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arangodb/arangod/V8Server/v8-user-structures.cpp

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////////////////////////////////////////////////////////////////////////////////
/// @brief V8 user data structures
///
/// @file
///
/// DISCLAIMER
///
/// Copyright 2014 ArangoDB GmbH, Cologne, Germany
/// Copyright 2004-2014 triAGENS GmbH, Cologne, Germany
///
/// Licensed under the Apache License, Version 2.0 (the "License");
/// you may not use this file except in compliance with the License.
/// You may obtain a copy of the License at
///
/// http://www.apache.org/licenses/LICENSE-2.0
///
/// Unless required by applicable law or agreed to in writing, software
/// distributed under the License is distributed on an "AS IS" BASIS,
/// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
/// See the License for the specific language governing permissions and
/// limitations under the License.
///
/// Copyright holder is ArangoDB GmbH, Cologne, Germany
///
/// @author Jan Steemann
/// @author Copyright 2014, ArangoDB GmbH, Cologne, Germany
/// @author Copyright 2011-2013, triAGENS GmbH, Cologne, Germany
////////////////////////////////////////////////////////////////////////////////
#include "v8-user-structures.h"
#include "Basics/Exceptions.h"
#include "Basics/ReadWriteLock.h"
#include "Basics/ReadLocker.h"
#include "Basics/WriteLocker.h"
#include "Basics/hashes.h"
#include "Basics/json.h"
#include "Basics/json-utilities.h"
#include "Basics/tri-strings.h"
#include "VocBase/vocbase.h"
#include "V8/v8-conv.h"
#include "V8/v8-utils.h"
// -----------------------------------------------------------------------------
// --SECTION-- struct KeySpaceElement
// -----------------------------------------------------------------------------
struct KeySpaceElement {
KeySpaceElement () = delete;
KeySpaceElement (char const* k,
size_t length,
TRI_json_t* json)
: key(nullptr),
json(json) {
key = TRI_DuplicateString2Z(TRI_UNKNOWN_MEM_ZONE, k, length);
if (key == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
}
~KeySpaceElement () {
if (key != nullptr) {
TRI_FreeString(TRI_UNKNOWN_MEM_ZONE, key);
}
if (json != nullptr) {
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, json);
}
}
void setValue (TRI_json_t* value) {
if (json != nullptr) {
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, json);
json = nullptr;
}
json = value;
}
char* key;
TRI_json_t* json;
};
// -----------------------------------------------------------------------------
// --SECTION-- class KeySpace
// -----------------------------------------------------------------------------
class KeySpace {
public:
KeySpace (uint32_t initialSize)
: _lock() {
TRI_InitAssociativePointer(&_hash,
TRI_UNKNOWN_MEM_ZONE,
TRI_HashStringKeyAssociativePointer,
HashHash,
EqualHash,
nullptr);
if (initialSize > 0) {
TRI_ReserveAssociativePointer(&_hash, initialSize);
}
}
~KeySpace () {
uint32_t const n = _hash._nrAlloc;
for (uint32_t i = 0; i < n; ++i) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
delete element;
}
}
TRI_DestroyAssociativePointer(&_hash);
}
static uint64_t HashHash (TRI_associative_pointer_t*,
void const* element) {
return TRI_FnvHashString(static_cast<KeySpaceElement const*>(element)->key);
}
static bool EqualHash (TRI_associative_pointer_t*,
void const* key,
void const* element) {
return TRI_EqualString(static_cast<char const*>(key), static_cast<KeySpaceElement const*>(element)->key);
}
uint32_t keyspaceCount () {
READ_LOCKER(_lock);
return _hash._nrUsed;
}
uint32_t keyspaceCount (std::string const& prefix) {
uint32_t count = 0;
READ_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
for (uint32_t i = 0; i < n; ++i) {
auto data = static_cast<KeySpaceElement*>(_hash._table[i]);
if (data != nullptr) {
if (TRI_IsPrefixString(data->key, prefix.c_str())) {
++count;
}
}
}
return count;
}
v8::Handle<v8::Value> keyspaceRemove (v8::Isolate* isolate) {
v8::EscapableHandleScope scope(isolate);
WRITE_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
uint32_t deleted = 0;
for (uint32_t i = 0; i < n; ++i) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
delete element;
_hash._table[i] = nullptr;
++deleted;
}
}
_hash._nrUsed = 0;
return scope.Escape<v8::Value>(v8::Number::New(isolate, static_cast<int>(deleted)));
}
v8::Handle<v8::Value> keyspaceRemove (v8::Isolate* isolate,
std::string const& prefix) {
v8::EscapableHandleScope scope(isolate);
