nimbus-eth2/ncli/resttest.nim

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# beacon_chain
# Copyright (c) 2021-2022 Status Research & Development GmbH
# Licensed and distributed under either of
# * MIT license (license terms in the root directory or at https://opensource.org/licenses/MIT).
# * Apache v2 license (license terms in the root directory or at https://www.apache.org/licenses/LICENSE-2.0).
# at your option. This file may not be copied, modified, or distributed except according to those terms.
import std/[strutils, os, options, uri, json, tables]
import stew/[results, io2, base10]
import confutils, chronicles, httputils,
chronos, chronos/streams/[asyncstream, tlsstream]
const
RestTesterName* = "Ethereum2 REST API Tester"
RestTesterMajor*: int = 0
RestTesterMinor*: int = 0
RestTesterPatch*: int = 1
RestTesterVersion* = $RestTesterMajor & "." & $RestTesterMinor & "." &
$RestTesterPatch
RestTesterIdent* = "RestTester/$1 ($2/$3)" % [RestTesterVersion,
hostCPU, hostOS]
RestTesterCopyright* = "Copyright(C) 2021" &
" Status Research & Development GmbH"
RestTesterHeader* = RestTesterName & ", Version " & RestTesterVersion &
" [" & hostOS & ": " & hostCPU & "]\r\n" &
RestTesterCopyright & "\r\n"
HeadersMark = @[0x0D'u8, 0x0A'u8, 0x0D'u8, 0x0A'u8]
type
StatusOperatorKind* {.pure.} = enum
Equals, OneOf, Inside, InsideOrEq
HeaderOperatorKind {.pure.} = enum
Exists, NotExists, Equals, OneOf, Substr
BodyOperatorKind {.pure.} = enum
Exists, JsonStructCmpS, JsonStructCmpNS
StatusExpect = object
kind: StatusOperatorKind
value: seq[int]
HeaderExpect = object
kind: HeaderOperatorKind
key: string
value: seq[string]
HeadersExpect = object
headers: seq[HeaderExpect]
BodyItemExpect = object
kind: BodyOperatorKind
startPath: seq[string]
value: JsonNode
BodyExpect = object
items: seq[BodyItemExpect]
TestResultKind* {.pure.} = enum
RuleError,
NoSupportError,
WriteRequestError,
ReadResponseHeadersError,
ReadResponseBodyError,
RequestError,
ResponseError,
ValidationError,
ValidationSuccess
TestResultFlag* {.pure.} = enum
ResetConnection, StatusValidationFailure,
HeadersValidationFailure, BodyValidationFailure
TestResult* = object
kind: TestResultKind
message: string
flags: set[TestResultFlag]
times: array[4, Duration]
TestCase* = object
index: int
rule: JsonNode
TestCaseResult* = object
index: int
data: TestResult
HttpConnectionType* {.pure.} = enum
Nonsecure, Secure
HttpConnectionRef* = ref object
case kind*: HttpConnectionType
of HttpConnectionType.Nonsecure:
discard
of HttpConnectionType.Secure:
stream: TLSAsyncStream
treader: AsyncStreamReader
twriter: AsyncStreamWriter
transp: StreamTransport
reader*: AsyncStreamReader
writer*: AsyncStreamWriter
RestTestError* = object of CatchableError
ConnectionError* = object of RestTestError
RestTesterConf* = object
delayTime* {.
defaultValue: 0
desc: "Time (in seconds) to wait before initial connection could be " &
"established"
abbr: "d"
name: "delay" .}: int
attemptTimeout* {.
defaultValue: 60
desc: "Time (in seconds) during which to continue trying to establish " &
"connection with remote server"
name: "timeout" .}: int
noVerifyCert* {.
defaultValue: false
desc: "Skip remote server SSL/TLS certificate validation"
name: "no-verify-host" .}: bool
noVerifyName* {.
defaultValue: false
desc: "Skep remote server name verification"
name: "no-verify-name" .}: bool
rulesFilename* {.
defaultValue: "resttest-rules.json",
desc: "JSON formatted tests file"
name: "rules-file" .}: string
topicsFilter* {.
desc: "Topics which should be included in testing"
name: "topic",
abbr: "t" .}: seq[string]
skipTopicsFilter* {.
