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Mini Shell
Mini Shell
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
#include "node.h"
#include "node_buffer.h"
#include "util.h"
#include "async_wrap-inl.h"
#include "env-inl.h"
#include "memory_tracker-inl.h"
#include "stream_base-inl.h"
#include "v8.h"
#include "llhttp.h"
#include <cstdlib> // free()
#include <cstring> // strdup(), strchr()
// This is a binding to llhttp (https://github.com/nodejs/llhttp)
// The goal is to decouple sockets from parsing for more javascript-level
// agility. A Buffer is read from a socket and passed to parser.execute().
// The parser then issues callbacks with slices of the data
// parser.onMessageBegin
// parser.onPath
// parser.onBody
// ...
// No copying is performed when slicing the buffer, only small reference
// allocations.
namespace node {
namespace { // NOLINT(build/namespaces)
using v8::Array;
using v8::Boolean;
using v8::Context;
using v8::EscapableHandleScope;
using v8::Exception;
using v8::Function;
using v8::FunctionCallbackInfo;
using v8::FunctionTemplate;
using v8::HandleScope;
using v8::Int32;
using v8::Integer;
using v8::Isolate;
using v8::Local;
using v8::MaybeLocal;
using v8::Number;
using v8::Object;
using v8::String;
using v8::Uint32;
using v8::Undefined;
using v8::Value;
const uint32_t kOnMessageBegin = 0;
const uint32_t kOnHeaders = 1;
const uint32_t kOnHeadersComplete = 2;
const uint32_t kOnBody = 3;
const uint32_t kOnMessageComplete = 4;
const uint32_t kOnExecute = 5;
const uint32_t kOnTimeout = 6;
// Any more fields than this will be flushed into JS
const size_t kMaxHeaderFieldsCount = 32;
// Maximum size of chunk extensions
const size_t kMaxChunkExtensionsSize = 16384;
const uint32_t kLenientNone = 0;
const uint32_t kLenientHeaders = 1 << 0;
const uint32_t kLenientChunkedLength = 1 << 1;
const uint32_t kLenientKeepAlive = 1 << 2;
const uint32_t kLenientTransferEncoding = 1 << 3;
const uint32_t kLenientVersion = 1 << 4;
const uint32_t kLenientDataAfterClose = 1 << 5;
const uint32_t kLenientOptionalLFAfterCR = 1 << 6;
const uint32_t kLenientOptionalCRLFAfterChunk = 1 << 7;
const uint32_t kLenientOptionalCRBeforeLF = 1 << 8;
const uint32_t kLenientSpacesAfterChunkSize = 1 << 9;
const uint32_t kLenientAll =
kLenientHeaders | kLenientChunkedLength | kLenientKeepAlive |
kLenientTransferEncoding | kLenientVersion | kLenientDataAfterClose |
kLenientOptionalLFAfterCR | kLenientOptionalCRLFAfterChunk |
kLenientOptionalCRBeforeLF | kLenientSpacesAfterChunkSize;
inline bool IsOWS(char c) {
return c == ' ' || c == '\t';
}
class BindingData : public BaseObject {
public:
BindingData(Realm* realm, Local<Object> obj) : BaseObject(realm, obj) {}
SET_BINDING_ID(http_parser_binding_data)
std::vector<char> parser_buffer;
bool parser_buffer_in_use = false;
void MemoryInfo(MemoryTracker* tracker) const override {
tracker->TrackField("parser_buffer", parser_buffer);
}
SET_SELF_SIZE(BindingData)
SET_MEMORY_INFO_NAME(BindingData)
};
// helper class for the Parser
struct StringPtr {
StringPtr() {
on_heap_ = false;
Reset();
}
~StringPtr() {
Reset();
}
// If str_ does not point to a heap string yet, this function makes it do
// so. This is called at the end of each http_parser_execute() so as not
// to leak references. See issue #2438 and test-http-parser-bad-ref.js.
void Save() {
if (!on_heap_ && size_ > 0) {
char* s = new char[size_];
memcpy(s, str_, size_);
str_ = s;
on_heap_ = true;
}
}
void Reset() {
if (on_heap_) {
delete[] str_;
on_heap_ = false;
}
str_ = nullptr;
size_ = 0;
}
void Update(const char* str, size_t size) {
if (str_ == nullptr) {
str_ = str;
} else if (on_heap_ || str_ + size_ != str) {
// Non-consecutive input, make a copy on the heap.
// TODO(bnoordhuis) Use slab allocation, O(n) allocs is bad.
char* s = new char[size_ + size];
memcpy(s, str_, size_);
memcpy(s + size_, str, size);
if (on_heap_)
delete[] str_;
else
on_heap_ = true;
str_ = s;
}
size_ += size;
}
Local<String> ToString(Environment* env) const {
if (size_ != 0)
return OneByteString(env->isolate(), str_, size_);
else
return String::Empty(env->isolate());
}
// Strip trailing OWS (SPC or HTAB) from string.
