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0ad/source/simulation2/system/ParamNode.cpp
wraitii ee0d204bf6 Wrap JSAutoRequest and replace usage of JSContext* with the wrapper. 
JSAutoRequest is required before calling into most JSAPI methods, for GC
reasons.
Calling it is required and fragile as one must not forget.
Further, SM52 and later make manipulating JSContext* dangerous as that
can cross Compartment(Realm in SM68) barriers (and ScriptInterface now
matches a Compartment).

The solution to both problems is to avoid using JSContext* in 0 A.D.
itself. To achieve this, a Request class is introduced, and must be used
to access a JSContext* from a scriptInterface. Further, Request is
passed to other ScriptInterface functions isntead of JSContext*, making
it obvious that the caller has already called it, reducing errors and
redundant JSAutoRequest calls.
Only JSNative functions now get a naked JSContext* without protection,
but the likelihood of forgetting a request is lower since many
ScriptInterface functions now expect it.

JSContext* is directly passed to JSAPI functions only.

Part of the SM52 migration, stage: SM45 compatible

Based on a patch by: Itms
Tested By: Freagarach
Refs #4893

Differential Revision: https://code.wildfiregames.com/D3088
This was SVN commit r24176.
2020-11-13 13:18:22 +00:00

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/* Copyright (C) 2017 Wildfire Games.
* This file is part of 0 A.D.
*
* 0 A.D. is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 of the License, or
* (at your option) any later version.
*
* 0 A.D. is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with 0 A.D. If not, see <http://www.gnu.org/licenses/>.
*/
#include "precompiled.h"
#include "ParamNode.h"
#include "lib/utf8.h"
#include "ps/CLogger.h"
#include "ps/CStr.h"
#include "ps/Filesystem.h"
#include "ps/XML/Xeromyces.h"
#include <sstream>
#include <boost/algorithm/string.hpp>
#include <boost/algorithm/string/join.hpp> // this isn't in string.hpp in old Boosts
static CParamNode g_NullNode(false);
CParamNode::CParamNode(bool isOk) :
m_IsOk(isOk)
{
}
void CParamNode::LoadXML(CParamNode& ret, const XMBFile& xmb, const wchar_t* sourceIdentifier /*= NULL*/)
{
ret.ApplyLayer(xmb, xmb.GetRoot(), sourceIdentifier);
}
void CParamNode::LoadXML(CParamNode& ret, const VfsPath& path, const std::string& validatorName)
{
CXeromyces xero;
PSRETURN ok = xero.Load(g_VFS, path, validatorName);
if (ok != PSRETURN_OK)
return; // (Xeromyces already logged an error)
LoadXML(ret, xero, path.string().c_str());
}
PSRETURN CParamNode::LoadXMLString(CParamNode& ret, const char* xml, const wchar_t* sourceIdentifier /*=NULL*/)
{
CXeromyces xero;
PSRETURN ok = xero.LoadString(xml);
if (ok != PSRETURN_OK)
return ok;
ret.ApplyLayer(xero, xero.GetRoot(), sourceIdentifier);
return PSRETURN_OK;
}
void CParamNode::ApplyLayer(const XMBFile& xmb, const XMBElement& element, const wchar_t* sourceIdentifier /*= NULL*/)
{
ResetScriptVal();
std::string name = xmb.GetElementString(element.GetNodeName()); // TODO: is GetElementString inefficient?
CStrW value = element.GetText().FromUTF8();
bool hasSetValue = false;
// Look for special attributes
int at_disable = xmb.GetAttributeID("disable");
int at_replace = xmb.GetAttributeID("replace");
int at_filtered = xmb.GetAttributeID("filtered");
int at_merge = xmb.GetAttributeID("merge");
int at_op = xmb.GetAttributeID("op");
int at_datatype = xmb.GetAttributeID("datatype");
enum op {
INVALID,
ADD,
MUL,
MUL_ROUND
} op = INVALID;
bool replacing = false;
bool filtering = false;
bool merging = false;
{
XERO_ITER_ATTR(element, attr)
{
if (attr.Name == at_disable)
{
m_Childs.erase(name);
return;
}
else if (attr.Name == at_replace)
{
m_Childs.erase(name);
replacing = true;
}
else if (attr.Name == at_filtered)
