nimbus-eth1/nimbus/db/aristo/aristo_debug.nim

812 lines
22 KiB
Nim

# nimbus-eth1
# Copyright (c) 2023-2024 Status Research & Development GmbH
# Licensed under either of
# * Apache License, version 2.0, ([LICENSE-APACHE](LICENSE-APACHE) or
# http://www.apache.org/licenses/LICENSE-2.0)
# * MIT license ([LICENSE-MIT](LICENSE-MIT) or
# http://opensource.org/licenses/MIT)
# at your option. This file may not be copied, modified, or distributed
# except according to those terms.
{.push raises: [].}
import
std/[algorithm, sequtils, sets, strutils, tables],
eth/[common, trie/nibbles],
results,
stew/[byteutils, interval_set],
./aristo_desc/desc_backend,
./aristo_init/[memory_db, memory_only, rocks_db],
./aristo_journal/journal_scheduler,
"."/[aristo_constants, aristo_desc, aristo_hike, aristo_layers]
# ------------------------------------------------------------------------------
# Private functions
# ------------------------------------------------------------------------------
proc orDefault(db: AristoDbRef): AristoDbRef =
if db.isNil: AristoDbRef(top: LayerRef.init()) else: db
proc add(
xMap: var Table[HashKey,HashSet[VertexID]];
key: HashKey;
vid: VertexID;
) =
xMap.withValue(key,value):
value[].incl vid
do: # else if not found
xMap[key] = @[vid].toHashSet
# --------------------------
proc toHex(w: VertexID): string =
w.uint64.toHex
proc toHexLsb(w: int8): string =
$"0123456789abcdef"[w and 15]
proc sortedKeys[T](tab: Table[VertexID,T]): seq[VertexID] =
tab.keys.toSeq.sorted
proc sortedKeys(pPrf: HashSet[VertexID]): seq[VertexID] =
pPrf.toSeq.sorted
proc toPfx(indent: int; offset = 0): string =
if 0 < indent+offset: "\n" & " ".repeat(indent+offset) else: ""
proc squeeze(s: string; hex = false; ignLen = false): string =
## For long strings print `begin..end` only
if hex:
let n = (s.len + 1) div 2
result = if s.len < 20: s else: s[0 .. 5] & ".." & s[s.len-8 .. ^1]
if not ignLen:
result &= "[" & (if 0 < n: "#" & $n else: "") & "]"
elif s.len <= 30:
result = s
else:
result = if (s.len and 1) == 0: s[0 ..< 8] else: "0" & s[0 ..< 7]
if not ignLen:
result &= "..(" & $s.len & ")"
result &= ".." & s[s.len-16 .. ^1]
proc stripZeros(a: string; toExp = false): string =
if 0 < a.len:
result = a.strip(leading=true, trailing=false, chars={'0'})
if result.len == 0:
result = "0"
elif result[^1] == '0' and toExp:
var n = 0
while result[^1] == '0':
let w = result.len
result.setLen(w-1)
n.inc
if n == 1:
result &= "0"
elif n == 2:
result &= "00"
elif 2 < n:
result &= "" & $n
proc vidCode(key: HashKey, db: AristoDbRef): uint64 =
if key.isValid:
block:
let vid = db.layerGetProofVidOrVoid key
if vid.isValid:
db.xMap.add(key, vid)
return vid.uint64
block:
let vids = db.xMap.getOrVoid key
if vids.isValid:
return vids.sortedKeys[0].uint64
# ---------------------
proc ppKeyOk(
db: AristoDbRef;
key: HashKey;
vid: VertexID;
): string =
if key.isValid and vid.isValid:
block:
let vid = db.layerGetProofVidOrVoid key
if vid.isValid:
db.xMap.add(key, vid)
return
block:
let vids = db.xMap.getOrVoid key
if vids.isValid:
if vid notin vids:
result = "(!)"