Local<String> ToTrimmedString(Environment* env) {
while (size_ > 0 && IsOWS(str_[size_ - 1])) {
size_--;
}
return ToString(env);
}
const char* str_;
bool on_heap_;
size_t size_;
};
class Parser;
struct ParserComparator {
bool operator()(const Parser* lhs, const Parser* rhs) const;
};
class ConnectionsList : public BaseObject {
public:
static void New(const FunctionCallbackInfo<Value>& args);
static void All(const FunctionCallbackInfo<Value>& args);
static void Idle(const FunctionCallbackInfo<Value>& args);
static void Active(const FunctionCallbackInfo<Value>& args);
static void Expired(const FunctionCallbackInfo<Value>& args);
void Push(Parser* parser) {
all_connections_.insert(parser);
}
void Pop(Parser* parser) {
all_connections_.erase(parser);
}
void PushActive(Parser* parser) {
active_connections_.insert(parser);
}
void PopActive(Parser* parser) {
active_connections_.erase(parser);
}
SET_NO_MEMORY_INFO()
SET_MEMORY_INFO_NAME(ConnectionsList)
SET_SELF_SIZE(ConnectionsList)
private:
ConnectionsList(Environment* env, Local<Object> object)
: BaseObject(env, object) {
MakeWeak();
}
std::set<Parser*, ParserComparator> all_connections_;
std::set<Parser*, ParserComparator> active_connections_;
};
class Parser : public AsyncWrap, public StreamListener {
friend class ConnectionsList;
friend struct ParserComparator;
public:
Parser(BindingData* binding_data, Local<Object> wrap)
: AsyncWrap(binding_data->env(), wrap),
current_buffer_len_(0),
current_buffer_data_(nullptr),
binding_data_(binding_data) {
}
SET_NO_MEMORY_INFO()
SET_MEMORY_INFO_NAME(Parser)
SET_SELF_SIZE(Parser)
int on_message_begin() {
// Important: Pop from the lists BEFORE resetting the last_message_start_
// otherwise std::set.erase will fail.
if (connectionsList_ != nullptr) {
connectionsList_->Pop(this);
connectionsList_->PopActive(this);
}
num_fields_ = num_values_ = 0;
headers_completed_ = false;
chunk_extensions_nread_ = 0;
last_message_start_ = uv_hrtime();
url_.Reset();
status_message_.Reset();
if (connectionsList_ != nullptr) {
connectionsList_->Push(this);
connectionsList_->PushActive(this);
}
Local<Value> cb = object()->Get(env()->context(), kOnMessageBegin)
.ToLocalChecked();
if (cb->IsFunction()) {
InternalCallbackScope callback_scope(
this, InternalCallbackScope::kSkipTaskQueues);
MaybeLocal<Value> r = cb.As<Function>()->Call(
env()->context(), object(), 0, nullptr);
if (r.IsEmpty()) callback_scope.MarkAsFailed();
}
return 0;
}
int on_url(const char* at, size_t length) {
int rv = TrackHeader(length);
if (rv != 0) {
return rv;
}
url_.Update(at, length);
return 0;
}
int on_status(const char* at, size_t length) {
int rv = TrackHeader(length);
if (rv != 0) {
return rv;
}
status_message_.Update(at, length);
return 0;
}
int on_header_field(const char* at, size_t length) {
int rv = TrackHeader(length);
if (rv != 0) {
return rv;
}
if (num_fields_ == num_values_) {
// start of new field name
num_fields_++;
if (num_fields_ == kMaxHeaderFieldsCount) {
// ran out of space - flush to javascript land
Flush();
num_fields_ = 1;
num_values_ = 0;
}
fields_[num_fields_ - 1].Reset();
}
CHECK_LT(num_fields_, kMaxHeaderFieldsCount);
CHECK_EQ(num_fields_, num_values_ + 1);
fields_[num_fields_ - 1].Update(at, length);
return 0;
}
int on_header_value(const char* at, size_t length) {
int rv = TrackHeader(length);
if (rv != 0) {
return rv;
}
if (num_values_ != num_fields_) {
// start of new header value
num_values_++;
values_[num_values_ - 1].Reset();
}
CHECK_LT(num_values_, arraysize(values_));
CHECK_EQ(num_values_, num_fields_);
values_[num_values_ - 1].Update(at, length);
return 0;
}
int on_headers_complete() {
headers_completed_ = true;
header_nread_ = 0;
// Arguments for the on-headers-complete javascript callback. This
// list needs to be kept in sync with the actual argument list for
// `parserOnHeadersComplete` in lib/_http_common.js.
enum on_headers_complete_arg_index {
A_VERSION_MAJOR = 0,
A_VERSION_MINOR,
A_HEADERS,
A_METHOD,
A_URL,
A_STATUS_CODE,
A_STATUS_MESSAGE,
A_UPGRADE,
A_SHOULD_KEEP_ALIVE,
A_MAX
};
Local<Value> argv[A_MAX];
Local<Object> obj = object();
Local<Value> cb = obj->Get(env()->context(),
kOnHeadersComplete).ToLocalChecked();
if (!cb->IsFunction())
return 0;
Local<Value> undefined = Undefined(env()->isolate());
for (size_t i = 0; i < arraysize(argv); i++)
argv[i] = undefined;
if (have_flushed_) {
// Slow case, flush remaining headers.
