 19);
h1 = (h1 << 13) | (h1 >>> 19);
h0 = (imul(h0, 5) + 0xe6546b64) >>> 0;
h1 = (imul(h1, 5) + 0xe6546b64) >>> 0;
}
return [h0, h1]
}
class DAPWrapper {
cortexM: DapJS.CortexM
packetIo: pxt.HF2.PacketIO;
cmsisdap: any;
flashing = true;
pbuf = new pxt.U.PromiseBuffer<Uint8Array>();
private useSerial = true;
constructor(h: pxt.HF2.PacketIO) {
this.packetIo = h;
h.onData = buf => {
// console.log("RD: " + pxt.Util.toHex(buf))
this.pbuf.push(buf);
}
this.allocDAP()
const readSerial = () => {
if (!this.useSerial) {
return
}
if (this.flashing) {
setTimeout(readSerial, 300)
return
}
this.cmsisdap.cmdNums(0x83, [])
.then((r: number[]) => {
const len = r[1]
let str = ""
for (let i = 2; i < len + 2; ++i) {
str += String.fromCharCode(r[i])
}
if (str.length > 0) {
pxt.U.nextTick(readSerial)
window.postMessage({
type: 'serial',
id: 'n/a', // TODO
data: str
}, "*")
// console.log("SERIAL: " + str)
} else
setTimeout(readSerial, 50)
}, (err: any) => {
setTimeout(readSerial, 1000)
})
}
readSerial()
}
private allocDAP() {
/*
let sendMany = (cmds: Uint8Array[]) => {
return h.talksAsync(cmds.map(c => ({ cmd: 0, data: c })));
}
if (!h.talksAsync)
sendMany = null;
*/
let dev = new DapJS.DAP({
write: writeAsync,
close: this.disconnectAsync,
read: readAsync,
//sendMany: sendMany
});
this.cmsisdap = (dev as any).dap;
this.cortexM = new DapJS.CortexM(dev);
let h = this.packetIo
let pbuf = this.pbuf
function writeAsync(data: ArrayBuffer) {
// console.log("WR: " + pxt.Util.toHex(new Uint8Array(data)));
return h.sendPacketAsync(new Uint8Array(data));
}
function readAsync() {
return pbuf.shiftAsync();
}
}
reconnectAsync(first: boolean) {
// configure serial at 115200
let p = Promise.resolve();
if (!first) {
p = this.packetIo.reconnectAsync()
.then(() => this.allocDAP());
}
return p
.then(() => this.cortexM.init())
.then(() => {
return this.cmsisdap.cmdNums(0x82, [0x00, 0xC2, 0x01, 0x00])
.then(() => { this.useSerial = true }, (err: any) => { this.useSerial = false; });
});
}
disconnectAsync() {
return this.packetIo.disconnectAsync();
}
}
let packetIoPromise: Promise<pxt.HF2.PacketIO>;
function initPacketIOAsync(): Promise<pxt.HF2.PacketIO> {
if (!packetIoPromise) {
packetIoPromise = pxt.HF2.mkPacketIOAsync()
.catch(err => {
packetIoPromise = null;
return Promise.reject(err);
});
return packetIoPromise;
} else {
let packetIo: pxt.HF2.PacketIO;
return packetIoPromise
.then((io) => {
packetIo = io;
return io.reconnectAsync();
})
.then(() => packetIo);
}
}
let previousDapWrapper: DAPWrapper;
function dapAsync() {
if (previousDapWrapper)
return previousDapWrapper.reconnectAsync(false) // Always fully reconnect to handle device unplugged mid-session
.then(() => previousDapWrapper);
return Promise.resolve()
.then(() => {
if (previousDapWrapper) {
return previousDapWrapper.disconnectAsync()
.finally(() => {
previousDapWrapper = null;
});
}
return Promise.resolve();
})
.then(() => initPacketIOAsync())
.then(h => {
let w = new DAPWrapper(h)
previousDapWrapper = w;
return w.reconnectAsync(true)
.then(() => {
return w
})
})
}
function canHID(): boolean {
let r = false
if (pxt.usb.isEnabled) {
r = true
} else if (pxt.U.isNodeJS) {
r = true
} else {