WRITE_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
uint32_t i = 0;
uint32_t deleted = 0;
while (i < n) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
if (TRI_IsPrefixString(element->key, prefix.c_str())) {
if (TRI_RemoveKeyAssociativePointer(&_hash, element->key) != nullptr) {
delete element;
++deleted;
continue;
}
}
}
++i;
}
return scope.Escape<v8::Value>(v8::Number::New(isolate, static_cast<int>(deleted)));
}
v8::Handle<v8::Value> keyspaceKeys (v8::Isolate* isolate) {
v8::EscapableHandleScope scope(isolate);
v8::Handle<v8::Array> result;
{
READ_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
uint32_t count = 0;
result = v8::Array::New(isolate, static_cast<int>(_hash._nrUsed));
for (uint32_t i = 0; i < n; ++i) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
result->Set(count++, TRI_V8_STRING(element->key));
}
}
}
return scope.Escape<v8::Value>(result);
}
v8::Handle<v8::Value> keyspaceKeys (v8::Isolate* isolate, std::string const& prefix) {
v8::EscapableHandleScope scope(isolate);
v8::Handle<v8::Array> result;
{
READ_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
uint32_t count = 0;
result = v8::Array::New(isolate);
for (uint32_t i = 0; i < n; ++i) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
if (TRI_IsPrefixString(element->key, prefix.c_str())) {
result->Set(count++, TRI_V8_STRING(element->key));
}
}
}
}
return scope.Escape<v8::Value>(result);
}
v8::Handle<v8::Value> keyspaceGet (v8::Isolate* isolate) {
v8::EscapableHandleScope scope(isolate);
v8::Handle<v8::Object> result = v8::Object::New(isolate);
{
READ_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
for (uint32_t i = 0; i < n; ++i) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
result->Set(TRI_V8_STRING(element->key), TRI_ObjectJson(isolate, element->json));
}
}
}
return scope.Escape<v8::Value>(result);
}
v8::Handle<v8::Value> keyspaceGet (v8::Isolate* isolate, std::string const& prefix) {
v8::EscapableHandleScope scope(isolate);
v8::Handle<v8::Object> result = v8::Object::New(isolate);
{
READ_LOCKER(_lock);
uint32_t const n = _hash._nrAlloc;
for (uint32_t i = 0; i < n; ++i) {
auto element = static_cast<KeySpaceElement*>(_hash._table[i]);
if (element != nullptr) {
if (TRI_IsPrefixString(element->key, prefix.c_str())) {
result->Set(TRI_V8_STRING(element->key), TRI_ObjectJson(isolate, element->json));
}
}
}
}
return scope.Escape<v8::Value>(result);
}
bool keyCount (std::string const& key,
uint32_t& result) {
READ_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found != nullptr) {
TRI_json_t const* value = found->json;
if (TRI_IsArrayJson(value)) {
result = static_cast<uint32_t>(TRI_LengthVector(&value->_value._objects));
return true;
}
if (TRI_IsObjectJson(value)) {
result = static_cast<uint32_t>(TRI_LengthVector(&value->_value._objects) / 2);
return true;
}
}
result = 0;
return false;
}
v8::Handle<v8::Value> keyGet (v8::Isolate* isolate, std::string const& key) {
v8::Handle<v8::Value> result;
{
READ_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
result = v8::Undefined(isolate);
}
else {
result = TRI_ObjectJson(isolate, found->json);
}
}
return result;
}
bool keySet (v8::Isolate* isolate,
std::string const& key,
v8::Handle<v8::Value> const& value,
bool replace) {
auto element = new KeySpaceElement(key.c_str(), key.size(), TRI_ObjectToJson(isolate, value));
KeySpaceElement* found = nullptr;
{
WRITE_LOCKER(_lock);
found = static_cast<KeySpaceElement*>(TRI_InsertKeyAssociativePointer(&_hash, element->key, element, replace));
}
if (found == nullptr) {
return true;
}
if (replace) {
delete found;
return true;
}
delete element;
return false;
}
int keyCas (v8::Isolate* isolate,
std::string const& key,
v8::Handle<v8::Value> const& value,
v8::Handle<v8::Value> const& compare,
bool& match) {
auto element = new KeySpaceElement(key.c_str(), key.size(), TRI_ObjectToJson(isolate, value));
WRITE_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_InsertKeyAssociativePointer(&_hash, element->key, element, false));
if (compare->IsUndefined()) {
if (found == nullptr) {
// no object saved yet
TRI_InsertKeyAssociativePointer(&_hash, element->key, element, false);
match = true;
}
else {
match = false;
}
return TRI_ERROR_NO_ERROR;
}
TRI_json_t* other = TRI_ObjectToJson(isolate, compare);
if (other == nullptr) {
delete element;
// TODO: fix error message
return TRI_ERROR_OUT_OF_MEMORY;
}
int res = TRI_CompareValuesJson(found->json, other);