Flush();
} else {
// Fast case, pass headers and URL to JS land.
argv[A_HEADERS] = CreateHeaders();
if (parser_.type == HTTP_REQUEST)
argv[A_URL] = url_.ToString(env());
}
num_fields_ = 0;
num_values_ = 0;
// METHOD
if (parser_.type == HTTP_REQUEST) {
argv[A_METHOD] =
Uint32::NewFromUnsigned(env()->isolate(), parser_.method);
}
// STATUS
if (parser_.type == HTTP_RESPONSE) {
argv[A_STATUS_CODE] =
Integer::New(env()->isolate(), parser_.status_code);
argv[A_STATUS_MESSAGE] = status_message_.ToString(env());
}
// VERSION
argv[A_VERSION_MAJOR] = Integer::New(env()->isolate(), parser_.http_major);
argv[A_VERSION_MINOR] = Integer::New(env()->isolate(), parser_.http_minor);
bool should_keep_alive;
should_keep_alive = llhttp_should_keep_alive(&parser_);
argv[A_SHOULD_KEEP_ALIVE] =
Boolean::New(env()->isolate(), should_keep_alive);
argv[A_UPGRADE] = Boolean::New(env()->isolate(), parser_.upgrade);
MaybeLocal<Value> head_response;
{
InternalCallbackScope callback_scope(
this, InternalCallbackScope::kSkipTaskQueues);
head_response = cb.As<Function>()->Call(
env()->context(), object(), arraysize(argv), argv);
if (head_response.IsEmpty()) callback_scope.MarkAsFailed();
}
int64_t val;
if (head_response.IsEmpty() || !head_response.ToLocalChecked()
->IntegerValue(env()->context())
.To(&val)) {
got_exception_ = true;
return -1;
}
return static_cast<int>(val);
}
int on_body(const char* at, size_t length) {
if (length == 0)
return 0;
Environment* env = this->env();
HandleScope handle_scope(env->isolate());
Local<Value> cb = object()->Get(env->context(), kOnBody).ToLocalChecked();
if (!cb->IsFunction())
return 0;
Local<Value> buffer = Buffer::Copy(env, at, length).ToLocalChecked();
MaybeLocal<Value> r = MakeCallback(cb.As<Function>(), 1, &buffer);
if (r.IsEmpty()) {
got_exception_ = true;
llhttp_set_error_reason(&parser_, "HPE_JS_EXCEPTION:JS Exception");
return HPE_USER;
}
return 0;
}
int on_message_complete() {
HandleScope scope(env()->isolate());
// Important: Pop from the lists BEFORE resetting the last_message_start_
// otherwise std::set.erase will fail.
if (connectionsList_ != nullptr) {
connectionsList_->Pop(this);
connectionsList_->PopActive(this);
}
last_message_start_ = 0;
if (connectionsList_ != nullptr) {
connectionsList_->Push(this);
}
if (num_fields_)
Flush(); // Flush trailing HTTP headers.
Local<Object> obj = object();
Local<Value> cb = obj->Get(env()->context(),
kOnMessageComplete).ToLocalChecked();
if (!cb->IsFunction())
return 0;
MaybeLocal<Value> r;
{
InternalCallbackScope callback_scope(
this, InternalCallbackScope::kSkipTaskQueues);
r = cb.As<Function>()->Call(env()->context(), object(), 0, nullptr);
if (r.IsEmpty()) callback_scope.MarkAsFailed();
}
if (r.IsEmpty()) {
got_exception_ = true;
return -1;
}
return 0;
}
int on_chunk_extension(const char* at, size_t length) {
chunk_extensions_nread_ += length;
if (chunk_extensions_nread_ > kMaxChunkExtensionsSize) {
llhttp_set_error_reason(&parser_,
"HPE_CHUNK_EXTENSIONS_OVERFLOW:Chunk extensions overflow");
return HPE_USER;
}
return 0;
}
// Reset nread for the next chunk and also reset the extensions counter
int on_chunk_header() {
header_nread_ = 0;
chunk_extensions_nread_ = 0;
return 0;
}
// Reset nread for the next chunk
int on_chunk_complete() {
header_nread_ = 0;
return 0;
}
static void New(const FunctionCallbackInfo<Value>& args) {
BindingData* binding_data = Realm::GetBindingData<BindingData>(args);
new Parser(binding_data, args.This());
}
static void Close(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
delete parser;
}
static void Free(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
// Since the Parser destructor isn't going to run the destroy() callbacks
// it needs to be triggered manually.