const forceHexDownload = /forceHexDownload/i.test(window.location.href);
const isUwp = !!(window as any).Windows;
if (pxt.BrowserUtils.isLocalHost() && pxt.Cloud.localToken && !forceHexDownload || isUwp)
r = true
}
return r;
}
function initAsync() {
if (canHID()) {
return dapAsync();
} else {
return Promise.reject(new Error("no HID"))
}
}
function pageAlignBlocks(blocks: ts.pxtc.UF2.Block[], pageSize: number) {
pxt.U.assert(pageSize % 256 == 0)
let res: ts.pxtc.UF2.Block[] = []
for (let i = 0; i < blocks.length;) {
let b0 = blocks[i]
let newbuf = new Uint8Array(pageSize)
let startPad = b0.targetAddr & (pageSize - 1)
let newAddr = b0.targetAddr - startPad
for (; i < blocks.length; ++i) {
let b = blocks[i]
if (b.targetAddr + b.payloadSize > newAddr + pageSize)
break
pxt.U.memcpy(newbuf, b.targetAddr - newAddr, b.data, 0, b.payloadSize)
}
let bb = pxt.U.flatClone(b0)
bb.data = newbuf
bb.targetAddr = newAddr
bb.payloadSize = pageSize
res.push(bb)
}
return res
}
const flashPageBINquick = new Uint32Array([
0xbe00be00, // bkpt - LR is set to this
0x2480b5f0, 0x00e42300, 0x58cd58c2, 0xd10342aa, 0x42a33304, 0xbdf0d1f8,
0x4b162502, 0x509d4a16, 0x2d00591d, 0x24a1d0fc, 0x511800e4, 0x3cff3c09,
0x591e0025, 0xd0fc2e00, 0x509c2400, 0x2c00595c, 0x2401d0fc, 0x509c2580,
0x595c00ed, 0xd0fc2c00, 0x00ed2580, 0x002e2400, 0x5107590f, 0x2f00595f,
0x3404d0fc, 0xd1f742ac, 0x50992100, 0x2a00599a, 0xe7d0d0fc, 0x4001e000,
0x00000504,
])
// doesn't check if data is already there - for timing
const flashPageBIN = new Uint32Array([
0xbe00be00, // bkpt - LR is set to this
0x2402b5f0, 0x4a174b16, 0x2480509c, 0x002500e4, 0x2e00591e, 0x24a1d0fc,
0x511800e4, 0x2c00595c, 0x2400d0fc, 0x2480509c, 0x002500e4, 0x2e00591e,
0x2401d0fc, 0x595c509c, 0xd0fc2c00, 0x00ed2580, 0x002e2400, 0x5107590f,
0x2f00595f, 0x3404d0fc, 0xd1f742ac, 0x50992100, 0x2a00599a, 0xbdf0d0fc,
0x4001e000, 0x00000504,
])
// void computeHashes(uint32_t *dst, uint8_t *ptr, uint32_t pageSize, uint32_t numPages)
const computeChecksums2 = new Uint32Array([
0x4c27b5f0, 0x44a52680, 0x22009201, 0x91004f25, 0x00769303, 0x24080013,
0x25010019, 0x40eb4029, 0xd0002900, 0x3c01407b, 0xd1f52c00, 0x468c0091,
0xa9044665, 0x506b3201, 0xd1eb42b2, 0x089b9b01, 0x23139302, 0x9b03469c,
0xd104429c, 0x2000be2a, 0x449d4b15, 0x9f00bdf0, 0x4d149e02, 0x49154a14,
0x3e01cf08, 0x2111434b, 0x491341cb, 0x405a434b, 0x4663405d, 0x230541da,
0x4b10435a, 0x466318d2, 0x230541dd, 0x4b0d435d, 0x2e0018ed, 0x6002d1e7,
0x9a009b01, 0x18d36045, 0x93003008, 0xe7d23401, 0xfffffbec, 0xedb88320,
0x00000414, 0x1ec3a6c8, 0x2f9be6cc, 0xcc9e2d51, 0x1b873593, 0xe6546b64,
])
let startTime = 0
function log(msg: string) {
let now = Date.now()
if (!startTime) startTime = now
now -= startTime
let ts = ("00000" + now).slice(-5)
pxt.log(`HID ${ts}: ${msg}`)
}
const membase = 0x20000000
const loadAddr = membase
const dataAddr = 0x20002000
const stackAddr = 0x20001000
export const bufferConcat = (bufs: Uint8Array[]) => {
let len = 0;
for (const b of bufs) {
len += b.length;
}
const r = new Uint8Array(len);
len = 0;
for (const b of bufs) {
r.set(b, len);
len += b.length;
}
return r;
};
function fullVendorCommandFlashAsync(resp: pxtc.CompileResult, wrap: DAPWrapper): Promise<void> {
const chunkSize = 62;
let aborted = false;