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, other);
if (res != 0) {
delete element;
match = false;
}
else {
TRI_InsertKeyAssociativePointer(&_hash, element->key, element, true);
delete found;
match = true;
}
return TRI_ERROR_NO_ERROR;
}
bool keyRemove (std::string const& key) {
KeySpaceElement* found = nullptr;
{
WRITE_LOCKER(_lock);
found = static_cast<KeySpaceElement*>(TRI_RemoveKeyAssociativePointer(&_hash, key.c_str()));
}
if (found != nullptr) {
delete found;
return true;
}
return false;
}
bool keyExists (std::string const& key) {
READ_LOCKER(_lock);
return (TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()) != nullptr);
}
int keyIncr (std::string const& key,
double value,
double& result) {
WRITE_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
auto element = new KeySpaceElement(key.c_str(), key.size(), TRI_CreateNumberJson(TRI_UNKNOWN_MEM_ZONE, value));
if (TRI_InsertKeyAssociativePointer(&_hash, element->key, static_cast<void*>(element), false) != TRI_ERROR_NO_ERROR) {
delete element;
return TRI_ERROR_OUT_OF_MEMORY;
}
result = value;
}
else {
TRI_json_t* current = found->json;
if (! TRI_IsNumberJson(current)) {
// TODO: change error code
return TRI_ERROR_ILLEGAL_NUMBER;
}
result = current->_value._number += value;
}
return TRI_ERROR_NO_ERROR;
}
int keyPush (v8::Isolate* isolate,
std::string const& key,
v8::Handle<v8::Value> const& value) {
WRITE_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
TRI_json_t* list = TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, 1);
if (list == nullptr) {
return TRI_ERROR_OUT_OF_MEMORY;
}
if (TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, list, TRI_ObjectToJson(isolate, value)) != TRI_ERROR_NO_ERROR) {
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, list);
return TRI_ERROR_OUT_OF_MEMORY;
}
auto element = new KeySpaceElement(key.c_str(), key.size(), list);
if (TRI_InsertKeyAssociativePointer(&_hash, element->key, static_cast<void*>(element), false) != TRI_ERROR_NO_ERROR) {
delete element;
return TRI_ERROR_OUT_OF_MEMORY;
}
}
else {
TRI_json_t* current = found->json;
if (! TRI_IsArrayJson(current)) {
// TODO: change error code
return TRI_ERROR_INTERNAL;
}
if (TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, current, TRI_ObjectToJson(isolate, value)) != TRI_ERROR_NO_ERROR) {
return TRI_ERROR_OUT_OF_MEMORY;
}
}
return TRI_ERROR_NO_ERROR;
}
void keyPop (const v8::FunctionCallbackInfo<v8::Value>& args, std::string const& key) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
WRITE_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
TRI_json_t* current = found->json;
if (! TRI_IsArrayJson(current)) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
size_t const n = TRI_LengthVector(&current->_value._objects);
if (n == 0) {
TRI_V8_RETURN_UNDEFINED();
}
TRI_json_t* item = static_cast<TRI_json_t*>(TRI_AtVector(&current->_value._objects, n - 1));
// hack: decrease the vector size
TRI_SetLengthVector(&current->_value._objects, TRI_LengthVector(&current->_value._objects) - 1);
v8::Handle<v8::Value> result = TRI_ObjectJson(isolate, item);
TRI_DestroyJson(TRI_UNKNOWN_MEM_ZONE, item);
TRI_V8_RETURN(result);
}
void keyTransfer (const v8::FunctionCallbackInfo<v8::Value>& args,
std::string const& keyFrom,
std::string const& keyTo) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
WRITE_LOCKER(_lock);
auto source = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, keyFrom.c_str()));
if (source == nullptr) {
TRI_V8_RETURN_UNDEFINED();
}
TRI_json_t* current = source->json;
if (! TRI_IsArrayJson(current)) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
size_t const n = TRI_LengthVector(&source->json->_value._objects);
if (n == 0) {
TRI_V8_RETURN_UNDEFINED();
}
TRI_json_t* sourceItem = static_cast<TRI_json_t*>(TRI_AtVector(&source->json->_value._objects, n - 1));
auto dest = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, keyTo.c_str()));
if (dest == nullptr) {
TRI_json_t* list = TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, 1);
if (list == nullptr) {
TRI_V8_THROW_EXCEPTION_MEMORY();
}
TRI_PushBack2ArrayJson(list, sourceItem);
try {
auto element = new KeySpaceElement(keyTo.c_str(), keyTo.size(), list);
TRI_InsertKeyAssociativePointer(&_hash, element->key, element, false);
// hack: decrease the vector size
TRI_SetLengthVector(&current->_value._objects, TRI_LengthVector(&current->_value._objects) - 1);
TRI_V8_RETURN(TRI_ObjectJson(isolate, sourceItem));
