# # Chronos HTTP/S client # (c) Copyright 2021-Present # Status Research & Development GmbH # # Licensed under either of # Apache License, version 2.0, (LICENSE-APACHEv2) # MIT license (LICENSE-MIT) import std/[uri, tables, strutils, sequtils] import stew/[results, base10, base64], httputils import ../../asyncloop, ../../asyncsync import ../../streams/[asyncstream, tlsstream, chunkstream, boundstream] import httptable, httpcommon, httpagent, httpbodyrw, multipart export results, asyncloop, asyncsync, asyncstream, tlsstream, chunkstream, boundstream, httptable, httpcommon, httpagent, httpbodyrw, multipart, httputils const HttpMaxHeadersSize* = 8192 ## Maximum size of HTTP headers in octets HttpConnectTimeout* = 12.seconds ## Timeout for connecting to host (12 sec) HttpHeadersTimeout* = 120.seconds ## Timeout for receiving response headers (120 sec) HttpMaxRedirections* = 10 ## Maximum number of Location redirections. HttpClientConnectionTrackerName* = "httpclient.connection" ## HttpClient connection leaks tracker name HttpClientRequestTrackerName* = "httpclient.request" ## HttpClient request leaks tracker name HttpClientResponseTrackerName* = "httpclient.response" ## HttpClient response leaks tracker name type HttpClientConnectionState* {.pure.} = enum Closed ## Connection has been closed Closing, ## Connection is closing Resolving, ## Resolving remote hostname Connecting, ## Connecting to remote server Ready, ## Connected to remote server RequestHeadersSending, ## Sending request headers RequestHeadersSent, ## Request headers has been sent RequestBodySending, ## Sending request body RequestBodySent, ## Request body has been sent ResponseHeadersReceiving, ## Receiving response headers ResponseHeadersReceived, ## Response headers has been received ResponseBodyReceiving, ## Receiving response body ResponseBodyReceived, ## Response body has been received Error ## Error happens HttpClientScheme* {.pure.} = enum NonSecure, ## Non-secure connection Secure ## Secure TLS connection HttpClientRequestState* {.pure.} = enum Closed, ## Request has been closed Closing, ## Connection is closing Created, ## Request created Connecting, ## Connecting to remote host HeadersSending, ## Sending request headers HeadersSent, ## Request headers has been sent BodySending, ## Sending request body BodySent, ## Request body has been sent ResponseReceived, ## Request's response headers received Error ## Error happens HttpClientResponseState* {.pure.} = enum Closed, ## Response has been closed Closing, ## Response is closing HeadersReceived, ## Response headers received BodyReceiving, ## Response body receiving BodyReceived, ## Response body received Error ## Error happens HttpClientBodyFlag* {.pure.} = enum Sized, ## `Content-Length` present Chunked, ## `Transfer-Encoding: chunked` present Custom ## None of the above HttpClientRequestFlag* {.pure.} = enum CloseConnection, ## Send `Connection: close` in request HttpHeaderTuple* = tuple key: string value: string HttpResponseTuple* = tuple status: int data: seq[byte] HttpClientConnection* = object of RootObj case kind*: HttpClientScheme of HttpClientScheme.NonSecure: discard of HttpClientScheme.Secure: treader*: AsyncStreamReader twriter*: AsyncStreamWriter tls*: TLSAsyncStream transp*: StreamTransport reader*: AsyncStreamReader writer*: AsyncStreamWriter state*: HttpClientConnectionState error*: ref HttpError remoteHostname*: string HttpClientConnectionRef* = ref HttpClientConnection HttpSessionRef* = ref object connections*: Table[string, seq[HttpClientConnectionRef]] maxRedirections*: int connectTimeout*: Duration headersTimeout*: Duration connectionBufferSize*: int maxConnections*: int flags*: HttpClientFlags HttpAddress* = object id*: string scheme*: HttpClientScheme hostname*: string port*: uint16 path*: string query*: string anchor*: string username*: string password*: string addresses*: seq[TransportAddress] HttpClientRequest* = object meth*: HttpMethod address*: HttpAddress state: HttpClientRequestState version*: HttpVersion headers*: HttpTable bodyFlag: HttpClientBodyFlag flags: set[HttpClientRequestFlag] connection*: HttpClientConnectionRef session*: HttpSessionRef error*: ref HttpError buffer*: seq[byte] writer*: HttpBodyWriter redirectCount: int HttpClientRequestRef* = ref HttpClientRequest HttpClientResponse* = object state: HttpClientResponseState requestMethod*: HttpMethod address*: HttpAddress status*: int reason*: string version*: HttpVersion headers*: HttpTable connection*: HttpClientConnectionRef session*: HttpSessionRef reader*: HttpBodyReader error*: ref HttpError bodyFlag*: HttpClientBodyFlag contentEncoding*: set[ContentEncodingFlags] transferEncoding*: set[TransferEncodingFlags] contentLength*: uint64 HttpClientResponseRef* = ref HttpClientResponse HttpClientFlag* {.pure.