desc: "Topics which should be skipped in testing"
name: "skip-topic",
abbr: "s" .}: seq[string]
connectionsCount* {.
defaultValue: 1
desc: "Number of concurrent connections to remote server"
name: "connections"
abbr: "c" .}: int
url* {.
argument,
desc: "Address of remote REST server to test"
.}: string
proc getUri(conf: RestTesterConf): Result[Uri, cstring] =
var res = parseUri(conf.url)
if res.scheme notin ["http", "https"]:
return err("URL scheme should be http or https")
if len(res.hostname) == 0:
return err("URL missing hostname")
if len(res.query) != 0:
return err("URL should not contain query parameters")
if len(res.anchor) != 0:
return err("URL should not contain anchor parameter")
# TODO: Disable this check when at least BASIC AUTH will be implemented.
if len(res.username) != 0 or len(res.password) != 0:
return err("URL should not contain username:password")
if len(res.port) == 0:
if res.scheme == "http":
res.port = "80"
else:
res.port = "443"
ok(res)
proc getAddress(uri: Uri): Result[TransportAddress, cstring] =
let txtaddr = uri.hostname & ":" & uri.port
let numeric =
try:
initTAddress(txtaddr)
except TransportAddressError:
# We ignore errors here because `hostname` address could be non-numeric.
TransportAddress()
if numeric.family in {AddressFamily.IPv4, AddressFamily.IPv6}:
ok(numeric)
else:
var default: seq[TransportAddress]
let v4addresses =
try:
resolveTAddress(txtaddr, AddressFamily.IPv4)
except TransportAddressError:
# We ignore errors here because `hostname` could be resolved to IPv6.
default
if len(v4addresses) > 0:
ok(v4addresses[0])
else:
let v6addresses =
try:
resolveTAddress(txtaddr, AddressFamily.IPv6)
except TransportAddressError:
return err("Unable to resolve hostname")
if len(v6addresses) == 0:
return err("Unable to resolve hostname")
ok(v6addresses[0])
proc getTLSFlags(conf: RestTesterConf): set[TLSFlags] =
var res: set[TLSFlags]
if conf.noVerifyName:
res.incl(TLSFlags.NoVerifyServerName)
if conf.noVerifyCert:
res.incl(TLSFlags.NoVerifyHost)
res
proc checkTopic(conf: RestTesterConf, rule: JsonNode): bool =
var default: seq[string]
if (len(conf.topicsFilter) == 0) and (len(conf.skipTopicsFilter) == 0):
true
else:
let topics =
block:
let jtopics = rule.getOrDefault("topics")
if isNil(jtopics):
default
else:
case jtopics.kind
of JString:
@[jtopics.str]
of JArray:
if len(jtopics.elems) == 0:
default
else:
var res: seq[string]
for jitem in jtopics.elems:
case jitem.kind:
of JString:
res.add(jitem.str)
else:
continue
res
else:
default
if len(conf.topicsFilter) == 0:
if len(topics) == 0:
true
else:
for item in topics:
if item in conf.skipTopicsFilter:
return false
true
else:
for item in topics:
if item in conf.skipTopicsFilter:
return false
for item in topics:
if item in conf.topicsFilter:
return true
false
proc getTestRules(conf: RestTesterConf): Result[seq[JsonNode], cstring] =
let data =
block:
let res = io2.readAllChars(conf.rulesFilename)
if res.isErr():
fatal "Could not read rules file", error_msg = ioErrorMsg(res.error()),
error_os_code = $res.error(), filename = conf.rulesFilename
return err("Unable to read rules file")
res.get()
let node =
try:
parseJson(data)
except CatchableError as exc:
fatal "JSON processing error while reading rules file",
error_msg = exc.msg, filename = conf.rulesFilename
return err("Unable to parse json")
except Exception as exc:
raiseAssert exc.msg
let elems = node.getElems()
if len(elems) == 0:
fatal "There empty array of rules found in file",
filename = conf.rulesFilename
return err("Incorrect json")
var res: seq[JsonNode]
for item in elems:
if conf.checkTopic(item):
res.add(item)
notice "Rules file loaded", total_rules_count = len(elems),
rules_count = len(res)
ok(res)
proc openConnection*(address: TransportAddress, uri: Uri,