parser->EmitTraceEventDestroy();
parser->EmitDestroy();
}
static void Remove(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
if (parser->connectionsList_ != nullptr) {
parser->connectionsList_->Pop(parser);
parser->connectionsList_->PopActive(parser);
}
}
void Save() {
url_.Save();
status_message_.Save();
for (size_t i = 0; i < num_fields_; i++) {
fields_[i].Save();
}
for (size_t i = 0; i < num_values_; i++) {
values_[i].Save();
}
}
// var bytesParsed = parser->execute(buffer);
static void Execute(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
ArrayBufferViewContents<char> buffer(args[0]);
Local<Value> ret = parser->Execute(buffer.data(), buffer.length());
if (!ret.IsEmpty())
args.GetReturnValue().Set(ret);
}
static void Finish(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
Local<Value> ret = parser->Execute(nullptr, 0);
if (!ret.IsEmpty())
args.GetReturnValue().Set(ret);
}
static void Initialize(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
uint64_t max_http_header_size = 0;
uint32_t lenient_flags = kLenientNone;
ConnectionsList* connectionsList = nullptr;
CHECK(args[0]->IsInt32());
CHECK(args[1]->IsObject());
if (args.Length() > 2) {
CHECK(args[2]->IsNumber());
max_http_header_size =
static_cast<uint64_t>(args[2].As<Number>()->Value());
}
if (max_http_header_size == 0) {
max_http_header_size = env->options()->max_http_header_size;
}
if (args.Length() > 3) {
CHECK(args[3]->IsInt32());
lenient_flags = args[3].As<Int32>()->Value();
}
if (args.Length() > 4 && !args[4]->IsNullOrUndefined()) {
CHECK(args[4]->IsObject());
ASSIGN_OR_RETURN_UNWRAP(&connectionsList, args[4]);
}
llhttp_type_t type =
static_cast<llhttp_type_t>(args[0].As<Int32>()->Value());
CHECK(type == HTTP_REQUEST || type == HTTP_RESPONSE);
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
// Should always be called from the same context.
CHECK_EQ(env, parser->env());
AsyncWrap::ProviderType provider =
(type == HTTP_REQUEST ?
AsyncWrap::PROVIDER_HTTPINCOMINGMESSAGE
: AsyncWrap::PROVIDER_HTTPCLIENTREQUEST);
parser->set_provider_type(provider);
parser->AsyncReset(args[1].As<Object>());
parser->Init(type, max_http_header_size, lenient_flags);
if (connectionsList != nullptr) {
parser->connectionsList_ = connectionsList;
// This protects from a DoS attack where an attacker establishes
// the connection without sending any data on applications where
// server.timeout is left to the default value of zero.
parser->last_message_start_ = uv_hrtime();
// Important: Push into the lists AFTER setting the last_message_start_
// otherwise std::set.erase will fail later.
parser->connectionsList_->Push(parser);
parser->connectionsList_->PushActive(parser);
} else {
parser->connectionsList_ = nullptr;
}
}
template <bool should_pause>
static void Pause(const FunctionCallbackInfo<Value>& args) {
Environment* env = Environment::GetCurrent(args);
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
// Should always be called from the same context.
CHECK_EQ(env, parser->env());
if constexpr (should_pause) {
llhttp_pause(&parser->parser_);
} else {
llhttp_resume(&parser->parser_);
}
}
static void Consume(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
CHECK(args[0]->IsObject());
StreamBase* stream = StreamBase::FromObject(args[0].As<Object>());
CHECK_NOT_NULL(stream);
stream->PushStreamListener(parser);
}
static void Unconsume(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
// Already unconsumed
if (parser->stream_ == nullptr)
return;
parser->stream_->RemoveStreamListener(parser);
}
static void GetCurrentBuffer(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
Local<Object> ret = Buffer::Copy(
parser->env(),
parser->current_buffer_data_,
parser->current_buffer_len_).ToLocalChecked();
args.GetReturnValue().Set(ret);
}
static void Duration(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
if (parser->last_message_start_ == 0) {
args.GetReturnValue().Set(0);
return;
}
double duration = (uv_hrtime() - parser->last_message_start_) / 1e6;
args.GetReturnValue().Set(duration);
}
static void HeadersCompleted(const FunctionCallbackInfo<Value>& args) {
Parser* parser;
ASSIGN_OR_RETURN_UNWRAP(&parser, args.Holder());
args.GetReturnValue().Set(parser->headers_completed_);
}
protected:
static const size_t kAllocBufferSize = 64 * 1024;
uv_buf_t OnStreamAlloc(size_t suggested_size) override {
// For most types of streams, OnStreamRead will be immediately after
// OnStreamAlloc, and will consume all data, so using a static buffer for
// reading is more efficient. For other streams, just use Malloc() directly.