} = enum NoVerifyHost, ## Skip remote server certificate verification NoVerifyServerName, ## Skip remote server name CN verification NoInet4Resolution, ## Do not resolve server hostname to IPv4 addresses NoInet6Resolution, ## Do not resolve server hostname to IPv6 addresses NoAutomaticRedirect ## Do not handle HTTP redirection automatically HttpClientFlags* = set[HttpClientFlag] HttpClientTracker* = ref object of TrackerBase opened*: int64 closed*: int64 proc setupHttpClientConnectionTracker(): HttpClientTracker {. gcsafe, raises: [Defect].} proc setupHttpClientRequestTracker(): HttpClientTracker {. gcsafe, raises: [Defect].} proc setupHttpClientResponseTracker(): HttpClientTracker {. gcsafe, raises: [Defect].} proc getHttpClientConnectionTracker(): HttpClientTracker {.inline.} = var res = cast[HttpClientTracker](getTracker(HttpClientConnectionTrackerName)) if isNil(res): res = setupHttpClientConnectionTracker() res proc getHttpClientRequestTracker(): HttpClientTracker {.inline.} = var res = cast[HttpClientTracker](getTracker(HttpClientRequestTrackerName)) if isNil(res): res = setupHttpClientRequestTracker() res proc getHttpClientResponseTracker(): HttpClientTracker {.inline.} = var res = cast[HttpClientTracker](getTracker(HttpClientResponseTrackerName)) if isNil(res): res = setupHttpClientResponseTracker() res proc dumpHttpClientConnectionTracking(): string {.gcsafe.} = let tracker = getHttpClientConnectionTracker() "Opened HTTP client connections: " & $tracker.opened & "\n" & "Closed HTTP client connections: " & $tracker.closed proc dumpHttpClientRequestTracking(): string {.gcsafe.} = let tracker = getHttpClientRequestTracker() "Opened HTTP client requests: " & $tracker.opened & "\n" & "Closed HTTP client requests: " & $tracker.closed proc dumpHttpClientResponseTracking(): string {.gcsafe.} = let tracker = getHttpClientResponseTracker() "Opened HTTP client responses: " & $tracker.opened & "\n" & "Closed HTTP client responses: " & $tracker.closed proc leakHttpClientConnection(): bool {.gcsafe.} = var tracker = getHttpClientConnectionTracker() tracker.opened != tracker.closed proc leakHttpClientRequest(): bool {.gcsafe.} = var tracker = getHttpClientRequestTracker() tracker.opened != tracker.closed proc leakHttpClientResponse(): bool {.gcsafe.} = var tracker = getHttpClientResponseTracker() tracker.opened != tracker.closed proc trackHttpClientConnection(t: HttpClientConnectionRef) {.inline.} = inc(getHttpClientConnectionTracker().opened) proc untrackHttpClientConnection*(t: HttpClientConnectionRef) {.inline.} = inc(getHttpClientConnectionTracker().closed) proc trackHttpClientRequest(t: HttpClientRequestRef) {.inline.} = inc(getHttpClientRequestTracker().opened) proc untrackHttpClientRequest*(t: HttpClientRequestRef) {.inline.} = inc(getHttpClientRequestTracker().closed) proc trackHttpClientResponse(t: HttpClientResponseRef) {.inline.} = inc(getHttpClientResponseTracker().opened) proc untrackHttpClientResponse*(t: HttpClientResponseRef) {.inline.} = inc(getHttpClientResponseTracker().closed) proc setupHttpClientConnectionTracker(): HttpClientTracker {.gcsafe.} = var res = HttpClientTracker(opened: 0, closed: 0, dump: dumpHttpClientConnectionTracking, isLeaked: leakHttpClientConnection ) addTracker(HttpClientConnectionTrackerName, res) res proc setupHttpClientRequestTracker(): HttpClientTracker {.gcsafe.} = var res = HttpClientTracker(opened: 0, closed: 0, dump: dumpHttpClientRequestTracking, isLeaked: leakHttpClientRequest ) addTracker(HttpClientRequestTrackerName, res) res proc setupHttpClientResponseTracker(): HttpClientTracker {.gcsafe.} = var res = HttpClientTracker(opened: 0, closed: 0, dump: dumpHttpClientResponseTracking, isLeaked: leakHttpClientResponse ) addTracker(HttpClientResponseTrackerName, res) res proc new*(t: typedesc[HttpSessionRef], flags: HttpClientFlags = {}, maxRedirections = HttpMaxRedirections, connectTimeout = HttpConnectTimeout, headersTimeout = HttpHeadersTimeout, connectionBufferSize = DefaultStreamBufferSize, maxConnections = -1): HttpSessionRef {. raises: [Defect] .} = ## Create new HTTP session object. ## ## ``maxRedirections`` - maximum number of HTTP 3xx redirections ## ``connectTimeout`` - timeout for ongoing HTTP connection ## ``headersTimeout`` - timeout for receiving HTTP response headers doAssert(maxRedirections >= 0, "maxRedirections should not be negative") HttpSessionRef( flags: flags, maxRedirections: maxRedirections, connectTimeout: connectTimeout, headersTimeout: headersTimeout, connectionBufferSize: connectionBufferSize, maxConnections: maxConnections, connections: initTable[string, seq[HttpClientConnectionRef]]() ) proc getTLSFlags(flags: HttpClientFlags): set[TLSFlags] {.raises: [Defect] .} = var res: set[TLSFlags] if HttpClientFlag.NoVerifyHost in flags: res.incl(TLSFlags.NoVerifyHost) if HttpClientFlag.NoVerifyServerName in flags: res.incl(TLSFlags.NoVerifyServerName) res proc getAddress*(session: HttpSessionRef, url: Uri): HttpResult[HttpAddress] {. raises: [Defect] .