flags: set[TLSFlags]): Future[HttpConnectionRef] {.async.} =
let transp =
try:
await connect(address)
except TransportOsError as exc:
raise newException(ConnectionError, "Unable to establish connection")
let treader = newAsyncStreamReader(transp)
let twriter = newAsyncStreamWriter(transp)
if uri.scheme == "http":
return HttpConnectionRef(
kind: HttpConnectionType.Nonsecure,
transp: transp, reader: treader, writer: twriter
)
else:
let tlsstream = newTLSClientAsyncStream(treader, twriter, uri.hostname,
flags = flags)
return HttpConnectionRef(
kind: HttpConnectionType.Secure,
transp: transp, reader: tlsstream.reader, writer: tlsstream.writer,
treader: treader, twriter: twriter
)
proc closeWait*(conn: HttpConnectionRef): Future[void] {.async.} =
case conn.kind
of HttpConnectionType.Nonsecure:
await allFutures(conn.reader.closeWait(), conn.writer.closeWait())
await conn.transp.closeWait()
of HttpConnectionType.Secure:
await allFutures(conn.reader.closeWait(), conn.writer.closeWait())
await allFutures(conn.treader.closeWait(), conn.twriter.closeWait())
await conn.transp.closeWait()
proc checkConnection*(conf: RestTesterConf, uri: Uri): Future[void] {.async.} =
let timeFut = sleepAsync(conf.attemptTimeout.seconds)
var sleepTime = 1000.milliseconds
let hostname = uri.hostname & ":" & uri.port
while true:
if timeFut.finished():
fatal "Connection with remote host could not be established in time",
uri = uri.hostname, time = $conf.attemptTimeout.seconds
raise newException(ConnectionError, "Unable to establish connection")
let address =
block:
let res = uri.getAddress()
if res.isErr():
fatal "Unable to resolve remote host address", host = hostname
raise newException(ConnectionError, "Unable to resolve address")
else:
res.get()
let conn =
try:
await openConnection(address, uri, conf.getTLSFlags())
except ConnectionError:
notice "Unable to establish connection with remote host",
host = hostname,
sleep_until_next_attempt = $(((sleepTime * 3) div 2).seconds)
nil
if not(isNil(conn)):
notice "Connection with remote host established", host = hostname
await closeWait(conn)
return
if timeFut.finished():
fatal "Connection with remote host could not be established in time",
uri = hostname, time = $conf.attemptTimeout.seconds
raise newException(ConnectionError, "Unable to establish connection")
await sleepAsync(sleepTime)
# Increasing sleep time by 50%.
sleepTime = (sleepTime * 3) div 2
proc compact(v: string, size: int): string =
let delim = "..."
doAssert(size >= (len(delim) + 2))
if len(v) <= size:
v
else:
var length1 = (size - len(delim)) div 2
var length2 = size - length1 - len(delim)
if length1 < length2:
swap(length1, length2)
v[0 .. (length1 - 1)] & delim & v[len(v) - length2 .. ^1]
proc getTestName(rule: JsonNode): string =
let request = rule.getOrDefault("request")
if isNil(request):
"[incorrect]"
else:
let juri = request.getOrDefault("url")
if isNil(juri):
"[incorrect]"
else:
compact(juri.str, 40)
proc prepareRequest(uri: Uri,
rule: JsonNode): Result[tuple[url: string, request: string],
cstring] =
let request = rule.getOrDefault("request")
if isNil(request):
return err("Missing `request` field")
let meth =
block:
let jmethod = request.getOrDefault("method")
if isNil(jmethod):
"GET"
else:
if jmethod.kind != JString:
return err("Field `method` should be string")
jmethod.str
let requestUri =
block:
let juri = request.getOrDefault("url")
if isNil(juri):
return err("Missing requests' `url`")
else:
if juri.kind != JString:
return err("Field `url` should be string")
juri.str
let requestHeaders =
block:
var default: seq[tuple[key: string, value: string]]
let jheaders = request.getOrDefault("headers")
if isNil(jheaders):
default
else:
var res: seq[tuple[key: string, value: string]]
if jheaders.kind != JObject:
return err("Field `headers` should be an object")