}
catch (...) {
TRI_V8_THROW_EXCEPTION_MEMORY();
}
}
if (! TRI_IsArrayJson(dest->json)) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
TRI_PushBack2ArrayJson(dest->json, sourceItem);
// hack: decrease the vector size
TRI_SetLengthVector(&current->_value._objects, TRI_LengthVector(&current->_value._objects) - 1);
TRI_V8_RETURN(TRI_ObjectJson(isolate, sourceItem));
}
v8::Handle<v8::Value> keyKeys (v8::Isolate* isolate, std::string const& key) {
v8::Handle<v8::Value> result;
{
READ_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
result = v8::Undefined(isolate);
}
else {
result = TRI_KeysJson(isolate, found->json);
}
}
return result;
}
v8::Handle<v8::Value> keyValues (v8::Isolate* isolate,
std::string const& key) {
v8::EscapableHandleScope scope(isolate);
v8::Handle<v8::Value> result;
{
READ_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
result = v8::Undefined(isolate);
}
else {
result = TRI_ValuesJson(isolate, found->json);
}
}
return scope.Escape<v8::Value>(result);
}
void keyGetAt (const v8::FunctionCallbackInfo<v8::Value>& args,
std::string const& key,
int64_t index) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
v8::Handle<v8::Value> result;
{
READ_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
result = v8::Undefined(isolate);
}
else {
if (! TRI_IsArrayJson(found->json)) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
size_t const n = TRI_LengthArrayJson(found->json);
if (index < 0) {
index = static_cast<int64_t>(n) + index;
}
if (index >= static_cast<int64_t>(n)) {
result = v8::Undefined(isolate);
}
else {
auto item = static_cast<TRI_json_t const*>(TRI_AtVector(&found->json->_value._objects, static_cast<size_t>(index)));
result = TRI_ObjectJson(isolate, item);
}
}
}
TRI_V8_RETURN(result);
}
bool keySetAt (v8::Isolate* isolate,
std::string const& key,
int64_t index,
v8::Handle<v8::Value> const& value) {
WRITE_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
// TODO: change error code
return false;
}
else {
if (! TRI_IsArrayJson(found->json)) {
// TODO: change error code
return false;
}
size_t const n = TRI_LengthArrayJson(found->json);
if (index < 0) {
// TODO: change error code
return false;
}
auto json = TRI_ObjectToJson(isolate, value);
if (json == nullptr) {
// TODO: change error code
return false;
}
if (index >= static_cast<int64_t>(n)) {
// insert new element
TRI_InsertVector(&found->json->_value._objects, json, static_cast<size_t>(index));
}
else {
// overwrite existing element
auto item = static_cast<TRI_json_t*>(TRI_AtVector(&found->json->_value._objects, static_cast<size_t>(index)));
if (item != nullptr) {
TRI_DestroyJson(TRI_UNKNOWN_MEM_ZONE, item);
}
TRI_SetVector(&found->json->_value._objects, static_cast<size_t>(index), json);
}
// only free pointer to json, but not its internal structures
TRI_Free(TRI_UNKNOWN_MEM_ZONE, json);
}
return true;
}
char const* keyType (std::string const& key) {
READ_LOCKER(_lock);
void* found = TRI_LookupByKeyAssociativePointer(&_hash, key.c_str());
if (found != nullptr) {
TRI_json_t const* value = static_cast<KeySpaceElement*>(found)->json;
switch (value->_type) {
case TRI_JSON_NULL:
return "null";
case TRI_JSON_BOOLEAN:
return "boolean";
case TRI_JSON_NUMBER:
return "number";
case TRI_JSON_STRING:
case TRI_JSON_STRING_REFERENCE:
return "string";
case TRI_JSON_ARRAY:
return "list";
case TRI_JSON_OBJECT:
return "object";
case TRI_JSON_UNUSED:
break;
}
}
return "undefined";
}
void keyMerge (const v8::FunctionCallbackInfo<v8::Value>& args,
std::string const& key,
v8::Handle<v8::Value> const& value,
bool nullMeansRemove) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (! value->IsObject() || value->IsArray()) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
WRITE_LOCKER(_lock);
auto found = static_cast<KeySpaceElement*>(TRI_LookupByKeyAssociativePointer(&_hash, key.c_str()));
if (found == nullptr) {
auto element = new KeySpaceElement(key.c_str(), key.size(), TRI_ObjectToJson(isolate, value));
TRI_InsertKeyAssociativePointer(&_hash, element->key, element, false);
TRI_V8_RETURN(value);
}
if (! TRI_IsObjectJson(found->json)) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
TRI_json_t* other = TRI_ObjectToJson(isolate, value);
if (other == nullptr) {
TRI_V8_THROW_EXCEPTION_MEMORY();
}
TRI_json_t* merged = TRI_MergeJson(TRI_UNKNOWN_MEM_ZONE, found->json, other, nullMeansRemove, false);
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, other);