} = let scheme = if len(url.scheme) == 0: HttpClientScheme.NonSecure else: case toLowerAscii(url.scheme) of "http": HttpClientScheme.NonSecure of "https": HttpClientScheme.Secure else: return err("URL scheme not supported") let port = if len(url.port) == 0: case scheme of HttpClientScheme.NonSecure: 80'u16 of HttpClientScheme.Secure: 443'u16 else: let res = Base10.decode(uint16, url.port) if res.isErr(): return err("Invalid URL port number") res.get() let hostname = block: if len(url.hostname) == 0: return err("URL hostname is missing") url.hostname let id = hostname & ":" & Base10.toString(port) let addresses = try: if (HttpClientFlag.NoInet4Resolution in session.flags) and (HttpClientFlag.NoInet6Resolution in session.flags): # DNS resolution is disabled. @[initTAddress(hostname, Port(port))] else: if (HttpClientFlag.NoInet4Resolution notin session.flags) and (HttpClientFlag.NoInet6Resolution notin session.flags): # DNS resolution for both IPv4 and IPv6 addresses. resolveTAddress(hostname, Port(port)) else: if HttpClientFlag.NoInet6Resolution in session.flags: # DNS resolution only for IPv4 addresses. resolveTAddress(hostname, Port(port), AddressFamily.IPv4) else: # DNS resolution only for IPv6 addresses resolveTAddress(hostname, Port(port), AddressFamily.IPv6) except TransportAddressError: return err("Could not resolve address of remote server") if len(addresses) == 0: return err("Could not resolve address of remote server") ok(HttpAddress(id: id, scheme: scheme, hostname: hostname, port: port, path: url.path, query: url.query, anchor: url.anchor, username: url.username, password: url.password, addresses: addresses)) proc getAddress*(session: HttpSessionRef, url: string): HttpResult[HttpAddress] {.raises: [Defect].} = ## Create new HTTP address using URL string ``url`` and . session.getAddress(parseUri(url)) proc getAddress*(address: TransportAddress, ctype: HttpClientScheme = HttpClientScheme.NonSecure, queryString: string = "/"): HttpAddress {.raises: [Defect].} = ## Create new HTTP address using Transport address ``address``, connection ## type ``ctype`` and query string ``queryString``. let uri = parseUri(queryString) HttpAddress(id: $address, scheme: ctype, hostname: address.host, port: uint16(address.port), path: uri.path, query: uri.query, anchor: uri.anchor, username: "", password: "", addresses: @[address] ) proc getUri*(address: HttpAddress): Uri = ## Retrieve URI from ``address``. let scheme = case address.scheme of HttpClientScheme.NonSecure: "http" of HttpClientScheme.Secure: "https" Uri( scheme: scheme, username: address.username, password: address.password, hostname: address.hostname, port: Base10.toString(address.port), path: address.path, query: address.query, anchor: address.anchor, opaque: false ) proc redirect*(srcuri, dsturi: Uri): Uri = ## Transform original's URL ``srcuri`` to ``dsturi``. if (len(dsturi.scheme) > 0) and (len(dsturi.hostname) > 0): # `dsturi` is absolute URL, replace dsturi else: # `dsturi` is relative URL, combine var tmpuri = dsturi tmpuri.username = "" tmpuri.password = "" combine(srcuri, tmpuri) proc redirect*(session: HttpSessionRef, srcaddr: HttpAddress, uri: Uri): HttpResult[HttpAddress] = ## Transform original address ``srcaddr`` using redirected url ``uri`` and ## session ``session`` parameters. let srcuri = srcaddr.getUri() var newuri = srcuri.redirect(uri) if newuri.hostname != srcuri.hostname: session.getAddress(newuri) else: let scheme = case newuri.scheme of "http": HttpClientScheme.NonSecure of "https": HttpClientScheme.Secure else: return err("URL scheme not supported") let port = if len(newuri.port) == 0: case scheme: of HttpClientScheme.NonSecure: 80'u16 of HttpClientScheme.Secure: 443'u16 else: let res = Base10.decode(uint16, newuri.port) if res.isErr(): return err("Invalid URL port number") res.get() if len(newuri.hostname) == 0: return err("URL hostname is missing") let id = newuri.hostname & ":" & Base10.toString(port) ok(HttpAddress( id: id, scheme: scheme, hostname: newuri.hostname, port: port, path: newuri.path, query: newuri.query, anchor: newuri.anchor, username: newuri.username, password: newuri.password, addresses: srcaddr.addresses )) proc new(t: typedesc[HttpClientConnectionRef], session: HttpSessionRef, ha: HttpAddress, transp: StreamTransport): HttpClientConnectionRef = case ha.scheme of HttpClientScheme.NonSecure: let res = HttpClientConnectionRef( kind: HttpClientScheme.NonSecure, transp: transp, reader: newAsyncStreamReader(transp), writer: newAsyncStreamWriter(transp), state: HttpClientConnectionState.Connecting, remoteHostname: ha.id ) trackHttpClientConnection(res) res of HttpClientScheme.Secure: let treader = newAsyncStreamReader(transp) let twriter = newAsyncStreamWriter(transp) let tls = newTLSClientAsyncStream(treader, twriter, ha.hostname, flags = session.flags.getTLSFlags()) let res = HttpClientConnectionRef( kind: HttpClientScheme.Secure, transp: transp, treader: treader, twriter: twriter, reader: tls.reader, writer: tls.writer, tls: tls, state: HttpClientConnectionState.Connecting, remoteHostname: ha.id ) trackHttpClientConnection(res) res proc setState(request: HttpClientRequestRef, state: HttpClientRequestState) {. raises: [Defect] .