if (binding_data_->parser_buffer_in_use)
return uv_buf_init(Malloc(suggested_size), suggested_size);
binding_data_->parser_buffer_in_use = true;
if (binding_data_->parser_buffer.empty())
binding_data_->parser_buffer.resize(kAllocBufferSize);
return uv_buf_init(binding_data_->parser_buffer.data(), kAllocBufferSize);
}
void OnStreamRead(ssize_t nread, const uv_buf_t& buf) override {
HandleScope scope(env()->isolate());
// Once we’re done here, either indicate that the HTTP parser buffer
// is free for re-use, or free() the data if it didn’t come from there
// in the first place.
auto on_scope_leave = OnScopeLeave([&]() {
if (buf.base == binding_data_->parser_buffer.data())
binding_data_->parser_buffer_in_use = false;
else
free(buf.base);
});
if (nread < 0) {
PassReadErrorToPreviousListener(nread);
return;
}
// Ignore, empty reads have special meaning in http parser
if (nread == 0)
return;
Local<Value> ret = Execute(buf.base, nread);
// Exception
if (ret.IsEmpty())
return;
Local<Value> cb =
object()->Get(env()->context(), kOnExecute).ToLocalChecked();
if (!cb->IsFunction())
return;
// Hooks for GetCurrentBuffer
current_buffer_len_ = nread;
current_buffer_data_ = buf.base;
MakeCallback(cb.As<Function>(), 1, &ret);
current_buffer_len_ = 0;
current_buffer_data_ = nullptr;
}
Local<Value> Execute(const char* data, size_t len) {
EscapableHandleScope scope(env()->isolate());
current_buffer_len_ = len;
current_buffer_data_ = data;
got_exception_ = false;
llhttp_errno_t err;
if (data == nullptr) {
err = llhttp_finish(&parser_);
} else {
err = llhttp_execute(&parser_, data, len);
Save();
}
// Calculate bytes read and resume after Upgrade/CONNECT pause
size_t nread = len;
if (err != HPE_OK) {
nread = llhttp_get_error_pos(&parser_) - data;
// This isn't a real pause, just a way to stop parsing early.
if (err == HPE_PAUSED_UPGRADE) {
err = HPE_OK;
llhttp_resume_after_upgrade(&parser_);
}
}
// Apply pending pause
if (pending_pause_) {
pending_pause_ = false;
llhttp_pause(&parser_);
}
current_buffer_len_ = 0;
current_buffer_data_ = nullptr;
// If there was an exception in one of the callbacks
if (got_exception_)
return scope.Escape(Local<Value>());
Local<Integer> nread_obj = Integer::New(env()->isolate(), nread);
// If there was a parse error in one of the callbacks
// TODO(bnoordhuis) What if there is an error on EOF?
if (!parser_.upgrade && err != HPE_OK) {
Local<Value> e = Exception::Error(env()->parse_error_string());
Local<Object> obj = e->ToObject(env()->isolate()->GetCurrentContext())
.ToLocalChecked();
obj->Set(env()->context(),
env()->bytes_parsed_string(),
nread_obj).Check();
const char* errno_reason = llhttp_get_error_reason(&parser_);
Local<String> code;
Local<String> reason;
if (err == HPE_USER) {
const char* colon = strchr(errno_reason, ':');
CHECK_NOT_NULL(colon);
code = OneByteString(env()->isolate(),
errno_reason,
static_cast<int>(colon - errno_reason));
reason = OneByteString(env()->isolate(), colon + 1);
} else {
code = OneByteString(env()->isolate(), llhttp_errno_name(err));
reason = OneByteString(env()->isolate(), errno_reason);
}
obj->Set(env()->context(), env()->code_string(), code).Check();
obj->Set(env()->context(), env()->reason_string(), reason).Check();
return scope.Escape(e);
}
// No return value is needed for `Finish()`
if (data == nullptr) {
return scope.Escape(Local<Value>());
}
return scope.Escape(nread_obj);
}
Local<Array> CreateHeaders() {
// There could be extra entries but the max size should be fixed
Local<Value> headers_v[kMaxHeaderFieldsCount * 2];
for (size_t i = 0; i < num_values_; ++i) {
headers_v[i * 2] = fields_[i].ToString(env());
headers_v[i * 2 + 1] = values_[i].ToTrimmedString(env());
}
return Array::New(env()->isolate(), headers_v, num_values_ * 2);
}
// spill headers and request path to JS land
void Flush() {