if (merged == nullptr) {
TRI_V8_THROW_EXCEPTION_MEMORY();
}
found->setValue(merged);
TRI_V8_RETURN(TRI_ObjectJson(isolate, merged));
}
private:
triagens::basics::ReadWriteLock _lock;
TRI_associative_pointer_t _hash;
};
// -----------------------------------------------------------------------------
// --SECTION-- struct UserStructures
// -----------------------------------------------------------------------------
struct UserStructures {
struct {
triagens::basics::ReadWriteLock lock;
std::unordered_map<std::string, KeySpace*> data;
}
hashes;
};
// -----------------------------------------------------------------------------
// --SECTION-- private functions
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief get the vocbase pointer from the current V8 context
////////////////////////////////////////////////////////////////////////////////
static inline TRI_vocbase_t* GetContextVocBase (v8::Isolate* isolate) {
TRI_GET_GLOBALS();
TRI_ASSERT_EXPENSIVE(v8g->_vocbase != nullptr);
return static_cast<TRI_vocbase_t*>(v8g->_vocbase);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief finds a hash array by name
/// note that at least the read-lock must be held to use this function
////////////////////////////////////////////////////////////////////////////////
static KeySpace* GetKeySpace (TRI_vocbase_t* vocbase,
std::string const& name) {
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
auto it = h->data.find(name);
if (it != h->data.end()) {
return (*it).second;
}
return nullptr;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief creates a keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceCreate (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_CREATE(<name>, <size>, <ignoreExisting>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
int64_t size = 0;
if (args.Length() > 1) {
size = TRI_ObjectToInt64(args[1]);
if (size < 0 || size > static_cast<decltype(size)>(UINT32_MAX)) {
TRI_V8_THROW_EXCEPTION_PARAMETER("invalid value for <size>");
}
}
bool ignoreExisting = false;
if (args.Length() > 2) {
ignoreExisting = TRI_ObjectToBoolean(args[2]);
}
std::unique_ptr<KeySpace> ptr(new KeySpace(static_cast<uint32_t>(size)));
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
{
WRITE_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash != nullptr) {
if (! ignoreExisting) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION_MESSAGE(TRI_ERROR_INTERNAL, "hash already exists");
}
}
try {
h->data.emplace(std::make_pair(name, ptr.release()));
}
catch (...) {
TRI_V8_THROW_EXCEPTION_MEMORY();
}
}
TRI_V8_RETURN_TRUE();
}
////////////////////////////////////////////////////////////////////////////////
/// @brief drops a keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceDrop (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() != 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_DROP(<name>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
{
WRITE_LOCKER(h->lock);
auto it = h->data.find(name);
if (it == h->data.end()) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
delete (*it).second;
h->data.erase(it);
}
TRI_V8_RETURN_TRUE();
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns the number of items in the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceCount (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_COUNT(<name>, <prefix>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
uint32_t count;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
if (args.Length() > 1) {
std::string const&& prefix = TRI_ObjectToString(args[1]);
count = hash->keyspaceCount(prefix);
}
else {
count = hash->keyspaceCount();
}
}
TRI_V8_RETURN(v8::Number::New(isolate, static_cast<int>(count)));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns whether a keyspace exists
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceExists (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() != 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_EXISTS(<name>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash != nullptr) {
TRI_V8_RETURN_TRUE();
}
else {
TRI_V8_RETURN_FALSE();
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns all keys of the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceKeys (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_KEYS(<name>, <prefix>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
if (args.Length() > 1) {
std::string const&& prefix = TRI_ObjectToString(args[1]);