{
filtering = true;
}
else if (attr.Name == at_merge)
{
if (m_Childs.find(name) == m_Childs.end())
return;
merging = true;
}
else if (attr.Name == at_op)
{
if (std::wstring(attr.Value.begin(), attr.Value.end()) == L"add")
op = ADD;
else if (std::wstring(attr.Value.begin(), attr.Value.end()) == L"mul")
op = MUL;
else if (std::wstring(attr.Value.begin(), attr.Value.end()) == L"mul_round")
op = MUL_ROUND;
else
LOGWARNING("Invalid op '%ls'", attr.Value);
}
}
}
{
XERO_ITER_ATTR(element, attr)
{
if (attr.Name == at_datatype && std::wstring(attr.Value.begin(), attr.Value.end()) == L"tokens")
{
CParamNode& node = m_Childs[name];
// Split into tokens
std::vector<std::wstring> oldTokens;
std::vector<std::wstring> newTokens;
if (!replacing && !node.m_Value.empty()) // ignore the old tokens if replace="" was given
boost::algorithm::split(oldTokens, node.m_Value, boost::algorithm::is_space(), boost::algorithm::token_compress_on);
if (!value.empty())
boost::algorithm::split(newTokens, value, boost::algorithm::is_space(), boost::algorithm::token_compress_on);
// Merge the two lists
std::vector<std::wstring> tokens = oldTokens;
for (size_t i = 0; i < newTokens.size(); ++i)
{
if (newTokens[i][0] == L'-')
{
std::vector<std::wstring>::iterator tokenIt = std::find(tokens.begin(), tokens.end(), newTokens[i].substr(1));
if (tokenIt != tokens.end())
tokens.erase(tokenIt);
else
LOGWARNING("[ParamNode] Could not remove token '%s' from node '%s'%s; not present in list nor inherited (possible typo?)",
utf8_from_wstring(newTokens[i].substr(1)), name, sourceIdentifier ? (" in '" + utf8_from_wstring(sourceIdentifier) + "'").c_str() : "");
}
else
{
if (std::find(oldTokens.begin(), oldTokens.end(), newTokens[i]) == oldTokens.end())
tokens.push_back(newTokens[i]);
}
}
node.m_Value = boost::algorithm::join(tokens, L" ");
hasSetValue = true;
break;
}
}
}
// Add this element as a child node
CParamNode& node = m_Childs[name];
if (op != INVALID)
{
// TODO: Support parsing of data types other than fixed; log warnings in other cases
fixed oldval = node.ToFixed();
fixed mod = fixed::FromString(CStrW(value));
switch (op)
{
case ADD:
node.m_Value = (oldval + mod).ToString().FromUTF8();
break;
case MUL:
node.m_Value = oldval.Multiply(mod).ToString().FromUTF8();
break;
case MUL_ROUND:
node.m_Value = fixed::FromInt(oldval.Multiply(mod).ToInt_RoundToNearest()).ToString().FromUTF8();
break;
}
hasSetValue = true;
}
if (!hasSetValue && !merging)
node.m_Value = value;
// We also need to reset node's script val, even if it has no children
// or if the attributes change.
node.ResetScriptVal();
// For the filtered case
ChildrenMap childs;
// Recurse through the element's children
XERO_ITER_EL(element, child)
{
node.ApplyLayer(xmb, child, sourceIdentifier);
if (filtering)
{
std::string childname = xmb.GetElementString(child.GetNodeName());
if (node.m_Childs.find(childname) != node.m_Childs.end())
childs[childname] = std::move(node.m_Childs[childname]);
}
}
if (filtering)
node.m_Childs.swap(childs);
// Add the element's attributes, prefixing names with "@"
XERO_ITER_ATTR(element, attr)
{
// Skip special attributes
if (attr.Name == at_replace || attr.Name == at_op || attr.Name == at_merge || attr.Name == at_filtered)
continue;
// Add any others
std::string attrName = xmb.GetAttributeString(attr.Name);
node.m_Childs["@" + attrName].m_Value = attr.Value.FromUTF8();
}
}
const CParamNode& CParamNode::GetChild(const char* name) const
{
ChildrenMap::const_iterator it = m_Childs.find(name);
if (it == m_Childs.end())
return g_NullNode;
return it->second;
}
bool CParamNode::IsOk() const
{
return m_IsOk;
}
const std::wstring& CParamNode::ToString() const
{
return m_Value;
}
const std::string CParamNode::ToUTF8() const
{
return utf8_from_wstring(m_Value);
}