HandleScope scope(env()->isolate());
Local<Object> obj = object();
Local<Value> cb = obj->Get(env()->context(), kOnHeaders).ToLocalChecked();
if (!cb->IsFunction())
return;
Local<Value> argv[2] = {
CreateHeaders(),
url_.ToString(env())
};
MaybeLocal<Value> r = MakeCallback(cb.As<Function>(),
arraysize(argv),
argv);
if (r.IsEmpty())
got_exception_ = true;
url_.Reset();
have_flushed_ = true;
}
void Init(llhttp_type_t type, uint64_t max_http_header_size,
uint32_t lenient_flags) {
llhttp_init(&parser_, type, &settings);
if (lenient_flags & kLenientHeaders) {
llhttp_set_lenient_headers(&parser_, 1);
}
if (lenient_flags & kLenientChunkedLength) {
llhttp_set_lenient_chunked_length(&parser_, 1);
}
if (lenient_flags & kLenientKeepAlive) {
llhttp_set_lenient_keep_alive(&parser_, 1);
}
if (lenient_flags & kLenientTransferEncoding) {
llhttp_set_lenient_transfer_encoding(&parser_, 1);
}
if (lenient_flags & kLenientVersion) {
llhttp_set_lenient_version(&parser_, 1);
}
if (lenient_flags & kLenientDataAfterClose) {
llhttp_set_lenient_data_after_close(&parser_, 1);
}
if (lenient_flags & kLenientOptionalLFAfterCR) {
llhttp_set_lenient_optional_lf_after_cr(&parser_, 1);
}
if (lenient_flags & kLenientOptionalCRLFAfterChunk) {
llhttp_set_lenient_optional_crlf_after_chunk(&parser_, 1);
}
if (lenient_flags & kLenientOptionalCRBeforeLF) {
llhttp_set_lenient_optional_cr_before_lf(&parser_, 1);
}
if (lenient_flags & kLenientSpacesAfterChunkSize) {
llhttp_set_lenient_spaces_after_chunk_size(&parser_, 1);
}
header_nread_ = 0;
url_.Reset();
status_message_.Reset();
num_fields_ = 0;
num_values_ = 0;
have_flushed_ = false;
got_exception_ = false;
headers_completed_ = false;
max_http_header_size_ = max_http_header_size;
}
int TrackHeader(size_t len) {
header_nread_ += len;
if (header_nread_ >= max_http_header_size_) {
llhttp_set_error_reason(&parser_, "HPE_HEADER_OVERFLOW:Header overflow");
return HPE_USER;
}
return 0;
}
int MaybePause() {
if (!pending_pause_) {
return 0;
}
pending_pause_ = false;
llhttp_set_error_reason(&parser_, "Paused in callback");
return HPE_PAUSED;
}
bool IsNotIndicativeOfMemoryLeakAtExit() const override {
// HTTP parsers are able to emit events without any GC root referring
// to them, because they receive events directly from the underlying
// libuv resource.
return true;
}
llhttp_t parser_;
StringPtr fields_[kMaxHeaderFieldsCount]; // header fields
StringPtr values_[kMaxHeaderFieldsCount]; // header values
StringPtr url_;
StringPtr status_message_;
size_t num_fields_;
size_t num_values_;
bool have_flushed_;
bool got_exception_;
size_t current_buffer_len_;
const char* current_buffer_data_;
bool headers_completed_ = false;
bool pending_pause_ = false;
uint64_t header_nread_ = 0;
uint64_t chunk_extensions_nread_ = 0;
uint64_t max_http_header_size_;
uint64_t last_message_start_;
ConnectionsList* connectionsList_;
BaseObjectPtr<BindingData> binding_data_;
// These are helper functions for filling `http_parser_settings`, which turn
// a member function of Parser into a C-style HTTP parser callback.
template <typename Parser, Parser> struct Proxy;
template <typename Parser, typename ...Args, int (Parser::*Member)(Args...)>
struct Proxy<int (Parser::*)(Args...), Member> {
static int Raw(llhttp_t* p, Args ... args) {
Parser* parser = ContainerOf(&Parser::parser_, p);
int rv = (parser->*Member)(std::forward<Args>(args)...);
if (rv == 0) {
rv = parser->MaybePause();
}
return rv;
}
};
typedef int (Parser::*Call)();
typedef int (Parser::*DataCall)(const char* at, size_t length);
static const llhttp_settings_t settings;
};
bool ParserComparator::operator()(const Parser* lhs, const Parser* rhs) const {
if (lhs->last_message_start_ == 0 && rhs->last_message_start_ == 0) {
// When both parsers are idle, guarantee strict order by
// comparing pointers as ints.