return
db.xMap.add(key,vid)
proc ppVid(vid: VertexID; pfx = true): string =
if pfx:
result = "$"
if vid.isValid:
result &= vid.toHex.stripZeros.toLowerAscii
else:
result &= "ø"
proc ppVids(vids: HashSet[VertexID]): string =
result = "{"
for vid in vids.toSeq.sorted:
result = "$"
if vid.isValid:
result &= vid.toHex.stripZeros.toLowerAscii
else:
result &= "ø"
func ppCodeHash(h: Hash256): string =
result = "¢"
if h == Hash256():
result &= "©"
elif h == EMPTY_CODE_HASH:
result &= "ø"
else:
result &= h.data.toHex.squeeze(hex=true,ignLen=true)
proc ppFid(fid: FilterID): string =
"@" & $fid
proc ppQid(qid: QueueID): string =
if not qid.isValid:
return "ø"
let
chn = qid.uint64 shr 62
qid = qid.uint64 and 0x3fff_ffff_ffff_ffffu64
result = "%"
if 0 < chn:
result &= $chn & ":"
if 0x0fff_ffff_ffff_ffffu64 <= qid.uint64:
block here:
if qid.uint64 == 0x0fff_ffff_ffff_ffffu64:
result &= "(2^60-1)"
elif qid.uint64 == 0x1fff_ffff_ffff_ffffu64:
result &= "(2^61-1)"
elif qid.uint64 == 0x3fff_ffff_ffff_ffffu64:
result &= "(2^62-1)"
else:
break here
return
result &= qid.toHex.stripZeros
proc ppVidList(vGen: openArray[VertexID]): string =
"[" & vGen.mapIt(it.ppVid).join(",") & "]"
proc ppKey(key: HashKey; db: AristoDbRef; pfx = true): string =
proc getVids(): tuple[vids: HashSet[VertexID], xMapTag: string] =
block:
let vid = db.layerGetProofVidOrVoid key
if vid.isValid:
db.xMap.add(key, vid)
return (@[vid].toHashSet, "")
block:
let vids = db.xMap.getOrVoid key
if vids.isValid:
return (vids, "+")
if pfx:
result = "£"
if key.to(Hash256) == Hash256():
result &= "©"
elif not key.isValid:
result &= "ø"
else:
let
tag = if key.len < 32: "[#" & $key.len & "]" else: ""
(vids, xMapTag) = getVids()
if vids.isValid:
if not pfx and 0 < tag.len:
result &= "$"
if 1 < vids.len: result &= "{"
result &= vids.sortedKeys.mapIt(it.ppVid(pfx=false) & xMapTag).join(",")
if 1 < vids.len: result &= "}"
result &= tag
return
result &= @key.toHex.squeeze(hex=true,ignLen=true) & tag
proc ppLeafTie(lty: LeafTie, db: AristoDbRef): string =
let pfx = lty.path.to(NibblesSeq)
"@" & lty.root.ppVid(pfx=false) & ":" &
($pfx).squeeze(hex=true,ignLen=(pfx.len==64))
proc ppPathPfx(pfx: NibblesSeq): string =
let s = $pfx
if s.len < 20: s else: s[0 .. 5] & ".." & s[s.len-8 .. ^1] & ":" & $s.len
proc ppNibble(n: int8): string =
if n < 0: "ø" elif n < 10: $n else: n.toHexLsb
proc ppPayload(p: PayloadRef, db: AristoDbRef): string =
if p.isNil:
result = "n/a"
else:
case p.pType:
of RawData:
result &= p.rawBlob.toHex.squeeze(hex=true)
of RlpData:
result &= "[#" & p.rlpBlob.toHex.squeeze(hex=true) & "]"
of AccountData:
result = "("
result &= ($p.account.nonce).stripZeros(toExp=true) & ","
