>> do %scripter.reb Script: Card list to MSE set converter Version: Date: Module: JSON Parser for Rebol 3 Version: 0.3.6.1 Date: 18-Sep-2015 (i) Info: use WHY for error information ** Script Error: contains invalid characters ** Where: to all to-word any either subparse subparse subparse subparse subparse subparse parse load-json do catch either else _ do console ** Near: [... to word! val ~~] ** File: scripter.reb ** Line: 323
00:03
@kealist Often spaces. If you were using BLANK! before to opt out of things, it might be broken now due to becoming a space... see this PR, committed earlier today
I considered going through a period where it gave an error...we can still do that if it helps people find problems with it, but I figured I'd wait and see how much of a problem it actually was.
I figured out the mystery annoying console bug, which was kind of an ugly UTF-8 everywhere positioning bug that could really screw things up. But there is a silver lining to the story...which is the reason it was found is because the console code is exercising Rebol.
The buffer into which characters are stored while you type is a TEXT! value. The modifications that change it as you type are INSERTs into that TEXT!. So not only is that good for leveraging the UTF-8 logic already built into the system, but it's good for testing it.
@kealist While there are certain caveats about using such facilities, they can be helpful, e.g. to: lib/to: hijack 'lib/to adapt copy :lib/to [if type = 'word! [-- value]]
>> to: lib/to: hijack 'lib/to adapt copy :lib/to [if type = 'word! [-- value]] == make action! [['type value] [...]] >> to word! "hello" -- value: "hello" == hello >> to word! "no spaces" -- value: "no spaces" ** Script Error: contains invalid characters
I wish the debugging were better, in particular the ability to "just in time" reflect on a frame and stack when the error occurs. But there's still some pretty foundational stuff to sort out with the stack and evaluator model.
I think the unification of PARSE and the regular DO evaluation pointed into a direction that is likely needing more pursuit in the vein of how stackless python worked; where we really do have a more dynamic model for pluggable evaluators that share a common debug architecture; and that's clearly a pretty tall order for design.
01:39
@HostileForksaysdonttrustSE So what is the workflow for dealing with JSON files in this case that can't be read in because it doesn't have correct line endings (I'm assuming that is what is causing this, but I cannot modify the line endings of this large file ATM)?
Well, independently of the json lib, it seems I can read and write, but when I load-json it goos wonky
>> save %test.json read mtgjson.com/files/AllCards.json ** Error: Handshake failure - no supported cipher suite available on server ** Where: fail if if if parse-messages parse-response while tls-read-data switch _ wake-up if while _ wait any do-commands switch _ wake-up if while _ wait while sync-op else _ read console ** Near: [ fail [select alert-descriptions data/2 ...] ~~] ** Line: 633
@kealist Good. :-) It's time to clean those suckers up. I think my philosophy on this is sound... review if you didn't follow: fight for the future
Looks like I didn't make it take FILE! or URL!, I don't recall why offhand. Maybe because it wound up directly mutating the binary input.
TLS_ECDHE_ECDSA_WITH_AES_128_GCM_SHA256 (0xc02b) ECDH x25519 (eq. 3072 bits RSA) FS 128 OLD_TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305_SHA256 (0xcc14) ECDH x25519 (eq. 3072 bits RSA) FS 256P TLS_ECDHE_ECDSA_WITH_CHACHA20_POLY1305_SHA256 (0xcca9) ECDH x25519 (eq. 3072 bits RSA) FS 256P TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA (0xc009) ECDH x25519 (eq. 3072 bits RSA) FS WEAK 128 TLS_ECDHE_ECDSA_WITH_AES_128_CBC_SHA256 (0xc023) ECDH x25519 (eq. 3072 bits RSA) FS WEAK 128 TLS_ECDHE_ECDSA_WITH_AES_256_GCM_SHA384 (0xc02c) ECDH x25519 (eq. 3072 bits RSA) FS 256(see full text)
2 hours later…
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05:17
posted on April 08, 2020 by hostilefork
@kealist was trying to read https://www.mtgjson.com/files/AllCards.json and it did not support any of the cipher suites we use. Their TLS 1.2 options all use Curve25519, so I went ahead and added support for picking curves since that wasn't too difficult. But besides all using "x25519", there's another difference...that all of them use ECDSA instead of RSA. This is a bit less obvious how to …
@kealist ^-- I got started on it by getting curve selection working to make the other ones available that mbedTLS brought in, but it will take some more work. I think the main thing that has to happen is that the TLS code needs to be re-examined to better be able to interoperate with the new cryptography primitives in a general way, so that it's even more table-driven.
7 hours later…
13:17
I've made the debug build's system shutdown do a shutdown, then a startup, then a shutdown again...to get that working cleanly. It means closing Ren-C will be slower (in debug builds), but it also means things are running a good tight ship as far as that goes. It's not unthinkable that Rebol might be used by a program for a little while, then it might want to free those resources for a time, then bring it back up.
It's also possible to do a shutdown that's not clean in the release build, if you know you'd rather just let the OS clean up. Then it only flushes files to disk and takes care of other mandatory things, but leaks memory...and it's okay to do this if you're not worried that it represents some flaw that needs tending. That's faster. Not sure who's in that much of a hurry, but it's an option.
13:58
TRANSCODE is a good example of an API with complex results where multiple return values can help it. It is the mechanic behind LOAD that turns strings into blocks. But it has options to only give the next value, so TRANSCODE/NEXT of "1 [2] <3>" will give you just "1" and the remainder of "[2] <3>". But it has to give you the remainder.
With multiple return values, asking for a next position could be the cue that you want the remainder. But then also, there's a /RELAX mode which will give you an error value when it can't load vs. raising it. Currently that value is conflated with the value you scanned, so you can't scan a literal error value (they're uncommon, but not impossible).
2 hours later…
15:47
I think this line of thinking has given me another multiple return value realization...that basically having a SET-BLOCK! on the left is a shorthand for specifying refinements that are like the /NEXT of DO/NEXT which take a word to assign.
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18:23
>> foo: func [x /y-out [word! path!] /z-out [word! path!]] [(-- x y-out z-out) return 1020] == make action! [[x /y-out /z-out] [...]] >> [a]: foo 304 -- x: 304 -- y-out: \null\ -- z-out: \null\ == 1020 >> a == 1020 >> [a b]: foo 304 -- x: 304 -- y-out: b -- z-out: \null\ == 1020 >> [a b c]: foo 304 -- x: 304 -- y-out: b -- z-out: c == 1020 >> [a _ c]: foo 304 -- x: 304 -- y-out: \null\ -- z-out: c == 1020
^-- how's that for fast prototyping? libRebol based code used direct from the evaluator... slower than we'd want it to be of course, but a good way to get the gist. And labeling the parameters with a name "-out" is not ideal, so we need to think about that along with other "parameter metadata" questions.
/y [<out>] could imply the WORD! and PATH!. But we really are running low on bits for this. It needs to void the variables to make sure if you forget to set them that the user doesn't think you did...though you might have intentionally set them to void. And it needs to pre-compose PATH!s so you don't evaluate groups in them multiple times. Anyway, this looks really good.
2 hours later…
21:20
Committed a prototype, so @ingo please add to the tests if you think of anything--as you have expressed interest in this line of thinking before.
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