TRI_V8_RETURN(hash->keyspaceKeys(isolate, prefix));
}
TRI_V8_RETURN(hash->keyspaceKeys(isolate));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns all data of the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceGet (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_GET(<name>, <prefix>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
if (args.Length() > 1) {
std::string const&& prefix = TRI_ObjectToString(args[1]);
TRI_V8_RETURN(hash->keyspaceGet(isolate, prefix));
}
TRI_V8_RETURN(hash->keyspaceGet(isolate));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief removes all keys from the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyspaceRemove (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 1 || ! args[0]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEYSPACE_REMOVE(<name>, <prefix>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
if (args.Length() > 1) {
std::string const&& prefix = TRI_ObjectToString(args[1]);
TRI_V8_RETURN(hash->keyspaceRemove(isolate, prefix));
}
TRI_V8_RETURN(hash->keyspaceRemove(isolate));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns the value for a key in the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyGet (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_GET(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
v8::Handle<v8::Value> result;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
result = hash->keyGet(isolate, key);
}
TRI_V8_RETURN(result);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief set the value for a key in the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeySet (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 3 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_SET(<name>, <key>, <value>, <replace>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
bool replace = true;
if (args.Length() > 3) {
replace = TRI_ObjectToBoolean(args[3]);
}
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
bool result;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
result = hash->keySet(isolate, key, args[2], replace);
}
if (result) {
TRI_V8_RETURN_TRUE();
}
else {
TRI_V8_RETURN_FALSE();
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief conditionally set the value for a key in the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeySetCas (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 4 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_SET_CAS(<name>, <key>, <value>, <compare>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
if (args[2]->IsUndefined()) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
int res;
bool match = false;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
res = hash->keyCas(isolate, key, args[2], args[3], match);
}
if (res != TRI_ERROR_NO_ERROR) {
TRI_V8_THROW_EXCEPTION(res);
}
if (match) {
TRI_V8_RETURN_TRUE();
}
else {
TRI_V8_RETURN_FALSE();
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief remove the value for a key in the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyRemove (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_REMOVE(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
bool result;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
result = hash->keyRemove(key);
}
if (result) {
TRI_V8_RETURN_TRUE();
}
else {
TRI_V8_RETURN_FALSE();
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief checks if a key exists in the keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyExists (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_EXISTS(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
bool result;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
result = hash->keyExists(key);
}
if (result) {
TRI_V8_RETURN_TRUE();
}
else {
TRI_V8_RETURN_FALSE();
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief increase or decrease the value for a key in a keyspace
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyIncr (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_INCR(<name>, <key>, <value>)");
}
if (args.Length() >= 3 && ! args[2]->IsNumber()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_INCR(<name>, <key>, <value>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
double incr = 1.0;
if (args.Length() >= 3) {
incr = TRI_ObjectToDouble(args[2]);
}
double result;
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
int res = hash->keyIncr(key, incr, result);
if (res != TRI_ERROR_NO_ERROR) {