return Promise.resolve()
.then(() => {
return wrap.cmsisdap.cmdNums(0x8A /* DAPLinkFlash.OPEN */, [1]);
})
.then((res) => {
const hexUint8 = pxt.U.stringToUint8Array(resp.outfiles[pxtc.BINARY_HEX]);
const hexArray: number[] = Array.prototype.slice.call(hexUint8);
const sendPages = (offset: number = 0): Promise<void> => {
const end = Math.min(hexArray.length, offset + chunkSize);
const nextPage = hexArray.slice(offset, end);
nextPage.unshift(nextPage.length);
return wrap.cmsisdap.cmdNums(0x8C /* DAPLinkFlash.WRITE */, nextPage)
.then(() => {
if (!aborted && end < hexArray.length) {
return sendPages(end);
}
return Promise.resolve();
});
}
return sendPages();
})
.then((res) => {
return wrap.cmsisdap.cmdNums(0x8B /* DAPLinkFlash.CLOSE */, []);
})
.timeout(60000, timeoutMessage)
.catch((e) => {
aborted = true;
return wrap.cmsisdap.cmdNums(0x89 /* DAPLinkFlash.RESET */, [])
.catch((e2: any) => {
// Best effort reset, no-op if there's an error
})
.then(() => {
return Promise.reject(e);
});
});
}
function quickHidFlashAsync(resp: pxtc.CompileResult, wrap: DAPWrapper): Promise<void> {
let logV = (msg: string) => { }
//let logV = log
let aborted = false;
const runFlash = (b: ts.pxtc.UF2.Block, dataAddr: number) => {
const cmd = wrap.cortexM.prepareCommand();
cmd.halt();
cmd.writeCoreRegister(DapJS.CortexReg.PC, loadAddr + 4 + 1);
cmd.writeCoreRegister(DapJS.CortexReg.LR, loadAddr + 1);
cmd.writeCoreRegister(DapJS.CortexReg.SP, stackAddr);
cmd.writeCoreRegister(0, b.targetAddr);
cmd.writeCoreRegister(1, dataAddr);
return Promise.resolve()
.then(() => {
logV("setregs")
return cmd.go()
})
.then(() => {
logV("dbg en")
// starts the program
return wrap.cortexM.debug.enable()
})
}
let checksums: Uint8Array
return getFlashChecksumsAsync(wrap)
.then(buf => {
checksums = buf;
log("write code");
return wrap.cortexM.memory.writeBlock(loadAddr, flashPageBIN);
})
.then(() => {
log("convert");
// TODO this is seriously inefficient (130ms on a fast machine)
let uf2 = ts.pxtc.UF2.newBlockFile();
ts.pxtc.UF2.writeHex(uf2, resp.outfiles[pxtc.BINARY_HEX].split(/\r?\n/));
let bytes = pxt.U.stringToUint8Array(ts.pxtc.UF2.serializeFile(uf2));
let parsed = ts.pxtc.UF2.parseFile(bytes);
let aligned = pageAlignBlocks(parsed, pageSize);
log(`initial: ${aligned.length} pages`);
aligned = onlyChanged(aligned, checksums);
log(`incremental: ${aligned.length} pages`);
return Promise.mapSeries(pxt.U.range(aligned.length),
i => {
if (aborted) return Promise.resolve();
let b = aligned[i];
if (b.targetAddr >= 0x10000000)
return Promise.resolve();
logV("about to write at 0x" + b.targetAddr.toString(16));
let writeBl = Promise.resolve();
let thisAddr = (i & 1) ? dataAddr : dataAddr + pageSize;
let nextAddr = (i & 1) ? dataAddr + pageSize : dataAddr;
if (i == 0) {
let u32data = new Uint32Array(b.data.length / 4);
for (let i = 0; i < b.data.length; i += 4)
u32data[i >> 2] = pxt.HF2.read32(b.data, i);
writeBl = wrap.cortexM.memory.writeBlock(thisAddr, u32data);
}
return writeBl
.then(() => runFlash(b, thisAddr))
.then(() => {
let next = aligned[i + 1];
if (!next)
return Promise.resolve();
logV("write next");
let buf = new Uint32Array(next.data.buffer);
return wrap.cortexM.memory.writeBlock(nextAddr, buf);