} = request.state = state case state of HttpClientRequestState.HeadersSending: request.connection.state = HttpClientConnectionState.RequestHeadersSending of HttpClientRequestState.HeadersSent: request.connection.state = HttpClientConnectionState.RequestHeadersSent of HttpClientRequestState.BodySending: request.connection.state = HttpClientConnectionState.RequestBodySending of HttpClientRequestState.BodySent: request.connection.state = HttpClientConnectionState.RequestBodySent of HttpClientRequestState.ResponseReceived: request.connection.state = HttpClientConnectionState.ResponseHeadersReceived else: discard proc setState(response: HttpClientResponseRef, state: HttpClientResponseState) {.raises: [Defect] .} = response.state = state case state of HttpClientResponseState.HeadersReceived: response.connection.state = HttpClientConnectionState.ResponseHeadersReceived of HttpClientResponseState.BodyReceiving: response.connection.state = HttpClientConnectionState.ResponseBodyReceiving of HttpClientResponseState.BodyReceived: response.connection.state = HttpClientConnectionState.ResponseBodyReceived else: discard proc setError(request: HttpClientRequestRef, error: ref HttpError) {. raises: [Defect] .} = request.error = error request.setState(HttpClientRequestState.Error) if not(isNil(request.connection)): request.connection.state = HttpClientConnectionState.Error request.connection.error = error proc setError(response: HttpClientResponseRef, error: ref HttpError) {. raises: [Defect] .} = response.error = error response.setState(HttpClientResponseState.Error) if not(isNil(response.connection)): response.connection.state = HttpClientConnectionState.Error response.connection.error = error proc closeWait(conn: HttpClientConnectionRef) {.async.} = ## Close HttpClientConnectionRef instance ``conn`` and free all the resources. if conn.state notin {HttpClientConnectionState.Closing, HttpClientConnectionState.Closed}: conn.state = HttpClientConnectionState.Closing let pending = block: var res: seq[Future[void]] if not(isNil(conn.reader)) and not(conn.reader.closed()): res.add(conn.reader.closeWait()) if not(isNil(conn.writer)) and not(conn.writer.closed()): res.add(conn.writer.closeWait()) res if len(pending) > 0: await allFutures(pending) case conn.kind of HttpClientScheme.Secure: await allFutures(conn.treader.closeWait(), conn.twriter.closeWait()) of HttpClientScheme.NonSecure: discard await conn.transp.closeWait() conn.state = HttpClientConnectionState.Closed untrackHttpClientConnection(conn) proc connect(session: HttpSessionRef, ha: HttpAddress): Future[HttpClientConnectionRef] {.async.} = ## Establish new connection with remote server using ``url`` and ``flags``. ## On success returns ``HttpClientConnectionRef`` object. # Here we trying to connect to every possible remote host address we got after # DNS resolution. for address in ha.addresses: let transp = try: await connect(address, bufferSize = session.connectionBufferSize) except CancelledError as exc: raise exc except CatchableError: nil if not(isNil(transp)): let conn = block: let res = HttpClientConnectionRef.new(session, ha, transp) case res.kind of HttpClientScheme.Secure: try: await res.tls.handshake() res.state = HttpClientConnectionState.Ready except CancelledError as exc: await res.closeWait() raise exc except AsyncStreamError: await res.closeWait() res.state = HttpClientConnectionState.Error of HttpClientScheme.Nonsecure: res.state = HttpClientConnectionState.Ready res if conn.state == HttpClientConnectionState.Ready: return conn # If all attempts to connect to the remote host have failed. raiseHttpConnectionError("Could not connect to remote host") proc acquireConnection(session: HttpSessionRef, ha: HttpAddress): Future[HttpClientConnectionRef] {. async.} = ## Obtain connection from ``session`` or establish a new one. let conn = block: let conns = session.connections.getOrDefault(ha.id) if len(conns) > 0: var res: HttpClientConnectionRef = nil for item in conns: if item.state == HttpClientConnectionState.Ready: res = item break res else: nil if not(isNil(conn)): return conn else: var default: seq[HttpClientConnectionRef] let res = try: await session.connect(ha).wait(session.connectTimeout) except AsyncTimeoutError: raiseHttpConnectionError("Connection timed out") session.connections.mgetOrPut(ha.id, default).add(res) return res proc removeConnection(session: HttpSessionRef, conn: HttpClientConnectionRef) {.async.} = var conns = session.connections.getOrDefault(conn.remoteHostname) conns.keepItIf(it != conn) session.connections[conn.remoteHostname] = conns await conn.closeWait() proc releaseConnection(session: HttpSessionRef, conn: HttpClientConnectionRef) {.async.} = ## Return connection back to the ``session``. ## ## If connection not in ``Ready`` state it will be closed and removed from ## the ``session``. if conn.state != HttpClientConnectionState.Ready: await session.removeConnection(conn) proc closeWait*(session: HttpSessionRef) {.async.} = ## Closes HTTP session object. ## ## This closes all the connections opened to remote servers. var pending: seq[Future[void]] for items in session.connections.values(): for item in items: pending.add(closeWait(item)) await allFutures(pending) proc closeWait*(request: HttpClientRequestRef) {.async.