TRI_V8_THROW_EXCEPTION(res);
}
}
TRI_V8_RETURN(v8::Number::New(isolate, result));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief merges an object into the object with the specified key
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyUpdate (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 3 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_UPDATE(<name>, <key>, <object>, <nullMeansRemove>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
bool nullMeansRemove = false;
if (args.Length() > 3) {
nullMeansRemove = TRI_ObjectToBoolean(args[3]);
}
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
hash->keyMerge(args, key, args[2], nullMeansRemove);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns all keys of the key
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyKeys (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_KEYS(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
TRI_V8_RETURN(hash->keyKeys(isolate, key));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns all value of the hash array
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyValues (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_VALUES(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
TRI_V8_RETURN(hash->keyValues(isolate, key));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief right-pushes an element into a list value
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyPush (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 3 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_PUSH(<name>, <key>, <value>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
int res = hash->keyPush(isolate, key, args[2]);
if (res != TRI_ERROR_NO_ERROR) {
TRI_V8_THROW_EXCEPTION(res);
}
TRI_V8_RETURN_TRUE();
}
////////////////////////////////////////////////////////////////////////////////
/// @brief pops an element from a list value
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyPop (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_POP(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
hash->keyPop(args, key);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief transfer an element from a list value into another
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyTransfer (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 3 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_TRANSFER(<name>, <key-from>, <key-to>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& keyFrom = TRI_ObjectToString(args[1]);
std::string const&& keyTo = TRI_ObjectToString(args[2]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
hash->keyTransfer(args, keyFrom, keyTo);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief get an element at a specific list position
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyGetAt (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 3 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_GET_AT(<name>, <key>, <index>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
int64_t offset = TRI_ObjectToInt64(args[2]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
hash->keyGetAt(args, key, offset);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief set an element at a specific list position
////////////////////////////////////////////////////////////////////////////////
static void JS_KeySetAt (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 4 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_SET_AT(<name>, <key>, <index>, <value>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
int64_t offset = TRI_ObjectToInt64(args[2]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
int res = hash->keySetAt(isolate, key, offset, args[3]);
if (res != TRI_ERROR_NO_ERROR) {
TRI_V8_THROW_EXCEPTION(res);
}
TRI_V8_RETURN_TRUE();
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns the type of the value for a key
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyType (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_TYPE(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
char const* result;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
result = hash->keyType(key);
}
TRI_V8_RETURN_STRING(result);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief returns the number of items in a compound value
////////////////////////////////////////////////////////////////////////////////
static void JS_KeyCount (const v8::FunctionCallbackInfo<v8::Value>& args) {