})
.then(() => {
logV("wait");
return wrap.cortexM.waitForHalt(500);
})
.then(() => {
logV("done block");
});
})
.then(() => {
log("flash done");
pxt.tickEvent("hid.flash.done");
return wrap.cortexM.reset(false);
})
.then(() => {
wrap.flashing = false;
});
})
.timeout(25000, timeoutMessage)
.catch((e) => {
aborted = true;
return Promise.reject(e);
});
}
function flashAsync(resp: pxtc.CompileResult, d: pxt.commands.DeployOptions = {}): Promise<void> {
startTime = 0
let wrap: DAPWrapper
log("init")
d.showNotification(pxt.U.lf("Downloading..."));
pxt.tickEvent("hid.flash.start");
return Promise.resolve()
.then(() => {
if (previousDapWrapper) {
previousDapWrapper.flashing = true;
return Promise.delay(100);
}
return Promise.resolve();
})
.then(initAsync)
.then(w => {
wrap = w
log("reset");
return wrap.cortexM.init()
.then(() => wrap.cortexM.reset(true))
.catch(e => {
log("trying re-connect");
return wrap.reconnectAsync(false)
.then(() => wrap.cortexM.reset(true));
});
})
.then(() => wrap.cortexM.memory.readBlock(0x10001014, 1, pageSize))
.then(v => {
if (pxt.HF2.read32(v, 0) != 0x3C000) {
pxt.tickEvent("hid.flash.uicrfail");
return fullVendorCommandFlashAsync(resp, wrap);
}
return quickHidFlashAsync(resp, wrap);
})
.catch(e => {
pxt.log(`flash error: ${e.type}`);
if (e.type === "devicenotfound" && d.reportDeviceNotFoundAsync) {
pxt.tickEvent("hid.flash.devicenotfound");
return d.reportDeviceNotFoundAsync("/device/windows-app/troubleshoot", resp);
} else if (e.message === timeoutMessage) {
pxt.tickEvent("hid.flash.timeout");
return previousDapWrapper.reconnectAsync(true)
.catch((e) => { })
.then(() => {
// Best effort disconnect; at this point we don't even know the state of the device
pxt.reportException(e);
return resp.confirmAsync({
header: lf("Something went wrong..."),
body: lf("One-click download took too long. Please disconnect your {0} from your computer and reconnect it, then manually download your program using drag and drop.", pxt.appTarget.appTheme.boardName || lf("device")),
agreeLbl: lf("Ok"),
hideCancel: true
});
})
.then(() => {
return pxt.commands.saveOnlyAsync(resp);
});
} else if (e.isUserError) {
d.reportError(e.message);
return Promise.resolve();
} else {
pxt.tickEvent("hid.flash.unknownerror");
pxt.reportException(e);
return resp.confirmAsync({
header: pxt.U.lf("Something went wrong..."),
body: pxt.U.lf("Please manually download your program to your device using drag and drop. One-click download might work afterwards."),
agreeLbl: lf("Ok"),
hideCancel: true
})
.then(() => {
return pxt.commands.saveOnlyAsync(resp);
});
}
});
}
function getFlashChecksumsAsync(wrap: DAPWrapper) {
log("getting existing flash checksums")
let pages = numPages
return wrap.cortexM.runCode(computeChecksums2, loadAddr, loadAddr + 1, 0xffffffff, stackAddr, true,
dataAddr, 0, pageSize, pages)
.then(() => wrap.cortexM.memory.readBlock(dataAddr, pages * 2, pageSize))
}
function onlyChanged(blocks: ts.pxtc.UF2.Block[], checksums: Uint8Array) {
return blocks.filter(b => {
let idx = b.targetAddr / pageSize
pxt.U.assert((idx | 0) == idx)
pxt.U.assert(b.data.length == pageSize)
if (idx * 8 + 8 > checksums.length)
return true // out of range?