for key, value in jheaders.fields:
if value.kind != JString:
return err("Field `headers` element should be only strings")
res.add((key, value.str))
res
let (requestBodyType, requestBodyData) =
block:
let jbody = request.getOrDefault("body")
if isNil(jbody):
("", "")
else:
if jbody.kind != JObject:
return err("Field `body` should be object")
let btype = jbody.getOrDefault("content-type")
if isNil(btype):
return err("Field `body.content-type` must be present")
if btype.kind != JString:
return err("Field `body.content-type` should be string")
let bdata = jbody.getOrDefault("data")
if isNil(bdata):
return err("Field `body.data` must be present")
if bdata.kind != JString:
return err("Field `body.data` should be string")
(btype.str, bdata.str)
var res = meth & " " & uri.path & requestUri & " HTTP/1.1\r\n"
res.add("Content-Length: " & Base10.toString(uint64(len(requestBodyData))) &
"\r\n")
if len(requestBodyType) > 0:
res.add("Content-Type: " & requestBodyType & "\r\n")
for item in requestHeaders:
res.add(item.key & ": " & item.value & "\r\n")
let (hostPresent, datePresent) =
block:
var flag1 = false
var flag2 = false
for item in requestHeaders:
if cmpIgnoreCase(item.key, "host") == 0:
flag1 = true
elif cmpIgnoreCase(item.key, "date") == 0:
flag2 = true
(flag1, flag2)
if not(hostPresent):
res.add("Host: " & $uri.hostname & "\r\n")
if not(datePresent):
res.add("Date: " & httpDate() & "\r\n")
res.add("\r\n")
if len(requestBodyData) > 0:
res.add(requestBodyData)
ok((uri.path & requestUri, res))
proc getResponseStatusExpect(rule: JsonNode): Result[StatusExpect, cstring] =
let response = rule.getOrDefault("response")
if isNil(response):
return err("Missing `response` field")
let jstatus = response.getOrDefault("status")
if isNil(jstatus):
return err("Missing `response.status` field")
let value =
block:
var res: seq[int]
let jvalue = jstatus.getOrDefault("value")
if isNil(jvalue):
return err("Field `status.value` should be present")
case jvalue.kind
of JString:
let nres = Base10.decode(uint16, jvalue.str)
if nres.isErr():
return err("Field `status.value` has incorrect value")
res.add(int(nres.get()))
of JInt:
if jvalue.num < 0 or jvalue.num >= 1000:
return err("Field `status.value` has incorrect value")
res.add(int(jvalue.num))
of JArray:
if len(jvalue.elems) == 0:
return err("Field `status.value` has an empty array")
for jitem in jvalue.elems:
let iitem =
case jitem.kind
of JString:
let nres = Base10.decode(uint16, jitem.str)
if nres.isErr():
return err("Field `status.value` element has incorrect value")
int(nres.get())
of JInt:
if jitem.num < 0 or jitem.num >= 1000:
return err("Field `status.value` element has incorrect value")
int(jitem.num)
else:
return err("Field `status.value` has incorrect elements")
res.add(iitem)
else:
return err("Field `status.value` should be an array, string or integer")
res
let kind =
block:
let joperator = jstatus.getOrDefault("operator")
if isNil(joperator):
if len(value) > 1:
StatusOperatorKind.OneOf
else:
StatusOperatorKind.Equals
else:
if joperator.kind != JString:
return err("Field `status.operator` should be string")
case toLowerAscii(joperator.str)
of "equals":
StatusOperatorKind.Equals
of "oneof":
StatusOperatorKind.OneOf
of "insideoreq":
StatusOperatorKind.InsideOrEq
of "inside":
StatusOperatorKind.Inside
else:
return err("Field `status.operator` has unknown or empty value")
ok(StatusExpect(kind: kind, value: value))
proc getResponseHeadersExpect(rule: JsonNode): Result[HeadersExpect, cstring] =
let response = rule.getOrDefault("response")
if isNil(response):
return err("Missing `response` field")
let jheaders = response.getOrDefault("headers")
if isNil(jheaders):
return ok(HeadersExpect())
if jheaders.kind != JArray:
return err("`response.headers` should be array")