return lhs < rhs;
} else if (lhs->last_message_start_ == 0) {
return true;
} else if (rhs->last_message_start_ == 0) {
return false;
}
return lhs->last_message_start_ < rhs->last_message_start_;
}
void ConnectionsList::New(const FunctionCallbackInfo<Value>& args) {
Local<Context> context = args.GetIsolate()->GetCurrentContext();
Environment* env = Environment::GetCurrent(context);
new ConnectionsList(env, args.This());
}
void ConnectionsList::All(const FunctionCallbackInfo<Value>& args) {
Isolate* isolate = args.GetIsolate();
ConnectionsList* list;
ASSIGN_OR_RETURN_UNWRAP(&list, args.Holder());
std::vector<Local<Value>> result;
result.reserve(list->all_connections_.size());
for (auto parser : list->all_connections_) {
result.emplace_back(parser->object());
}
return args.GetReturnValue().Set(
Array::New(isolate, result.data(), result.size()));
}
void ConnectionsList::Idle(const FunctionCallbackInfo<Value>& args) {
Isolate* isolate = args.GetIsolate();
ConnectionsList* list;
ASSIGN_OR_RETURN_UNWRAP(&list, args.Holder());
std::vector<Local<Value>> result;
result.reserve(list->all_connections_.size());
for (auto parser : list->all_connections_) {
if (parser->last_message_start_ == 0) {
result.emplace_back(parser->object());
}
}
return args.GetReturnValue().Set(
Array::New(isolate, result.data(), result.size()));
}
void ConnectionsList::Active(const FunctionCallbackInfo<Value>& args) {
Isolate* isolate = args.GetIsolate();
ConnectionsList* list;
ASSIGN_OR_RETURN_UNWRAP(&list, args.Holder());
std::vector<Local<Value>> result;
result.reserve(list->active_connections_.size());
for (auto parser : list->active_connections_) {
result.emplace_back(parser->object());
}
return args.GetReturnValue().Set(
Array::New(isolate, result.data(), result.size()));
}
void ConnectionsList::Expired(const FunctionCallbackInfo<Value>& args) {
Isolate* isolate = args.GetIsolate();
ConnectionsList* list;
ASSIGN_OR_RETURN_UNWRAP(&list, args.Holder());
CHECK(args[0]->IsNumber());
CHECK(args[1]->IsNumber());
uint64_t headers_timeout =
static_cast<uint64_t>(args[0].As<Uint32>()->Value()) * 1000000;
uint64_t request_timeout =
static_cast<uint64_t>(args[1].As<Uint32>()->Value()) * 1000000;
if (headers_timeout == 0 && request_timeout == 0) {
return args.GetReturnValue().Set(Array::New(isolate, 0));
} else if (request_timeout > 0 && headers_timeout > request_timeout) {
std::swap(headers_timeout, request_timeout);
}
// On IoT or embedded devices the uv_hrtime() may return the timestamp
// that is smaller than configured timeout for headers or request
// to prevent subtracting two unsigned integers
// that can yield incorrect results we should check
// if the 'now' is bigger than the timeout for headers or request
const uint64_t now = uv_hrtime();
const uint64_t headers_deadline =
(headers_timeout > 0 && now > headers_timeout) ? now - headers_timeout
: 0;
const uint64_t request_deadline =
(request_timeout > 0 && now > request_timeout) ? now - request_timeout
: 0;
if (headers_deadline == 0 && request_deadline == 0) {
return args.GetReturnValue().Set(Array::New(isolate, 0));
}
auto iter = list->active_connections_.begin();
auto end = list->active_connections_.end();
std::vector<Local<Value>> result;
result.reserve(list->active_connections_.size());
while (iter != end) {
Parser* parser = *iter;
iter++;
// Check for expiration.
if (
(!parser->headers_completed_ && headers_deadline > 0 &&
parser->last_message_start_ < headers_deadline) ||
(
request_deadline > 0 &&
parser->last_message_start_ < request_deadline)
) {
result.emplace_back(parser->object());
list->active_connections_.erase(parser);
}
}
return args.GetReturnValue().Set(
Array::New(isolate, result.data(), result.size()));
}
const llhttp_settings_t Parser::settings = {
Proxy<Call, &Parser::on_message_begin>::Raw,
Proxy<DataCall, &Parser::on_url>::Raw,
Proxy<DataCall, &Parser::on_status>::Raw,
// on_method
nullptr,
// on_version
nullptr,
Proxy<DataCall, &Parser::on_header_field>::Raw,
Proxy<DataCall, &Parser::on_header_value>::Raw,
// on_chunk_extension_name
Proxy<DataCall, &Parser::on_chunk_extension>::Raw,
// on_chunk_extension_value
Proxy<DataCall, &Parser::on_chunk_extension>::Raw,
Proxy<Call, &Parser::on_headers_complete>::Raw,
Proxy<DataCall, &Parser::on_body>::Raw,
Proxy<Call, &Parser::on_message_complete>::Raw,
// on_url_complete
nullptr,
// on_status_complete
nullptr,
// on_method_complete
nullptr,
// on_version_complete
nullptr,
// on_header_field_complete
nullptr,
// on_header_value_complete
nullptr,
// on_chunk_extension_name_complete
nullptr,
// on_chunk_extension_value_complete
nullptr,
Proxy<Call, &Parser::on_chunk_header>::Raw,
Proxy<Call, &Parser::on_chunk_complete>::Raw,
// on_reset,
nullptr,
};
void InitializeHttpParser(Local<Object> target,
Local<Value> unused,
Local<Context> context,
void* priv) {
Realm* realm = Realm::GetCurrent(context);
Environment* env = realm->env();