let c0 = pxt.HF2.read32(checksums, idx * 8)
let c1 = pxt.HF2.read32(checksums, idx * 8 + 4)
let ch = murmur3_core(b.data)
if (c0 == ch[0] && c1 == ch[1])
return false
return true
})
}
function uwpDeployCoreAsync(resp: pxtc.CompileResult, d: pxt.commands.DeployOptions = {}): Promise<void> {
// Go straight to flashing
return flashAsync(resp, d);
}
function deployCoreAsync(resp: pxtc.CompileResult, d: pxt.commands.DeployOptions = {}): Promise<void> {
return pxt.usb.isPairedAsync()
.then(isPaired => {
if (isPaired) {
// Already paired from earlier in the session or from previous session
return flashAsync(resp, d);
}
// try bluetooth if device is paired
if (pxt.webBluetooth.isPaired())
return pxt.webBluetooth.flashAsync(resp, d)
.catch(e => pxt.commands.saveOnlyAsync(resp));
// No device paired, prompt user
return pxt.commands.saveOnlyAsync(resp);
});
}
/**
* <block type="device_show_leds">
<field name="LED00">FALSE</field>
<field name="LED10">FALSE</field>
<field name="LED20">FALSE</field>
<field name="LED30">FALSE</field>
<field name="LED40">FALSE</field>
<field name="LED01">FALSE</field>
<field name="LED11">FALSE</field>
<field name="LED21">FALSE</field>
<field name="LED31">TRUE</field>
<field name="LED41">FALSE</field>
<field name="LED02">FALSE</field>
<field name="LED12">FALSE</field>
<field name="LED22">FALSE</field>
<field name="LED32">FALSE</field>
<field name="LED42">FALSE</field>
<field name="LED03">FALSE</field>
<field name="LED13">TRUE</field>
<field name="LED23">FALSE</field>
<field name="LED33">FALSE</field>
<field name="LED43">FALSE</field>
<field name="LED04">FALSE</field>
<field name="LED14">FALSE</field>
<field name="LED24">FALSE</field>
<field name="LED34">FALSE</field>
<field name="LED44">FALSE</field>
</block>
to
<block type="device_show_leds">
<field name="LEDS">`
# # # # #
. . . . #
. . . . .
. . . . #
. . . . #
`
</field>
</block>
*/
function patchBlocks(pkgTargetVersion: string, dom: Element) {
// is this a old script?
if (pxt.semver.majorCmp(pkgTargetVersion || "0.0.0", "1.0.0") >= 0) return;
// showleds
const nodes = pxt.U.toArray(dom.querySelectorAll("block[type=device_show_leds]"))
.concat(pxt.U.toArray(dom.querySelectorAll("block[type=device_build_image]")))
.concat(pxt.U.toArray(dom.querySelectorAll("shadow[type=device_build_image]")))
.concat(pxt.U.toArray(dom.querySelectorAll("block[type=device_build_big_image]")))
.concat(pxt.U.toArray(dom.querySelectorAll("shadow[type=device_build_big_image]")));
nodes.forEach(node => {
// don't rewrite if already upgraded, eg. field LEDS already present
if (pxt.U.toArray(node.children).filter(child => child.tagName == "field" && "LEDS" == child.getAttribute("name"))[0])
return;
// read LEDxx value and assmebly into a new field
const leds: string[][] = [[], [], [], [], []];
pxt.U.toArray(node.children)
.filter(child => child.tagName == "field" && /^LED\d+$/.test(child.getAttribute("name")))
.forEach(lednode => {
let n = lednode.getAttribute("name");
let col = parseInt(n[3]);
let row = parseInt(n[4]);
leds[row][col] = lednode.innerHTML == "TRUE" ? "#" : ".";
// remove node
node.removeChild(lednode);
});
// add new field
const f = node.ownerDocument.createElement("field");
f.setAttribute("name", "LEDS");
const s = '`\n' + leds.map(row => row.join('')).join('\n') + '\n`';
f.appendChild(node.ownerDocument.createTextNode(s));
node.insertBefore(f, null);
});
// radio
/*
<block type="radio_on_packet" x="174" y="120">
<mutation callbackproperties="receivedNumber" renamemap="{}"></mutation>
<field name="receivedNumber">receivedNumber</field>
</block>
<block type="radio_on_packet" disabled="true" x="127" y="263">
<mutation callbackproperties="receivedString,receivedNumber" renamemap="{&quot;receivedString&quot;:&quot;name&quot;,&quot;receivedNumber&quot;:&quot;value&quot;}"></mutation>
<field name="receivedString">name</field>
<field name="receivedNumber">value</field>
</block>
<block type="radio_on_packet" disabled="true" x="162" y="420">
<mutation callbackproperties="receivedString" renamemap="{}"></mutation>
<field name="receivedString">receivedString</field>
</block>
converts to
<block type="radio_on_number" x="196" y="208">
<field name="HANDLER_receivedNumber" id="DCy(W;1)*jLWQUpoy4Mm" variabletype="">receivedNumber</field>
</block>
<block type="radio_on_value" x="134" y="408">
<field name="HANDLER_name" id="*d-Jm^MJXO]Djs(dTR*?" variabletype="">name</field>
<field name="HANDLER_value" id="A6HQjH[k^X43o3h775+G" variabletype="">value</field>
</block>