if len(jheaders.elems) == 0:
return ok(HeadersExpect())
var res: seq[HeaderExpect]
for jitem in jheaders.elems:
if jitem.kind != JObject:
return err("`response.headers` elements should be objects")
let jkey = jitem.getOrDefault("key")
if isNil(jkey) or jkey.kind != JString:
continue
let key = jkey.str
let operator =
block:
let jop = jitem.getOrDefault("operator")
if isNil(jop) or jop.kind != JString:
HeaderOperatorKind.Exists
else:
case toLowerAscii(jop.str)
of "exists":
HeaderOperatorKind.Exists
of "notexists":
HeaderOperatorKind.NotExists
of "equals":
HeaderOperatorKind.Equals
of "oneof":
HeaderOperatorKind.OneOf
of "substr":
HeaderOperatorKind.Substr
else:
return err("`response.header` element has incorrect operator")
let value =
block:
var vres: seq[string]
let jvalue = jitem.getOrDefault("value")
if not isnil(jvalue):
case jvalue.kind
of JArray:
if len(jvalue.elems) == 0:
return err("`response.header` element has an empty array value")
for jelem in jvalue.elems:
case jelem.kind
of JString:
vres.add(jelem.str)
of JInt:
vres.add(Base10.toString(uint64(jvalue.num)))
else:
return err("`response.header` element has incorrect value")
of JString:
vres.add(jvalue.str)
of JInt:
vres.add(Base10.toString(uint64(jvalue.num)))
else:
return err("`response.header` element has incorrect value")
vres
res.add(HeaderExpect(key: key, value: value, kind: operator))
ok(HeadersExpect(headers: res))
proc getResponseBodyExpect(rule: JsonNode): Result[BodyExpect, cstring] =
let response = rule.getOrDefault("response")
if isNil(response):
return err("Missing `response` field")
let jbody = response.getOrDefault("body")
if isNil(jbody):
return ok(BodyExpect())
if jbody.kind != JArray:
return err("`response.body` should be array")
if len(jbody.elems) == 0:
return ok(BodyExpect())
var res: seq[BodyItemExpect]
for jitem in jbody.elems:
if jitem.kind != JObject:
return err("`response.body` elements should be objects")
let operator =
block:
let jop = jitem.getOrDefault("operator")
if isNil(jop) or jop.kind != JString:
BodyOperatorKind.Exists
else:
case toLowerAscii(jop.str)
of "exists":
BodyOperatorKind.Exists
of "jstructcmps":
BodyOperatorKind.JsonStructCmpS
of "jstructcmpns":
BodyOperatorKind.JsonStructCmpNS
else:
return err("`response.body` element has incorrect operator")
case operator
of BodyOperatorKind.Exists:
res.add(BodyItemExpect(kind: operator))
of BodyOperatorKind.JsonStructCmpS, BodyOperatorKind.JsonStructCmpNS:
let start =
block:
var default: seq[string]
var rstart: seq[string]
let jstart = jitem.getOrDefault("start")
if isNil(jstart):
default
else:
case jstart.kind
of JString:
rstart.add(jstart.str)
of JArray:
if len(jstart.elems) != 0:
for elem in jstart.elems:
case elem.kind
of JString:
rstart.add(elem.str)
else:
return err("`response.body` element has incorrect `start`" &
" option")
else:
return err("`response.body` element has incorrect `start` option")
rstart
let body =
block:
let jvalue = jitem.getOrDefault("value")
if jvalue.isNil():
return err("`response.body` element has incorrect `value` option")
jvalue
res.add(BodyItemExpect(kind: operator, startPath: start, value: body))
ok(BodyExpect(items: res))
proc validateStatus(status: int, expect: StatusExpect): bool =
case expect.kind
of StatusOperatorKind.Equals:
expect.value[0] == status
of StatusOperatorKind.OneOf:
status in expect.value
of StatusOperatorKind.InsideOrEq:
if len(expect.value) < 2:
status >= expect.value[0]
else:
status >= expect.value[0] and status <= expect.value[1]
of StatusOperatorKind.Inside:
if len(expect.value) < 2:
status > expect.value[0]
else:
status > expect.value[0] and status < expect.value[1]
proc validateHeaders(resp: HttpResponseHeader, expect: HeadersExpect): bool =
if len(expect.headers) == 0:
true
else:
for item in expect.headers:
case item.kind
of HeaderOperatorKind.Exists:
if item.key notin resp:
return false
of HeaderOperatorKind.NotExists:
if item.key in resp:
return false
of HeaderOperatorKind.Equals:
if item.key notin resp:
return false
let v = resp[item.key]
if cmpIgnoreCase(v, item.value[0]) != 0:
return false
of HeaderOperatorKind.OneOf:
if item.key notin resp:
return false
let v = resp[item.key]
var r = false
for citem in item.value:
if cmpIgnoreCase(citem, v) == 0:
r = true
break
if not(r):
return false
of HeaderOperatorKind.Substr:
if item.key notin resp:
return false
let v = resp[item.key]
if strutils.find(v, item.value[0]) < 0:
return false
true
proc jsonBody(body: openArray[byte]): Result[JsonNode, cstring] =
var sbody = cast[string](@body)
let res =
try:
parseJson(sbody)
except CatchableError as exc:
return err("Unable to parse json")
except Exception as exc:
raiseAssert exc.msg
ok(res)
proc getPath(jobj: JsonNode, path: seq[string]): Result[JsonNode, cstring] =
var jnode = jobj
for item in path:
let jitem = jnode.getOrDefault(item)
if isNil(jitem):
return err("Path not found")
jnode = jitem
ok(jnode)
proc structCmp(j1, j2: JsonNode, strict: bool): bool =
if j1.kind != j2.kind:
return false
case j1.kind
of JArray:
# In case of array we checking first element of `expect` with all the
# elements in `result`.
if len(j1.elems) == 0:
true
else:
if len(j2.elems) == 0:
false
else:
for item in j1.elems:
if not(structCmp(item, j2.elems[0], strict)):
return false
true
of JObject:
if strict:
if len(j1.fields) != len(j2.fields):
return false
for key, value in j1.fields:
let j2node = j2.getOrDefault(key)
if isNil(j2node):
return false
if not(structCmp(value, j2node, strict)):
return false
true
else:
for key, value in j2.fields:
let j1node = j1.getOrDefault(key)
if isNil(j1node):
return false
if not(structCmp(j1node, value, strict)):
return false
true
else:
true
proc validateBody(body: openArray[byte], expect: BodyExpect): bool =
if len(expect.items) == 0:
true
else:
for item in expect.items:
case item.kind
of BodyOperatorKind.Exists:
if len(body) == 0:
return false
of BodyOperatorKind.JsonStructCmpS, BodyOperatorKind.JsonStructCmpNS:
let jbody =
block:
let jres = jsonBody(body)
if jres.isErr():
return false
let jnode = jres.get()
let jpathres = jnode.getPath(item.startPath)
if jpathres.isErr():
return false
jpathres.get()
let strict =
if item.kind == BodyOperatorKind.JsonStructCmpS:
true
else:
false
if not(structCmp(jbody, item.value, strict)):
return false
true
proc failure(t: typedesc[TestResult], code: TestResultKind,
message: string = "",
flags: set[TestResultFlag] = {},
times: array[4, Duration]): TestResult =
TestResult(kind: code, message: message, flags: flags, times: times)
proc success(t: typedesc[TestResult], times: array[4, Duration]): TestResult =
TestResult(kind: TestResultKind.ValidationSuccess, times: times)
proc runTest(conn: HttpConnectionRef, uri: Uri,
rule: JsonNode, workerIndex: int,
testIndex: int): Future[TestResult] {.async.} =
var times: array[4, Duration]
let testName = rule.getTestName()
let testPath = uri.path & rule.getTestName()
debug "Running test", name = testName, test_index = testIndex,
worker_index = workerIndex
let (requestUri, request) =
block:
let res = prepareRequest(uri, rule)
if res.isErr():
return TestResult.failure(TestResultKind.RuleError,
"Could not read request data: " &
$res.error(), times = times)
res.get()
let statusExpect =
block:
let res = getResponseStatusExpect(rule)
if res.isErr():
return TestResult.failure(TestResultKind.RuleError,
"Could not read response status data: " &
$res.error(), times = times)
res.get()
let headersExpect =
block:
let res = getResponseHeadersExpect(rule)
if res.isErr():
return TestResult.failure(TestResultKind.RuleError,