v8::Isolate* isolate = args.GetIsolate();
v8::HandleScope scope(isolate);
if (args.Length() < 2 || ! args[0]->IsString() || ! args[1]->IsString()) {
TRI_V8_THROW_EXCEPTION_USAGE("KEY_COUNT(<name>, <key>)");
}
TRI_vocbase_t* vocbase = GetContextVocBase(isolate);
if (vocbase == nullptr) {
TRI_V8_THROW_EXCEPTION_INTERNAL("cannot extract vocbase");
}
std::string const&& name = TRI_ObjectToString(args[0]);
std::string const&& key = TRI_ObjectToString(args[1]);
auto h = &(static_cast<UserStructures*>(vocbase->_userStructures)->hashes);
uint32_t result;
bool valid;
{
READ_LOCKER(h->lock);
auto hash = GetKeySpace(vocbase, name);
if (hash == nullptr) {
// TODO: change error code
TRI_V8_THROW_EXCEPTION(TRI_ERROR_INTERNAL);
}
valid = hash->keyCount(key, result);
}
if (valid) {
TRI_V8_RETURN(v8::Number::New(isolate, result));
}
TRI_V8_RETURN_UNDEFINED();
}
// -----------------------------------------------------------------------------
// --SECTION-- public functions
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief creates the user structures for a database
////////////////////////////////////////////////////////////////////////////////
void TRI_CreateUserStructuresVocBase (TRI_vocbase_t* vocbase) {
TRI_ASSERT(vocbase != nullptr);
TRI_ASSERT(vocbase->_userStructures == nullptr);
vocbase->_userStructures = new UserStructures;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief drops the user structures for a database
////////////////////////////////////////////////////////////////////////////////
void TRI_FreeUserStructuresVocBase (TRI_vocbase_t* vocbase) {
if (vocbase->_userStructures != nullptr) {
auto us = static_cast<UserStructures*>(vocbase->_userStructures);
for (auto& hash : us->hashes.data) {
if (hash.second != nullptr) {
delete hash.second;
}
}
delete us;
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief creates the user structures functions
////////////////////////////////////////////////////////////////////////////////
void TRI_InitV8UserStructures (v8::Isolate* isolate,
v8::Handle<v8::Context> context) {
v8::HandleScope scope(isolate);
// NOTE: the following functions are all experimental and might
// change without further notice
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_CREATE"), JS_KeyspaceCreate, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_DROP"), JS_KeyspaceDrop, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_COUNT"), JS_KeyspaceCount, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_EXISTS"), JS_KeyspaceExists, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_KEYS"), JS_KeyspaceKeys, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_REMOVE"), JS_KeyspaceRemove, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEYSPACE_GET"), JS_KeyspaceGet, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_SET"), JS_KeySet, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_SET_CAS"), JS_KeySetCas, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_GET"), JS_KeyGet, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_REMOVE"), JS_KeyRemove, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_EXISTS"), JS_KeyExists, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_TYPE"), JS_KeyType, true);
// numeric functions
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_INCR"), JS_KeyIncr, true);
// list / array functions
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_UPDATE"), JS_KeyUpdate, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_KEYS"), JS_KeyKeys, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_VALUES"), JS_KeyValues, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_COUNT"), JS_KeyCount, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_PUSH"), JS_KeyPush, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_POP"), JS_KeyPop, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_TRANSFER"), JS_KeyTransfer, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_GET_AT"), JS_KeyGetAt, true);
TRI_AddGlobalFunctionVocbase(isolate, context, TRI_V8_ASCII_STRING("KEY_SET_AT"), JS_KeySetAt, true);
}
// -----------------------------------------------------------------------------
// --SECTION-- END-OF-FILE
// -----------------------------------------------------------------------------
// Local Variables:
// mode: outline-minor
// outline-regexp: "/// @brief\\|/// {@inheritDoc}\\|/// @page\\|// --SECTION--\\|/// @\\}"
// End:
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