<block type="radio_on_string" x="165" y="583">
<field name="HANDLER_receivedString" id="V9KsE!h$(iO?%W:[32CV" variabletype="">receivedString</field>
</block>
*/
const varids: pxt.Map<string> = {};
function addField(node: Element, renameMap: pxt.Map<string>, name: string) {
const f = node.ownerDocument.createElement("field");
f.setAttribute("name", "HANDLER_" + name)
f.setAttribute("id", varids[renameMap[name] || name]);
f.appendChild(node.ownerDocument.createTextNode(name));
node.appendChild(f);
}
pxt.U.toArray(dom.querySelectorAll("variable")).forEach(node => varids[node.innerHTML] = node.getAttribute("id"));
pxt.U.toArray(dom.querySelectorAll("block[type=radio_on_packet]"))
.forEach(node => {
const mutation = node.querySelector("mutation");
if (!mutation) return;
const renameMap = JSON.parse(node.getAttribute("renamemap") || "{}");
const props = mutation.getAttribute("callbackproperties");
if (props) {
const parts = props.split(",");
// It's tempting to generate radio_on_number if parts.length === 0 but
// that would create a variable named "receivedNumber" and possibly shadow
// an existing variable in the user's program. It's safer to stick to the
// old block.
if (parts.length === 1) {
if (parts[0] === "receivedNumber") {
node.setAttribute("type", "radio_on_number");
node.removeChild(node.querySelector("field[name=receivedNumber]"));
addField(node, renameMap, "receivedNumber");
}
else if (parts[0] === "receivedString") {
node.setAttribute("type", "radio_on_string");
node.removeChild(node.querySelector("field[name=receivedString]"));
addField(node, renameMap, "receivedString");
}
else {
return;
}
node.removeChild(mutation);
}
else if (parts.length === 2 && parts.indexOf("receivedNumber") !== -1 && parts.indexOf("receivedString") !== -1) {
node.setAttribute("type", "radio_on_value");
node.removeChild(node.querySelector("field[name=receivedNumber]"));
node.removeChild(node.querySelector("field[name=receivedString]"));
addField(node, renameMap, "name");
addField(node, renameMap, "value");
node.removeChild(mutation);
}
}
})
// device_random now refers to randomRange() so we need to add the missing lower bound argument
pxt.U.toArray(dom.querySelectorAll("block[type=device_random]"))
.concat(pxt.U.toArray(dom.querySelectorAll("shadow[type=device_random]")))
.forEach(node => {
if (getValue(node, "min")) return;
const v = node.ownerDocument.createElement("value");
v.setAttribute("name", "min");
addNumberShadow(v);
node.appendChild(v);
});
/*
<block type="math_arithmetic">
<field name="OP">DIVIDE</field>
<value name="A">
<shadow type="math_number"><field name="NUM">0</field></shadow>
<block type="math_number"><field name="NUM">2</field></block>
</value>
<value name="B">
<shadow type="math_number"><field name="NUM">1</field></shadow>
<block type="math_number"><field name="NUM">3</field></block>
</value>
</block>
*/
pxt.U.toArray(dom.querySelectorAll("block[type=math_arithmetic]"))
.concat(pxt.U.toArray(dom.querySelectorAll("shadow[type=math_arithmetic]")))
.forEach(node => {
const op = getField(node, "OP");
if (!op || op.textContent.trim() !== "DIVIDE") return;
// Convert to integer division
/*
<block type="math_js_op">
<mutation op-type="infix"></mutation>
<field name="OP">idiv</field>
<value name="ARG0">
<shadow type="math_number"><field name="NUM">0</field></shadow>
</value>
<value name="ARG1">
<shadow type="math_number"><field name="NUM">0</field></shadow>
</value>
</block>
*/
node.setAttribute("type", "math_js_op");
op.textContent = "idiv";
const mutation = node.ownerDocument.createElement("mutation");
mutation.setAttribute("op-type", "infix");
// mutation has to be first or Blockly will drop the second argument
node.insertBefore(mutation, node.firstChild);
const a = getValue(node, "A");
if (a) a.setAttribute("name", "ARG0");
const b = getValue(node, "B");
if (b) b.setAttribute("name", "ARG1");
});
renameField(dom, "math_number_minmax", "NUM", "SLIDER");
renameField(dom, "device_note", "note", "name");
}
function renameField(dom: Element, blockType: string, oldName: string, newName: string) {
pxt.U.toArray(dom.querySelectorAll(`block[type=${blockType}]`))
.concat(pxt.U.toArray(dom.querySelectorAll(`shadow[type=${blockType}]`)))
.forEach(node => {
const thefield = getField(node, oldName);
if (thefield) {
thefield.setAttribute("name", newName);
}
});
}
pxt.editor.initExtensionsAsync = function (opts: pxt.editor.ExtensionOptions): Promise<pxt.editor.ExtensionResult> {
pxt.debug('loading microbit target extensions...')