} = if request.state notin {HttpClientRequestState.Closing, HttpClientRequestState.Closed}: request.setState(HttpClientRequestState.Closing) if not(isNil(request.writer)): if not(request.writer.closed()): await request.writer.closeWait() request.writer = nil if request.state != HttpClientRequestState.ResponseReceived: if not(isNil(request.connection)): await request.session.releaseConnection(request.connection) request.connection = nil request.session = nil request.error = nil request.setState(HttpClientRequestState.Closed) untrackHttpClientRequest(request) proc closeWait*(response: HttpClientResponseRef) {.async.} = if response.state notin {HttpClientResponseState.Closing, HttpClientResponseState.Closed}: response.setState(HttpClientResponseState.Closing) if not(isNil(response.reader)): if not(response.reader.closed()): await response.reader.closeWait() response.reader = nil if not(isNil(response.connection)): await response.session.releaseConnection(response.connection) response.connection = nil response.session = nil response.error = nil response.setState(HttpClientResponseState.Closed) untrackHttpClientResponse(response) proc prepareResponse(request: HttpClientRequestRef, data: openarray[byte]): HttpResult[HttpClientResponseRef] {. raises: [Defect] .} = ## Process response headers. let resp = parseResponse(data, false) if resp.failed(): return err("Invalid headers received") let headers = block: var res = HttpTable.init() for key, value in resp.headers(data): res.add(key, value) if res.count(ContentTypeHeader) > 1: return err("Invalid headers received, too many `Content-Type`") if res.count(ContentLengthHeader) > 1: return err("Invalid headers received, too many `Content-Length`") if res.count(TransferEncodingHeader) > 1: return err("Invalid headers received, too many `Transfer-Encoding`") res # Preprocessing "Content-Encoding" header. let contentEncoding = block: let res = getContentEncoding(headers.getList(ContentEncodingHeader)) if res.isErr(): return err("Invalid headers received, invalid `Content-Encoding`") else: res.get() # Preprocessing "Transfer-Encoding" header. let transferEncoding = block: let res = getTransferEncoding(headers.getList(TransferEncodingHeader)) if res.isErr(): return err("Invalid headers received, invalid `Transfer-Encoding`") else: res.get() # Preprocessing "Content-Length" header. let (contentLength, bodyFlag) = if ContentLengthHeader in headers: let length = headers.getInt(ContentLengthHeader) (length, HttpClientBodyFlag.Sized) else: if TransferEncodingFlags.Chunked in transferEncoding: (0'u64, HttpClientBodyFlag.Chunked) else: (0'u64, HttpClientBodyFlag.Custom) let res = HttpClientResponseRef( state: HttpClientResponseState.HeadersReceived, status: resp.code, address: request.address, requestMethod: request.meth, reason: resp.reason(data), version: resp.version, session: request.session, connection: request.connection, headers: headers, contentEncoding: contentEncoding, transferEncoding: transferEncoding, contentLength: contentLength, bodyFlag: bodyFlag ) request.setState(HttpClientRequestState.ResponseReceived) trackHttpClientResponse(res) ok(res) proc getResponse(req: HttpClientRequestRef): Future[HttpClientResponseRef] {. async.} = var buffer: array[HttpMaxHeadersSize, byte] let bytesRead = try: await req.connection.reader.readUntil(addr buffer[0], len(buffer), HeadersMark).wait( req.session.headersTimeout) except CancelledError as exc: raise exc except AsyncTimeoutError: raiseHttpReadError("Reading response headers timed out") except AsyncStreamError: raiseHttpReadError("Could not read response headers") let resp = prepareResponse(req, buffer.toOpenArray(0, bytesRead - 1)) if resp.isErr(): raiseHttpProtocolError(resp.error()) return resp.get() proc new*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, ha: HttpAddress, meth: HttpMethod = MethodGet, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [], body: openarray[byte] = []): HttpClientRequestRef {. raises: [Defect].} = let res = HttpClientRequestRef( state: HttpClientRequestState.Created, session: session, meth: meth, version: version, flags: flags, headers: HttpTable.init(headers), address: ha, bodyFlag: HttpClientBodyFlag.Custom, buffer: @body ) trackHttpClientRequest(res) res proc new*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, url: string, meth: HttpMethod = MethodGet, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [], body: openarray[byte] = []): HttpResult[HttpClientRequestRef] {. raises: [Defect].} = let address = ? session.getAddress(parseUri(url)) let res = HttpClientRequestRef( state: HttpClientRequestState.Created, session: session, meth: meth, version: version, flags: flags, headers: HttpTable.init(headers), address: address, bodyFlag: HttpClientBodyFlag.Custom, buffer: @body ) trackHttpClientRequest(res) ok(res) proc get*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, url: string, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [] ): HttpResult[HttpClientRequestRef] {.raises: [Defect].