"Could not read response headers data: " &
$res.error(), times = times)
res.get()
let bodyExpect =
block:
let res = getResponseBodyExpect(rule)
if res.isErr():
return TestResult.failure(TestResultKind.RuleError,
"Could not read response body data: " &
$res.error(), times = times)
res.get()
let testSm = Moment.now()
var headersBuf = newSeq[byte](8192)
var dataBuf = newSeq[byte](8192)
try:
let sm = Moment.now()
await conn.writer.write(request)
times[0] = Moment.now() - sm
debug "Request sent", name = testName,
elapsed = $times[0], test_index = testIndex,
worker_index = workerIndex
except AsyncStreamError:
return TestResult.failure(TestResultKind.WriteRequestError,
"Unable to send request", {ResetConnection},
times)
let rlen =
try:
let sm = Moment.now()
let res = await conn.reader.readUntil(addr headersBuf[0],
len(headersBuf), HeadersMark)
times[1] = Moment.now() - sm
debug "Response headers received", name = testName,
length = res, elapsed = $times[1],
test_index = testIndex,
worker_index = workerIndex
res
except AsyncStreamError:
return TestResult.failure(TestResultKind.ReadResponseHeadersError,
"Unable to read response headers",
{ResetConnection}, times)
headersBuf.setLen(rlen)
let resp = parseResponse(headersBuf, true)
if not(resp.success()):
return TestResult.failure(TestResultKind.ResponseError,
"Response headers could not be parsed",
{ResetConnection}, times)
if "Content-Length" notin resp:
return TestResult.failure(TestResultKind.ResponseError,
"Content-Length header must be present",
{ResetConnection}, times)
let contentLength = resp.contentLength()
if contentLength < 0:
return TestResult.failure(TestResultKind.ResponseError,
"Content-Length value is incorrect",
{ResetConnection}, times)
else:
# TODO: We are not checking Content-Length size here
if contentLength > 0:
dataBuf.setLen(contentLength)
try:
let sm = Moment.now()
await conn.reader.readExactly(addr dataBuf[0], len(dataBuf))
times[2] = Moment.now() - sm
debug "Response body received", length = len(dataBuf),
name = testName,
elapsed = $times[2], test_index = testIndex,
worker_index = workerIndex
except AsyncStreamError:
return TestResult.failure(TestResultKind.ReadResponseBodyError,
"Unable to read response body",
{ResetConnection}, times)
else:
debug "Response body is missing", name = testName, path = testPath
dataBuf.setLen(0)
let res1 = validateStatus(resp.code, statusExpect)
let res2 = validateHeaders(resp, headersExpect)
let res3 = validateBody(dataBuf, bodyExpect)
times[3] = Moment.now() - testSm
if res1 and res2 and res3:
return TestResult.success(times)
else:
let flags =
block:
var res: set[TestResultFlag]
if not(res1):
res.incl(StatusValidationFailure)
if not(res2):
res.incl(HeadersValidationFailure)
if not(res3):
res.incl(BodyValidationFailure)
res
return TestResult.failure(TestResultKind.ValidationError, times = times,
flags = flags)
proc workerLoop(address: TransportAddress, uri: Uri, worker: int,
conf: RestTesterConf,
inputQueue: AsyncQueue[TestCase],
outputQueue: AsyncQueue[TestCaseResult]) {.async.} =
let hostname = uri.hostname & ":" & uri.port
var conn: HttpConnectionRef = nil
var index: int
debug "Test worker has been started", worker = worker
while true:
try:
let test = await inputQueue.popFirst()
index = test.index
if isNil(conn):
conn = await openConnection(address, uri, conf.getTLSFlags())
debug "Opened new connection with remote host", address = $address,
worker = worker
let testRes = await runTest(conn, uri, test.rule, worker, test.index)
let caseRes = TestCaseResult(index: test.index, data: testRes)
await outputQueue.addLast(caseRes)
if ResetConnection in testRes.flags:
await conn.closeWait()
conn = nil
index = 0
except CancelledError:
if not(isNil(conn)):
await conn.closeWait()
conn = nil