result &= ($p.account.balance).stripZeros(toExp=true) & ","
result &= p.account.storageID.ppVid & ","
result &= p.account.codeHash.ppCodeHash & ")"
proc ppVtx(nd: VertexRef, db: AristoDbRef, vid: VertexID): string =
if not nd.isValid:
result = "ø"
else:
if not vid.isValid or vid in db.pPrf:
result = ["L(", "X(", "B("][nd.vType.ord]
elif db.layersGetKey(vid).isOk:
result = ["l(", "x(", "b("][nd.vType.ord]
else:
result = ["ł(", "€(", "þ("][nd.vType.ord]
case nd.vType:
of Leaf:
result &= nd.lPfx.ppPathPfx & "," & nd.lData.ppPayload(db)
of Extension:
result &= nd.ePfx.ppPathPfx & "," & nd.eVid.ppVid
of Branch:
for n in 0..15:
if nd.bVid[n].isValid:
result &= nd.bVid[n].ppVid
if n < 15:
result &= ","
result &= ")"
proc ppSTab(
sTab: Table[VertexID,VertexRef];
db: AristoDbRef;
indent = 4;
): string =
"{" & sTab.sortedKeys
.mapIt((it, sTab.getOrVoid it))
.mapIt("(" & it[0].ppVid & "," & it[1].ppVtx(db,it[0]) & ")")
.join(indent.toPfx(1)) & "}"
proc ppPPrf(pPrf: HashSet[VertexID]): string =
result = "{"
if 0 < pPrf.len:
let isr = IntervalSetRef[VertexID,uint64].init()
for w in pPrf:
doAssert isr.merge(w,w) == 1
for iv in isr.increasing():
result &= iv.minPt.ppVid
if 1 < iv.len:
result &= ".. " & iv.maxPt.ppVid
result &= ", "
result.setlen(result.len - 2)
#result &= pPrf.sortedKeys.mapIt(it.ppVid).join(",")
result &= "}"
proc ppXMap*(
db: AristoDbRef;
kMap: Table[VertexID,HashKey];
indent: int;
): string =
let pfx = indent.toPfx(1)
var
multi: HashSet[VertexID]
oops: HashSet[VertexID]
block:
var vids: HashSet[VertexID]
for w in db.xMap.values:
for v in w:
if v in vids:
oops.incl v
else:
vids.incl v
if 1 < w.len:
multi = multi + w
# Vertex IDs without forward mapping `kMap: VertexID -> HashKey`
var revOnly: Table[VertexID,HashKey]
for (key,vids) in db.xMap.pairs:
for vid in vids:
if not kMap.hasKey vid:
revOnly[vid] = key
let revKeys =revOnly.keys.toSeq.sorted
proc ppNtry(n: uint64): string =
var s = VertexID(n).ppVid
let key = kMap.getOrVoid VertexID(n)
if key.isValid:
let vids = db.xMap.getOrVoid key
if VertexID(n) notin vids or 1 < vids.len:
s = "(" & s & "," & key.ppKey(db)
elif key.len < 32:
s &= "[#" & $key.len & "]"
else:
s &= "£ø"
if s[0] == '(':
s &= ")"
s & ","
result = "{"
# Extra reverse lookups
if 0 < revKeys.len:
proc ppRevKey(vid: VertexID): string =
"(ø," & revOnly.getOrVoid(vid).ppKey(db) & ")"
var (i, r) = (0, revKeys[0])
result &= revKeys[0].ppRevKey
for n in 1 ..< revKeys.len:
let vid = revKeys[n]
r.inc
if r != vid:
if i+1 != n:
if i+1 == n-1:
result &= pfx
else:
result &= ".. "
result &= revKeys[n-1].ppRevKey
result &= pfx & vid.ppRevKey
(i, r) = (n, vid)
if i < revKeys.len - 1:
if i+1 != revKeys.len - 1:
result &= ".. "
else:
result &= pfx
result &= revKeys[^1].ppRevKey