} = HttpClientRequestRef.new(session, url, MethodGet, version, flags, headers) proc get*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, ha: HttpAddress, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [] ): HttpClientRequestRef {.raises: [Defect].} = HttpClientRequestRef.new(session, ha, MethodGet, version, flags, headers) proc post*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, url: string, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [], body: openarray[byte] = [] ): HttpResult[HttpClientRequestRef] {.raises: [Defect].} = HttpClientRequestRef.new(session, url, MethodPost, version, flags, headers, body) proc post*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, url: string, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [], body: openarray[char] = []): HttpResult[HttpClientRequestRef] {. raises: [Defect].} = HttpClientRequestRef.new(session, url, MethodPost, version, flags, headers, body.toOpenArrayByte(0, len(body) - 1)) proc post*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, ha: HttpAddress, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [], body: openarray[byte] = []): HttpClientRequestRef {. raises: [Defect].} = HttpClientRequestRef.new(session, ha, MethodPost, version, flags, headers, body) proc post*(t: typedesc[HttpClientRequestRef], session: HttpSessionRef, ha: HttpAddress, version: HttpVersion = HttpVersion11, flags: set[HttpClientRequestFlag] = {}, headers: openarray[HttpHeaderTuple] = [], body: openarray[char] = []): HttpClientRequestRef {. raises: [Defect].} = HttpClientRequestRef.new(session, ha, MethodPost, version, flags, headers, body.toOpenArrayByte(0, len(body) - 1)) proc prepareRequest(request: HttpClientRequestRef): string {. raises: [Defect].} = template hasChunkedEncoding(request: HttpClientRequestRef): bool = toLowerAscii(request.headers.getString(TransferEncodingHeader)) == "chunked" # We use ChronosIdent as `User-Agent` string if its not set. discard request.headers.hasKeyOrPut(UserAgentHeader, ChronosIdent) # We use request's hostname as `Host` string if its not set. discard request.headers.hasKeyOrPut(HostHeader, request.address.hostname) # We set `Connection` to value according to flags if its not set. if ConnectionHeader notin request.headers: if HttpClientRequestFlag.CloseConnection in request.flags: request.headers.add(ConnectionHeader, "close") else: request.headers.add(ConnectionHeader, "keep-alive") # We set `Accept` to accept any content if its not set. discard request.headers.hasKeyOrPut(AcceptHeaderName, "*/*") # We will send `Authorization` information only if username or password set, # and `Authorization` header is not present in request's headers. if len(request.address.username) > 0 or len(request.address.password) > 0: if AuthorizationHeader notin request.headers: let auth = request.address.username & ":" & request.address.password let header = "Basic " & Base64Pad.encode(auth.toOpenArrayByte(0, len(auth) - 1)) request.headers.add(AuthorizationHeader, header) # Here we perform automatic detection: if request was created with non-zero # body and `Content-Length` header is missing we will create one with size # of body stored in request. if ContentLengthHeader notin request.headers: if len(request.buffer) > 0: let slength = Base10.toString(uint64(len(request.buffer))) request.headers.add(ContentLengthHeader, slength) request.bodyFlag = if ContentLengthHeader in request.headers: HttpClientBodyFlag.Sized else: if request.hasChunkedEncoding(): HttpClientBodyFlag.Chunked else: HttpClientBodyFlag.Custom let entity = block: var res = if len(request.address.path) > 0: request.address.path else: "/" if len(request.address.query) > 0: res.add("?") res.add(request.address.query) if len(request.address.anchor) > 0: res.add("#") res.add(request.address.anchor) res var res = $request.meth res.add(" ") res.add(entity) res.add(" ") res.add($request.version) res.add("\r\n") for k, v in request.headers.stringItems(): if len(v) > 0: res.add(normalizeHeaderName(k)) res.add(": ") res.add(v) res.add("\r\n") res.add("\r\n") res proc send*(request: HttpClientRequestRef): Future[HttpClientResponseRef] {. async.} = doAssert(request.state == HttpClientRequestState.Created) request.setState(HttpClientRequestState.Connecting) request.connection = try: await request.session.acquireConnection(request.address) except CancelledError as exc: request.setError(newHttpInterruptError()) raise exc except HttpError as exc: request.setError(exc) raise exc let headers = request.prepareRequest() try: request.setState(HttpClientRequestState.HeadersSending) await request.connection.writer.write(headers) request.setState(HttpClientRequestState.HeadersSent) request.setState(HttpClientRequestState.BodySending) if len(request.buffer) > 0: await request.connection.writer.write(request.buffer) request.setState(HttpClientRequestState.BodySent) except CancelledError as exc: request.setError(newHttpInterruptError()) raise exc except AsyncStreamError as exc: let error = newHttpWriteError("Could not send request headers") request.setError(error) raise error let resp = try: await request.getResponse() except CancelledError as exc: request.setError(newHttpInterruptError()) raise exc except HttpError as exc: request.setError(exc) raise exc return resp proc open*(request: HttpClientRequestRef): Future[HttpBodyWriter] {. async.