function cantImportAsync(project: pxt.editor.IProjectView) {
// this feature is support in v0 only
return project.showModalDialogAsync({
header: lf("Can't import microbit.co.uk scripts..."),
body: lf("Importing microbit.co.uk programs is not supported in this editor anymore. Please open this script in the https://makecode.microbit.org/v0 editor."),
buttons: [
{
label: lf("Go to the old editor"),
url: `https://makecode.microbit.org/v0`
}
]
}).then(() => project.openHome())
}
const manyAny = Math as any;
if (!manyAny.imul)
manyAny.imul = function (a: number, b: number): number {
const ah = (a >>> 16) & 0xffff;
const al = a & 0xffff;
const bh = (b >>> 16) & 0xffff;
const bl = b & 0xffff;
// the shift by 0 fixes the sign on the high part
// the final |0 converts the unsigned value into a signed value
return ((al * bl) + (((ah * bl + al * bh) << 16) >>> 0) | 0);
};
const res: pxt.editor.ExtensionResult = {
hexFileImporters: [{
id: "blockly",
canImport: data => data.meta.cloudId == "microbit.co.uk" && data.meta.editor == "blockly",
importAsync: (project, data) => {
pxt.tickEvent('import.legacyblocks.redirect');
return cantImportAsync(project);
}
}, {
id: "td",
canImport: data => data.meta.cloudId == "microbit.co.uk" && data.meta.editor == "touchdevelop",
importAsync: (project, data) => {
pxt.tickEvent('import.legacytd.redirect');
return cantImportAsync(project);
}
}]
};
pxt.usb.setFilters([{
vendorId: 0x0D28,
productId: 0x0204,
classCode: 0xff,
subclassCode: 0x03
}])
const isUwp = !!(window as any).Windows;
if (isUwp)
pxt.commands.deployCoreAsync = uwpDeployCoreAsync;
else if (canHID() || pxt.webBluetooth.hasPartialFlash())
pxt.commands.deployCoreAsync = deployCoreAsync;
res.blocklyPatch = patchBlocks;
res.showUploadInstructionsAsync = showUploadInstructionsAsync;
res.webUsbPairDialogAsync = webUsbPairDialogAsync;
return Promise.resolve<pxt.editor.ExtensionResult>(res);
}
function getField(parent: Element, name: string) {
return getFieldOrValue(parent, name, true);
}
function getValue(parent: Element, name: string) {
return getFieldOrValue(parent, name, false);
}
function getFieldOrValue(parent: Element, name: string, isField: boolean) {
const nodeType = isField ? "field" : "value";
for (let i = 0; i < parent.children.length; i++) {
const child = parent.children.item(i);
if (child.tagName === nodeType && child.getAttribute("name") === name) {
return child;
}
}
return undefined;
}
function addNumberShadow(valueNode: Element) {
const s = valueNode.ownerDocument.createElement("shadow");
s.setAttribute("type", "math_number");
const f = valueNode.ownerDocument.createElement("field");
f.setAttribute("name", "NUM");
f.textContent = "0";
s.appendChild(f);
valueNode.appendChild(s);
}
function webUsbPairDialogAsync(confirmAsync: (options: any) => Promise<number>): Promise<number> {
const boardName = pxt.appTarget.appTheme.boardName || "???";
const docUrl = pxt.appTarget.appTheme.usbDocs;
const jsx =
<div className="ui grid stackable">
<div className="column five wide firmware">
<div className="ui header">{lf("First time here?")}</div>
<strong className="ui small">{lf("You must have version 0249 or above of the firmware")}</strong>
<div className="image">
<img className="ui image" src="./static/download/firmware.png" />
</div>
<a href={`${docUrl}/webusb/troubleshoot`} target="_blank">{lf("Check your firmware version here and update if needed")}</a>
</div>
<div className="column eleven wide instructions">
<div className="ui grid">
<div className="row">
<div className="column">
<div className="ui two column grid padded">
<div className="column">
<div className="ui">
<div className="image">
<img className="ui medium rounded image" src="./static/download/connect.png" />
</div>
<div className="content">
<div className="description">