# Forward lookups
var cache: seq[(uint64,uint64,bool)]
for vid in kMap.sortedKeys:
let key = kMap.getOrVoid vid
if key.isValid:
cache.add (vid.uint64, key.vidCode(db), vid in multi)
let vids = db.xMap.getOrVoid key
if (0 < vids.len and vid notin vids) or key.len < 32:
cache[^1][2] = true
else:
cache.add (vid.uint64, 0u64, true)
if 0 < cache.len:
var (i, r) = (0, cache[0])
if 0 < revKeys.len:
result &= pfx
result &= cache[i][0].ppNtry
for n in 1 ..< cache.len:
let
m = cache[n-1]
w = cache[n]
r = (r[0]+1, r[1]+1, r[2])
if r != w or w[2]:
if i+1 != n:
if i+1 == n-1:
result &= pfx
else:
result &= ".. "
result &= m[0].ppNtry
result &= pfx & w[0].ppNtry
(i, r) = (n, w)
if i < cache.len - 1:
if i+1 != cache.len - 1:
result &= ".. "
else:
result &= pfx
result &= cache[^1][0].ppNtry
result[^1] = '}'
else:
result &= "}"
proc ppFRpp(
fRpp: Table[HashKey,VertexID];
db: AristoDbRef;
indent = 4;
): string =
let
xMap = fRpp.pairs.toSeq.mapIt((it[1],it[0])).toTable
xStr = db.ppXMap(xMap, indent)
"<" & xStr[1..^2] & ">"
proc ppFilter(
fl: FilterRef;
db: AristoDbRef;
indent: int;
): string =
## Walk over filter tables
let
pfx = indent.toPfx
pfx1 = indent.toPfx(1)
pfx2 = indent.toPfx(2)
result = "<filter>"
if fl.isNil:
result &= " n/a"
return
result &= pfx & "fid=" & fl.fid.ppFid
result &= pfx & "src=" & fl.src.to(HashKey).ppKey(db)
result &= pfx & "trg=" & fl.trg.to(HashKey).ppKey(db)
result &= pfx & "vGen" & pfx1 & "[" &
fl.vGen.mapIt(it.ppVid).join(",") & "]"
result &= pfx & "sTab" & pfx1 & "{"
for n,vid in fl.sTab.sortedKeys:
let vtx = fl.sTab.getOrVoid vid
if 0 < n: result &= pfx2
result &= $(1+n) & "(" & vid.ppVid & "," & vtx.ppVtx(db,vid) & ")"
result &= "}" & pfx & "kMap" & pfx1 & "{"
for n,vid in fl.kMap.sortedKeys:
let key = fl.kMap.getOrVoid vid
if 0 < n: result &= pfx2
result &= $(1+n) & "(" & vid.ppVid & "," & key.ppKey(db) & ")"
result &= "}"
proc ppBe[T](be: T; db: AristoDbRef; indent: int): string =
## Walk over backend tables
let
pfx = indent.toPfx
pfx1 = indent.toPfx(1)
pfx2 = indent.toPfx(2)
result = "<" & $be.kind & ">"
var (dump,dataOk) = ("",false)
dump &= pfx & "vGen"
block:
let q = be.getIdgFn().get(otherwise = EmptyVidSeq).mapIt(it.ppVid)
dump &= "(" & $q.len & ")"
if 0 < q.len:
dataOk = true
dump &= pfx1
dump &= "[" & q.join(",") & "]"
block:
dump &= pfx & "sTab"
var (n, data) = (0, "")
for (vid,vtx) in be.walkVtx:
if 0 < n: data &= pfx2
n.inc
data &= $n & "(" & vid.ppVid & "," & vtx.ppVtx(db,vid) & ")"
dump &= "(" & $n & ")"
if 0 < n:
dataOk = true
dump &= pfx1
dump &= "{" & data & "}"
block:
dump &= pfx & "kMap"
var (n, data) = (0, "")
for (vid,key) in be.walkKey:
if 0 < n: data &= pfx2
n.inc
data &= $n & "(" & vid.ppVid & "," & key.ppKey(db) & ")"