} = ## Start sending request's headers and return `HttpBodyWriter`, which can be ## used to send request's body. doAssert(request.state == HttpClientRequestState.Created) doAssert(len(request.buffer) == 0, "Request should not have static body content (len(buffer) == 0)") request.setState(HttpClientRequestState.Connecting) request.connection = try: await request.session.acquireConnection(request.address) except CancelledError as exc: request.setError(newHttpInterruptError()) raise exc except HttpError as exc: request.setError(exc) raise exc let headers = request.prepareRequest() try: request.setState(HttpClientRequestState.HeadersSending) await request.connection.writer.write(headers) request.setState(HttpClientRequestState.HeadersSent) except CancelledError as exc: request.setError(newHttpInterruptError()) raise exc except AsyncStreamError as exc: let error = newHttpWriteError("Could not send request headers") request.setError(error) raise error let writer = case request.bodyFlag of HttpClientBodyFlag.Sized: let size = Base10.decode(uint64, request.headers.getString("content-length")) let writer = newBoundedStreamWriter(request.connection.writer, size.get()) newHttpBodyWriter([AsyncStreamWriter(writer)]) of HttpClientBodyFlag.Chunked: let writer = newChunkedStreamWriter(request.connection.writer) newHttpBodyWriter([AsyncStreamWriter(writer)]) of HttpClientBodyFlag.Custom: let writer = newAsyncStreamWriter(request.connection.writer) newHttpBodyWriter([writer]) request.writer = writer request.setState(HttpClientRequestState.BodySending) return writer proc finish*(request: HttpClientRequestRef): Future[HttpClientResponseRef] {. async.} = ## Finish sending request and receive response. doAssert(request.state == HttpClientRequestState.BodySending) doAssert(request.connection.state == HttpClientConnectionState.RequestBodySending) doAssert(request.writer.closed()) request.setState(HttpClientRequestState.BodySent) let resp = try: await request.getResponse() except CancelledError as exc: request.setError(newHttpInterruptError()) raise exc except HttpError as exc: request.setError(exc) raise exc return resp proc getNewLocation*(resp: HttpClientResponseRef): HttpResult[HttpAddress] = ## Returns new address according to response's `Location` header value. if "location" in resp.headers: let location = resp.headers.getString("location") if len(location) > 0: resp.session.redirect(resp.address, parseUri(location)) else: err("Location header with empty value") else: err("Location header is missing") proc getBodyReader*(resp: HttpClientResponseRef): HttpBodyReader = ## Returns stream's reader instance which can be used to read response's body. ## ## Streams which was obtained using this procedure must be closed to avoid ## leaks. doAssert(resp.state in { HttpClientResponseState.HeadersReceived, HttpClientResponseState.BodyReceiving}) doAssert(resp.connection.state in { HttpClientConnectionState.ResponseHeadersReceived, HttpClientConnectionState.ResponseBodyReceiving}) if isNil(resp.reader): let reader = case resp.bodyFlag of HttpClientBodyFlag.Sized: let bstream = newBoundedStreamReader(resp.connection.reader, resp.contentLength) newHttpBodyReader(bstream) of HttpClientBodyFlag.Chunked: newHttpBodyReader(newChunkedStreamReader(resp.connection.reader)) of HttpClientBodyFlag.Custom: newHttpBodyReader(newAsyncStreamReader(resp.connection.reader)) resp.setState(HttpClientResponseState.BodyReceiving) resp.reader = reader resp.reader proc finish*(resp: HttpClientResponseRef) {.async.} = ## Finish receiving response. doAssert(resp.state == HttpClientResponseState.BodyReceiving) doAssert(resp.connection.state == HttpClientConnectionState.ResponseBodyReceiving) doAssert(resp.reader.closed()) resp.setState(HttpClientResponseState.BodyReceived) resp.connection.state = HttpClientConnectionState.Ready proc getBodyBytes*(response: HttpClientResponseRef): Future[seq[byte]] {. async.} = ## Read all bytes from response ``response``. doAssert(response.state == HttpClientResponseState.HeadersReceived) doAssert(response.connection.state == HttpClientConnectionState.ResponseHeadersReceived) var reader = response.getBodyReader() try: let data = await reader.read() await reader.closeWait() reader = nil await response.finish() return data except CancelledError as exc: if not(isNil(reader)): await reader.closeWait() response.setError(newHttpInterruptError()) raise exc except AsyncStreamError as exc: if not(isNil(reader)): await reader.closeWait() let error = newHttpReadError("Could not read response") response.setError(error) raise error proc getBodyBytes*(response: HttpClientResponseRef, nbytes: int): Future[seq[byte]] {.async.