93 lines
3.0 KiB
Nix
93 lines
3.0 KiB
Nix
lib:
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with lib;
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let {
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body = netname: subnetname: suffix: rec {
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address = let
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suffix' =
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if hasEmptyGroup (parseAddress suffix)
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then suffix
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else joinAddress "::" suffix;
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in
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checkAddress addressLength (joinAddress subnetPrefix suffix');
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addressCIDR = "${address}/${toString addressLength}";
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addressLength = 128;
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inherit netname;
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netCIDR = "${netAddress}/${toString netPrefixLength}";
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netAddress = joinAddress netPrefix "::";
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netHash = toString {
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retiolum = 0;
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wirelum = 1;
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}.${netname};
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netPrefix = "42:${netHash}";
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netPrefixLength = {
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retiolum = 32;
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wirelum = 32;
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}.${netname};
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inherit subnetname;
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subnetCIDR = "${subnetAddress}/${toString subnetPrefixLength}";
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subnetAddress = joinAddress subnetPrefix "::";
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subnetHash = hash subnetname;
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subnetPrefix = joinAddress netPrefix subnetHash;
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subnetPrefixLength = netPrefixLength + 16;
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inherit suffix;
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suffixLength = addressLength - subnetPrefixLength;
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};
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hash = s: head (match "0*(.*)" (substring 0 4 (hashString "sha256" s)));
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dropLast = n: xs: reverseList (drop n (reverseList xs));
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takeLast = n: xs: reverseList (take n (reverseList xs));
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hasEmptyPrefix = xs: take 2 xs == ["" ""];
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hasEmptySuffix = xs: takeLast 2 xs == ["" ""];
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hasEmptyInfix = xs: any (x: x == "") (trimEmpty 2 xs);
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hasEmptyGroup = xs:
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any (p: p xs) [hasEmptyPrefix hasEmptyInfix hasEmptySuffix];
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ltrimEmpty = n: xs: if hasEmptyPrefix xs then drop n xs else xs;
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rtrimEmpty = n: xs: if hasEmptySuffix xs then dropLast n xs else xs;
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trimEmpty = n: xs: rtrimEmpty n (ltrimEmpty n xs);
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parseAddress = splitString ":";
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formatAddress = concatStringsSep ":";
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check = s: c: if !c then throw "${s}" else true;
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checkAddress = maxaddrlen: addr: let
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parsedaddr = parseAddress addr;
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normalizedaddr = trimEmpty 1 parsedaddr;
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in
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assert (check "address malformed; lone leading colon: ${addr}" (
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head parsedaddr == "" -> tail (take 2 parsedaddr) == ""
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));
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assert (check "address malformed; lone trailing colon ${addr}" (
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last parsedaddr == "" -> head (takeLast 2 parsedaddr) == ""
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));
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assert (check "address malformed; too many successive colons: ${addr}" (
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length (filter (x: x == "") normalizedaddr) > 1 -> addr == [""]
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));
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assert (check "address malformed: ${addr}" (
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all (test "[0-9a-f]{0,4}") parsedaddr
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));
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assert (check "address is too long: ${addr}" (
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length normalizedaddr * 16 <= maxaddrlen
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));
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addr;
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joinAddress = prefix: suffix: let
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parsedPrefix = parseAddress prefix;
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parsedSuffix = parseAddress suffix;
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normalizePrefix = rtrimEmpty 2 parsedPrefix;
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normalizeSuffix = ltrimEmpty 2 parsedSuffix;
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delimiter =
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optional (length (normalizePrefix ++ normalizeSuffix) < 8 &&
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(hasEmptySuffix parsedPrefix || hasEmptyPrefix parsedSuffix))
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"";
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in
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formatAddress (normalizePrefix ++ delimiter ++ normalizeSuffix);
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}
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