<span className="ui purple circular label">1</span>
<strong>{lf("Connect the {0} to your computer with a USB cable", boardName)}</strong>
<br />
<span className="ui small">{lf("Use the microUSB port on the top of the {0}", boardName)}</span>
</div>
</div>
</div>
</div>
<div className="column">
<div className="ui">
<div className="image">
<img className="ui medium rounded image" src="./static/download/pair.png" />
</div>
<div className="content">
<div className="description">
<span className="ui purple circular label">2</span>
<strong>{lf("Pair your {0}", boardName)}</strong>
<br />
<span className="ui small">{lf("Click 'Pair device' below and select BBC micro:bit CMSIS-DAP or DAPLink CMSIS-DAP from the list")}</span>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>;
const buttons: any[] = [];
if (docUrl) {
buttons.push({
label: lf("Help"),
icon: "help",
className: "lightgrey",
url: `${docUrl}/webusb`
});
}
return confirmAsync({
header: lf("Pair device for one-click downloads"),
jsx,
hasCloseIcon: true,
agreeLbl: lf("Pair device"),
agreeIcon: "usb",
hideCancel: true,
className: 'downloaddialog',
buttons
});
}
function showUploadInstructionsAsync(fn: string, url: string, confirmAsync: (options: any) => Promise<number>) {
const boardName = pxt.appTarget.appTheme.boardName || "???";
const boardDriveName = pxt.appTarget.appTheme.driveDisplayName || pxt.appTarget.compile.driveName || "???";
// https://msdn.microsoft.com/en-us/library/cc848897.aspx
// "For security reasons, data URIs are restricted to downloaded resources.
// Data URIs cannot be used for navigation, for scripting, or to populate frame or iframe elements"
const userDownload = pxt.BrowserUtils.isBrowserDownloadWithinUserContext();
const downloadAgain = !pxt.BrowserUtils.isIE() && !pxt.BrowserUtils.isEdge();
const docUrl = pxt.appTarget.appTheme.usbDocs;
const body =
userDownload
? lf("Click 'Download' to open the {0} app.", pxt.appTarget.appTheme.boardName || "")
: undefined;
const jsx = !userDownload ?
<div className="ui grid stackable upload">
<div className="column sixteen wide instructions">
<div className="ui grid">
<div className="row">
<div className="column">
<div className="ui two column grid padded">
<div className="column">
<div className="ui">
<div className="image">
<img className="ui medium rounded image" src="./static/download/connect.png" />
</div>
<div className="content">
<div className="description">
<span className="ui purple circular label">1</span>
<strong>{lf("Connect the {0} to your computer with a USB cable", boardName)}</strong>
<br />
<span className="ui small">{lf("Use the microUSB port on the top of the {0}", boardName)}</span>
</div>
</div>
</div>
</div>
<div className="column">
<div className="ui">
<div className="image">
<img className="ui medium rounded image" src="./static/download/transfer.png" />
</div>
<div className="content">
<div className="description">
<span className="ui purple circular label">2</span>
<strong>{lf("Move the .hex file to the {0}", boardName)}</strong>
<br />
<span className="ui small">{lf("Locate the downloaded .hex file and drag it to the {0} drive", boardDriveName)}</span>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div>
</div> : undefined;
const buttons: any[] = [];
if (downloadAgain) {
buttons.push({
label: userDownload ? lf("Download") : fn,
icon: "download",
class: `${userDownload ? "primary" : "lightgrey"}`,
url,
fileName: fn
});
}
if (docUrl) {
buttons.push({
label: lf("Help"),
icon: "help",
className: "lightgrey",
url: docUrl
});
}
return confirmAsync({
header: lf("Download to your {0}", pxt.appTarget.appTheme.boardName),
body,
jsx,
hasCloseIcon: true,
hideCancel: true,
hideAgree: true,
className: 'downloaddialog',
buttons
//timeout: 20000
}).then(() => { });
}
Reference in New Issue View Git Blame Copy Permalink