dump &= "(" & $n & ")"
if 0 < n:
dataOk = true
dump &= pfx1
dump &= "{" & data & "}"
if dataOk:
result &= dump
else:
result &= "[]"
proc ppLayer(
layer: LayerRef;
db: AristoDbRef;
vGenOk: bool;
sTabOk: bool;
kMapOk: bool;
pPrfOk: bool;
fRppOk: bool;
indent = 4;
): string =
let
pfx1 = indent.toPfx(1)
pfx2 = indent.toPfx(2)
nOKs = vGenOk.ord + sTabOk.ord + kMapOk.ord + pPrfOk.ord + fRppOk.ord
tagOk = 1 < nOKs
var
pfy = ""
proc doPrefix(s: string; dataOk: bool): string =
var rc: string
if tagOk:
rc = pfy & s & (if dataOk: pfx2 else: "")
pfy = pfx1
else:
rc = pfy
pfy = pfx2
rc
if not layer.isNil:
if 2 < nOKs:
result &= "<layer>".doPrefix(false)
if vGenOk:
let
tLen = layer.final.vGen.len
info = "vGen(" & $tLen & ")"
result &= info.doPrefix(0 < tLen) & layer.final.vGen.ppVidList
if sTabOk:
let
tLen = layer.delta.sTab.len
info = "sTab(" & $tLen & ")"
result &= info.doPrefix(0 < tLen) & layer.delta.sTab.ppSTab(db,indent+2)
if kMapOk:
let
tLen = layer.delta.kMap.len
uLen = db.xMap.len
lInf = if tLen == uLen: $tLen else: $tLen & "," & $uLen
info = "kMap(" & lInf & ")"
result &= info.doPrefix(0 < tLen + uLen)
result &= db.ppXMap(layer.delta.kMap, indent+2)
if pPrfOk:
let
tLen = layer.final.pPrf.len
info = "pPrf(" & $tLen & ")"
result &= info.doPrefix(0 < tLen) & layer.final.pPrf.ppPPrf
if fRppOk:
let
tLen = layer.final.fRpp.len
info = "fRpp(" & $tLen & ")"
result &= info.doPrefix(0 < tLen) & layer.final.fRpp.ppFRpp(db,indent+2)
if 0 < nOKs:
let
info = if layer.final.dirty.len == 0: "clean"
else: "dirty{" & layer.final.dirty.ppVids & "}"
result &= info.doPrefix(false)
# ------------------------------------------------------------------------------
# Public functions
# ------------------------------------------------------------------------------
proc pp*(w: Hash256; codeHashOk = false): string =
if codeHashOk:
w.ppCodeHash
elif w == EMPTY_ROOT_HASH:
"EMPTY_ROOT_HASH"
elif w == Hash256():
"Hash256()"
else:
w.data.toHex.squeeze(hex=true,ignLen=true)
proc pp*(w: HashKey; sig: MerkleSignRef): string =
w.ppKey(sig.db)
proc pp*(w: HashKey; db = AristoDbRef(nil)): string =
w.ppKey(db.orDefault)
proc pp*(w: openArray[HashKey]; db = AristoDbRef(nil)): string =
"[" & @w.mapIt(it.ppKey(db.orDefault)).join(",") & "]"
proc pp*(lty: LeafTie, db = AristoDbRef(nil)): string =
lty.ppLeafTie(db.orDefault)
proc pp*(vid: VertexID): string =
vid.ppVid
proc pp*(qid: QueueID): string =
qid.ppQid
proc pp*(fid: FilterID): string =
fid.ppFid
proc pp*(a: openArray[(QueueID,QueueID)]): string =
"[" & a.toSeq.mapIt("(" & it[0].pp & "," & it[1].pp & ")").join(",") & "]"
proc pp*(a: QidAction): string =
($a.op).replace("Qid", "") & "(" & a.qid.pp & "," & a.xid.pp & ")"