} = ## Read all bytes (nbytes <= 0) or exactly `nbytes` bytes from response ## ``response``. doAssert(response.state == HttpClientResponseState.HeadersReceived) doAssert(response.connection.state == HttpClientConnectionState.ResponseHeadersReceived) var reader = response.getBodyReader() try: let data = await reader.read(nbytes) await reader.closeWait() reader = nil await response.finish() return data except CancelledError as exc: if not(isNil(reader)): await reader.closeWait() response.setError(newHttpInterruptError()) raise exc except AsyncStreamError as exc: if not(isNil(reader)): await reader.closeWait() let error = newHttpReadError("Could not read response") response.setError(error) raise error proc consumeBody*(response: HttpClientResponseRef): Future[int] {.async.} = ## Consume/discard response and return number of bytes consumed. doAssert(response.state == HttpClientResponseState.HeadersReceived) doAssert(response.connection.state == HttpClientConnectionState.ResponseHeadersReceived) var reader = response.getBodyReader() try: let res = await reader.consume() await reader.closeWait() reader = nil await response.finish() return res except CancelledError as exc: if not(isNil(reader)): await reader.closeWait() response.setError(newHttpInterruptError()) raise exc except AsyncStreamError as exc: if not(isNil(reader)): await reader.closeWait() let error = newHttpReadError("Could not read response") response.setError(error) raise error proc redirect*(request: HttpClientRequestRef, ha: HttpAddress): HttpResult[HttpClientRequestRef] = ## Create new request object using original request object ``request`` and ## new redirected address ``ha``. ## ## This procedure could return an error if number of redirects exceeded ## maximum allowed number of redirects in request's session. let redirectCount = request.redirectCount + 1 if redirectCount > request.session.maxRedirections: err("Maximum number of redirects exceeded") else: var res = HttpClientRequestRef.new(request.session, ha, request.meth, request.version, request.flags, request.headers.toList(), request.buffer) res.redirectCount = redirectCount ok(res) proc redirect*(request: HttpClientRequestRef, uri: Uri): HttpResult[HttpClientRequestRef] = ## Create new request object using original request object ``request`` and ## redirected URL ``uri``. ## ## This procedure could return an error if number of redirects exceeded ## maximum allowed number of redirects in request's session or ``uri`` is ## incorrect or not supported. let redirectCount = request.redirectCount + 1 if redirectCount > request.session.maxRedirections: err("Maximum number of redirects exceeded") else: let address = ? request.session.redirect(request.address, uri) var res = HttpClientRequestRef.new(request.session, address, request.meth, request.version, request.flags, request.headers.toList(), request.buffer) res.redirectCount = redirectCount ok(res) proc fetch*(request: HttpClientRequestRef): Future[HttpResponseTuple] {. async.} = var response: HttpClientResponseRef try: response = await request.send() let buffer = await response.getBodyBytes() let status = response.status await response.closeWait() response = nil return (status, buffer) except HttpError as exc: if not(isNil(response)): await response.closeWait() raise exc except CancelledError as exc: if not(isNil(response)): await response.closeWait() raise exc proc fetch*(session: HttpSessionRef, url: Uri): Future[HttpResponseTuple] {. async.} = ## Fetch resource pointed by ``url`` using HTTP GET method and ``session`` ## parameters. ## ## This procedure supports HTTP redirections. let address = block: let res = session.getAddress(url) if res.isErr(): raiseHttpAddressError(res.error()) res.get() var request = HttpClientRequestRef.new(session, address) response: HttpClientResponseRef = nil redirect: HttpClientRequestRef = nil while true: try: response = await request.send() if response.status >= 300 and response.status < 400: redirect = block: if "location" in response.headers: let location = response.headers.getString("location") if len(location) > 0: let res = request.redirect(parseUri(location)) if res.isErr(): raiseHttpRedirectError(res.error()) res.get() else: raiseHttpRedirectError("Location header with an empty value") else: raiseHttpRedirectError("Location header missing") discard await response.consumeBody() await request.closeWait() request = nil await response.closeWait() response = nil request = redirect redirect = nil else: let data = await response.getBodyBytes() let code = response.status await request.closeWait() request = nil await response.closeWait() response = nil return (code, data) except CancelledError as exc: if not(isNil(request)): await closeWait(request) if not(isNil(redirect)): await closeWait(redirect) if not(isNil(response)): await closeWait(response) raise exc except HttpError as exc: if not(isNil(request)): await closeWait(request) if not(isNil(redirect)): await closeWait(redirect) if not(isNil(response)): await closeWait(response) raise exc