notice "Got signal, exiting", worker = worker
return
except ConnectionError:
warn "Unable to establish connection with remote host", host = hostname,
worker = worker
return
except CatchableError as exc:
warn "Unexpected exception while running test test run", host = hostname,
error_name = exc.name, error_msg = exc.msg, index = index,
worker = worker
return
proc startTests(conf: RestTesterConf, uri: Uri,
rules: seq[JsonNode]): Future[int] {.async.} =
var workers = newSeq[Future[void]](conf.connectionsCount)
var inputQueue = newAsyncQueue[TestCase](len(rules))
var outputQueue = newAsyncQueue[TestCaseResult](conf.connectionsCount)
var results = newSeq[TestResult](len(rules))
var restarts = 0
let address =
block:
let res = uri.getAddress()
if res.isErr():
fatal "Unable to resolve remote host address, exiting",
uri = $uri
return 1
res.get()
for index, item in rules:
inputQueue.addLastNoWait(TestCase(index: index, rule: item))
for i in 0 ..< len(workers):
workers[i] = workerLoop(address, uri, i, conf, inputQueue, outputQueue)
block:
var pending = newSeq[FutureBase](len(workers) + 1)
for i in 0 ..< len(workers):
pending[i] = workers[i]
var fut: Future[TestCaseResult]
for i in 0 ..< len(rules):
fut = outputQueue.popFirst()
pending[^1] = fut
discard await race(pending)
for i in 0 ..< len(pending):
if pending[i].finished():
if i < len(workers):
warn "Test worker quits unexpectedly", index = i, restarts = restarts
return 1
else:
if pending[i].failed() or pending[i].cancelled():
warn "Unexpected result from queue"
return 1
let tcaseRes = fut.read()
results[tcaseRes.index] = tcaseRes.data
notice "Got test result", name = rules[tcaseRes.index].getTestName(),
index = tcaseRes.index,
value = tcaseRes.data.kind
pending[i] = nil
debug "Stopping workers"
# Stopping workers
block:
var pending = newSeq[Future[void]]()
for worker in workers:
if not(worker.finished()):
pending.add(worker.cancelAndWait())
await allFutures(pending)
var errCode = 0
let headerLine = "\r\n" &
'-'.repeat(45 + 20 + 7 + 20 + 20) & "\r\n" &
alignLeft("TEST", 45) & alignLeft("STATUS", 20) &
alignLeft("ERROR", 7) & alignLeft("ELAPSED", 20) &
alignLeft("MESSAGE", 20) & "\r\n" &
'-'.repeat(45 + 20 + 7 + 20 + 20)
echo headerLine
for index, item in rules:
let errorFlag =
block:
var tmp = "---"
if StatusValidationFailure in results[index].flags:
tmp[0] = 'S'
if HeadersValidationFailure in results[index].flags:
tmp[1] = 'H'
if BodyValidationFailure in results[index].flags:
tmp[2] = 'R'
tmp
let line =
alignLeft(item.getTestName() & "#" & $index, 45) &
alignLeft($results[index].kind, 20) &
alignLeft(errorFlag, 7) &
alignLeft($results[index].times[3], 20) &
alignLeft($results[index].message, 20)
echo line
if results[index].kind != ValidationSuccess:
errCode = 1
return errCode
proc run(conf: RestTesterConf): int =
let uri =
block:
let res = conf.getUri()
if res.isErr():
fatal "Incomplete/incorrect URL", url = conf.url,
error_msg = $res.error()
return 1
res.get()
let jnodes =
block:
let res = conf.getTestRules()
if res.isErr():
fatal "Incomplete/incorrect rules file", file = conf.rulesFilename
return 1
res.get()
notice "Waiting for initial connection attempt", time = conf.delayTime
try:
waitFor(sleepAsync(conf.delayTime.seconds))
except CatchableError as exc:
fatal "Unexpected test failure", error_name = exc.name, error_msg = exc.msg
return 1
notice "Exploring remote server hostname",
hostname = uri.hostname & ":" & uri.port
try:
waitFor(checkConnection(conf, uri))
except ConnectionError as exc:
return 1
try:
return waitFor(startTests(conf, uri, jnodes))
except CatchableError as exc:
fatal "Unexpected test failure", error_name = exc.name, error_msg = exc.msg
return 1
when isMainModule:
echo RestTesterHeader
var conf = RestTesterConf.load(version = RestTesterVersion)
quit run(conf)