Isolate* isolate = env->isolate();
BindingData* const binding_data = realm->AddBindingData<BindingData>(target);
if (binding_data == nullptr) return;
Local<FunctionTemplate> t = NewFunctionTemplate(isolate, Parser::New);
t->InstanceTemplate()->SetInternalFieldCount(Parser::kInternalFieldCount);
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "REQUEST"),
Integer::New(env->isolate(), HTTP_REQUEST));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "RESPONSE"),
Integer::New(env->isolate(), HTTP_RESPONSE));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnMessageBegin"),
Integer::NewFromUnsigned(env->isolate(), kOnMessageBegin));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnHeaders"),
Integer::NewFromUnsigned(env->isolate(), kOnHeaders));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnHeadersComplete"),
Integer::NewFromUnsigned(env->isolate(), kOnHeadersComplete));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnBody"),
Integer::NewFromUnsigned(env->isolate(), kOnBody));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnMessageComplete"),
Integer::NewFromUnsigned(env->isolate(), kOnMessageComplete));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnExecute"),
Integer::NewFromUnsigned(env->isolate(), kOnExecute));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kOnTimeout"),
Integer::NewFromUnsigned(env->isolate(), kOnTimeout));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientNone"),
Integer::NewFromUnsigned(env->isolate(), kLenientNone));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientHeaders"),
Integer::NewFromUnsigned(env->isolate(), kLenientHeaders));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientChunkedLength"),
Integer::NewFromUnsigned(env->isolate(), kLenientChunkedLength));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientKeepAlive"),
Integer::NewFromUnsigned(env->isolate(), kLenientKeepAlive));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientTransferEncoding"),
Integer::NewFromUnsigned(env->isolate(), kLenientTransferEncoding));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientVersion"),
Integer::NewFromUnsigned(env->isolate(), kLenientVersion));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientDataAfterClose"),
Integer::NewFromUnsigned(env->isolate(), kLenientDataAfterClose));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientOptionalLFAfterCR"),
Integer::NewFromUnsigned(env->isolate(), kLenientOptionalLFAfterCR));
t->Set(
FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientOptionalCRLFAfterChunk"),
Integer::NewFromUnsigned(env->isolate(), kLenientOptionalCRLFAfterChunk));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientOptionalCRBeforeLF"),
Integer::NewFromUnsigned(env->isolate(), kLenientOptionalCRBeforeLF));
t->Set(
FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientSpacesAfterChunkSize"),
Integer::NewFromUnsigned(env->isolate(), kLenientSpacesAfterChunkSize));
t->Set(FIXED_ONE_BYTE_STRING(env->isolate(), "kLenientAll"),
Integer::NewFromUnsigned(env->isolate(), kLenientAll));
Local<Array> methods = Array::New(env->isolate());
#define V(num, name, string) \
methods->Set(env->context(), \
num, FIXED_ONE_BYTE_STRING(env->isolate(), #string)).Check();
HTTP_METHOD_MAP(V)
#undef V
target->Set(env->context(),
FIXED_ONE_BYTE_STRING(env->isolate(), "methods"),
methods).Check();
t->Inherit(AsyncWrap::GetConstructorTemplate(env));
SetProtoMethod(isolate, t, "close", Parser::Close);
SetProtoMethod(isolate, t, "free", Parser::Free);
SetProtoMethod(isolate, t, "remove", Parser::Remove);
SetProtoMethod(isolate, t, "execute", Parser::Execute);
SetProtoMethod(isolate, t, "finish", Parser::Finish);
SetProtoMethod(isolate, t, "initialize", Parser::Initialize);
SetProtoMethod(isolate, t, "pause", Parser::Pause<true>);
SetProtoMethod(isolate, t, "resume", Parser::Pause<false>);
SetProtoMethod(isolate, t, "consume", Parser::Consume);
SetProtoMethod(isolate, t, "unconsume", Parser::Unconsume);
SetProtoMethod(isolate, t, "getCurrentBuffer", Parser::GetCurrentBuffer);
SetProtoMethod(isolate, t, "duration", Parser::Duration);
SetProtoMethod(isolate, t, "headersCompleted", Parser::HeadersCompleted);
SetConstructorFunction(context, target, "HTTPParser", t);
Local<FunctionTemplate> c =
NewFunctionTemplate(isolate, ConnectionsList::New);
c->InstanceTemplate()
->SetInternalFieldCount(ConnectionsList::kInternalFieldCount);
SetProtoMethod(isolate, c, "all", ConnectionsList::All);
SetProtoMethod(isolate, c, "idle", ConnectionsList::Idle);
SetProtoMethod(isolate, c, "active", ConnectionsList::Active);
SetProtoMethod(isolate, c, "expired", ConnectionsList::Expired);
SetConstructorFunction(context, target, "ConnectionsList", c);
}
} // anonymous namespace
} // namespace node
NODE_BINDING_CONTEXT_AWARE_INTERNAL(http_parser, node::InitializeHttpParser)
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