proc pp*(a: openArray[QidAction]): string =
"[" & a.toSeq.mapIt(it.pp).join(",") & "]"
proc pp*(vGen: openArray[VertexID]): string =
vGen.ppVidList
proc pp*(p: PayloadRef, db = AristoDbRef(nil)): string =
p.ppPayload(db.orDefault)
proc pp*(nd: VertexRef, db = AristoDbRef(nil)): string =
nd.ppVtx(db.orDefault, VertexID(0))
proc pp*(nd: NodeRef; db: AristoDbRef): string =
if not nd.isValid:
result = "n/a"
elif nd.error != AristoError(0):
result = "(!" & $nd.error
else:
result = ["L(", "X(", "B("][nd.vType.ord]
case nd.vType:
of Leaf:
result &= $nd.lPfx.ppPathPfx & "," & nd.lData.pp(db)
of Extension:
result &= $nd.ePfx.ppPathPfx & "," & nd.eVid.ppVid & ","
result &= nd.key[0].ppKey(db)
result &= db.ppKeyOk(nd.key[0], nd.eVid)
of Branch:
result &= "["
for n in 0..15:
if nd.bVid[n].isValid or nd.key[n].isValid:
result &= nd.bVid[n].ppVid
result &= db.ppKeyOk(nd.key[n], nd.bVid[n]) & ","
result[^1] = ']'
result &= ",["
for n in 0..15:
if nd.bVid[n].isValid or nd.key[n].isValid:
result &= nd.key[n].ppKey(db)
result &= ","
result[^1] = ']'
result &= ")"
proc pp*[T](rc: Result[T,(VertexID,AristoError)]): string =
if rc.isOk:
result = "ok("
when T isnot void:
result &= ".."
result &= ")"
else:
result = "err((" & rc.error[0].pp & "," & $rc.error[1] & "))"
proc pp*(nd: NodeRef): string =
nd.pp(AristoDbRef(nil).orDefault)
proc pp*(
sTab: Table[VertexID,VertexRef];
db = AristoDbRef(nil);
indent = 4;
): string =
sTab.ppSTab(db.orDefault)
proc pp*(pPrf: HashSet[VertexID]): string =
pPrf.ppPPrf
proc pp*(leg: Leg; db = AristoDbRef(nil)): string =
let db = db.orDefault()
result = "(" & leg.wp.vid.ppVid & ","
block:
let key = db.layersGetKeyOrVoid leg.wp.vid
if not key.isValid:
result &= "ø"
elif leg.wp.vid notin db.xMap.getOrVoid key:
result &= key.ppKey(db)
result &= ","
if 0 <= leg.nibble:
result &= $leg.nibble.ppNibble
result &= "," & leg.wp.vtx.pp(db) & ")"
proc pp*(hike: Hike; db = AristoDbRef(nil); indent = 4): string =
let
db = db.orDefault()
pfx = indent.toPfx(1)
result = "["
if hike.legs.len == 0:
result &= "(" & hike.root.ppVid & ")"
else:
if hike.legs[0].wp.vid != hike.root:
result &= "(" & hike.root.ppVid & ")" & pfx
result &= hike.legs.mapIt(it.pp(db)).join(pfx)
result &= pfx & "(" & hike.tail.ppPathPfx & ")"
result &= "]"
proc pp*(kMap: Table[VertexID,HashKey]; indent = 4): string =
let db = AristoDbRef(nil).orDefault
"{" & kMap.sortedKeys
.mapIt((it, kMap.getOrVoid it))
.mapIt("(" & it[0].ppVid & "," & it[1].ppKey(db) & ")")
.join("," & indent.toPfx(1)) & "}"
proc pp*(kMap: Table[VertexID,HashKey]; db: AristoDbRef; indent = 4): string =
db.ppXMap(kMap, indent)
# ---------------------
proc pp*(tx: AristoTxRef): string =
result = "(uid=" & $tx.txUid & ",level=" & $tx.level
if not tx.parent.isNil:
result &= ", par=" & $tx.parent.txUid
result &= ")"
proc pp*(wp: VidVtxPair; db: AristoDbRef): string =
"(" & wp.vid.pp & "," & wp.vtx.pp(db) & ")"
proc pp*(
layer: LayerRef;
db: AristoDbRef;
indent = 4;
): string =
layer.ppLayer(
db, vGenOk=true, sTabOk=true, kMapOk=true, pPrfOk=true, fRppOk=true)
proc pp*(
layer: LayerRef;
db: AristoDbRef;
xTabOk: bool;
indent = 4;
): string =
layer.ppLayer(
db, vGenOk=true, sTabOk=xTabOk, kMapOk=true, pPrfOk=true, fRppOk=true)
proc pp*(
layer: LayerRef;
db: AristoDbRef;
xTabOk: bool;
kMapOk: bool;
other = false;
indent = 4;
): string =
layer.ppLayer(
db, vGenOk=other, sTabOk=xTabOk, kMapOk=kMapOk, pPrfOk=other, fRppOk=other)
proc pp*(
db: AristoDbRef;
xTabOk: bool;
indent = 4;
): string =
db.layersCc.pp(db, xTabOk=xTabOk, indent=indent)
proc pp*(
db: AristoDbRef;
xTabOk: bool;
kMapOk: bool;
other = false;
indent = 4;
): string =
db.layersCc.pp(db, xTabOk=xTabOk, kMapOk=kMapOk, other=other, indent=indent)
proc pp*(
filter: FilterRef;
db = AristoDbRef(nil);
indent = 4;
): string =
filter.ppFilter(db.orDefault(), indent)
proc pp*(
be: BackendRef;
db: AristoDbRef;
indent = 4;
): string =
result = db.roFilter.ppFilter(db, indent+1) & indent.toPfx
case be.kind:
of BackendMemory:
result &= be.MemBackendRef.ppBe(db, indent+1)
of BackendRocksDB:
result &= be.RdbBackendRef.ppBe(db, indent+1)
of BackendVoid:
result &= "<NoBackend>"
proc pp*(
db: AristoDbRef;
indent = 4;
backendOk = false;
filterOk = true;
topOk = true;
stackOk = true;
kMapOk = true;
): string =
if topOk:
result = db.layersCc.pp(
db, xTabOk=true, kMapOk=kMapOk, other=true, indent=indent)
let stackOnlyOk = stackOk and not (topOk or filterOk or backendOk)
if not stackOnlyOk:
result &= indent.toPfx & " level=" & $db.stack.len
if (stackOk and 0 < db.stack.len) or stackOnlyOk:
let layers = @[db.top] & db.stack.reversed
var lStr = ""
for n,w in layers:
let
m = layers.len - n - 1
l = db.layersCc m
a = w.delta.kMap.values.toSeq.filterIt(not it.isValid).len
c = l.delta.kMap.values.toSeq.filterIt(not it.isValid).len
result &= "(" & $(w.delta.kMap.len - a) & "," & $a & ")"
lStr &= " " & $m & "=(" & $(l.delta.kMap.len - c) & "," & $c & ")"
result &= " =>" & lStr
if backendOk:
result &= indent.toPfx & db.backend.pp(db)
elif filterOk:
result &= indent.toPfx & db.roFilter.ppFilter(db, indent+1)
proc pp*(sdb: MerkleSignRef; indent = 4): string =
"count=" & $sdb.count &
" root=" & sdb.root.pp &
" error=" & $sdb.error &
"\n db\n " & sdb.db.pp(indent=indent+1)
# ------------------------------------------------------------------------------
# End
# ------------------------------------------------------------------------------