const CStrIntern CParamNode::ToUTF8Intern() const
{
return CStrIntern(utf8_from_wstring(m_Value));
}
int CParamNode::ToInt() const
{
int ret = 0;
std::wstringstream strm;
strm << m_Value;
strm >> ret;
return ret;
}
fixed CParamNode::ToFixed() const
{
return fixed::FromString(CStrW(m_Value));
}
float CParamNode::ToFloat() const
{
float ret = 0;
std::wstringstream strm;
strm << m_Value;
strm >> ret;
return ret;
}
bool CParamNode::ToBool() const
{
if (m_Value == L"true")
return true;
else
return false;
}
const CParamNode::ChildrenMap& CParamNode::GetChildren() const
{
return m_Childs;
}
std::wstring CParamNode::EscapeXMLString(const std::wstring& str)
{
std::wstring ret;
ret.reserve(str.size());
for (size_t i = 0; i < str.size(); ++i)
{
wchar_t c = str[i];
switch (c)
{
case '<': ret += L"&lt;"; break;
case '>': ret += L"&gt;"; break;
case '&': ret += L"&amp;"; break;
case '"': ret += L"&quot;"; break;
case '\t': ret += L"&#9;"; break;
case '\n': ret += L"&#10;"; break;
case '\r': ret += L"&#13;"; break;
default:
if ((0x20 <= c && c <= 0xD7FF) || (0xE000 <= c && c <= 0xFFFD))
ret += c;
else
ret += 0xFFFD;
}
}
return ret;
}
std::wstring CParamNode::ToXML() const
{
std::wstringstream strm;
ToXML(strm);
return strm.str();
}
void CParamNode::ToXML(std::wostream& strm) const
{
strm << m_Value;
ChildrenMap::const_iterator it = m_Childs.begin();
for (; it != m_Childs.end(); ++it)
{
// Skip attributes here (they were handled when the caller output the tag)
if (it->first.length() && it->first[0] == '@')
continue;
std::wstring name (it->first.begin(), it->first.end());
strm << L"<" << name;
// Output the child's attributes first
ChildrenMap::const_iterator cit = it->second.m_Childs.begin();
for (; cit != it->second.m_Childs.end(); ++cit)
{
if (cit->first.length() && cit->first[0] == '@')
{
std::wstring attrname (cit->first.begin()+1, cit->first.end());
strm << L" " << attrname << L"=\"" << EscapeXMLString(cit->second.m_Value) << L"\"";
}
}
strm << L">";
it->second.ToXML(strm);
strm << L"</" << name << ">";
}
}
void CParamNode::ToJSVal(const ScriptInterface::Request& rq, bool cacheValue, JS::MutableHandleValue ret) const
{
if (cacheValue && m_ScriptVal != NULL)
{
ret.set(*m_ScriptVal);
return;
}
ConstructJSVal(rq, ret);
if (cacheValue)
m_ScriptVal.reset(new JS::PersistentRootedValue(rq.cx, ret));
}
void CParamNode::ConstructJSVal(const ScriptInterface::Request& rq, JS::MutableHandleValue ret) const
{
if (m_Childs.empty())
{
// Empty node - map to undefined
if (m_Value.empty())
{
ret.setUndefined();
return;
}
// Just a string
utf16string text(m_Value.begin(), m_Value.end());
JS::RootedString str(rq.cx, JS_AtomizeAndPinUCStringN(rq.cx, reinterpret_cast<const char16_t*>(text.data()), text.length()));
if (str)
{
ret.setString(str);
return;
}
// TODO: report error
ret.setUndefined();
return;
}
// Got child nodes - convert this node into a hash-table-style object:
JS::RootedObject obj(rq.cx, JS_NewPlainObject(rq.cx));
if (!obj)
{
ret.setUndefined();
return; // TODO: report error
}
JS::RootedValue childVal(rq.cx);
for (std::map<std::string, CParamNode>::const_iterator it = m_Childs.begin(); it != m_Childs.end(); ++it)
{
it->second.ConstructJSVal(rq, &childVal);
if (!JS_SetProperty(rq.cx, obj, it->first.c_str(), childVal))
{
ret.setUndefined();
return; // TODO: report error
}
}
// If the node has a string too, add that as an extra property
if (!m_Value.empty())
{
utf16string text(m_Value.begin(), m_Value.end());
JS::RootedString str(rq.cx, JS_AtomizeAndPinUCStringN(rq.cx, reinterpret_cast<const char16_t*>(text.data()), text.length()));
if (!str)
{
ret.setUndefined();
return; // TODO: report error
}
JS::RootedValue childVal(rq.cx, JS::StringValue(str));
if (!JS_SetProperty(rq.cx, obj, "_string", childVal))
{
ret.setUndefined();
return; // TODO: report error
}
}
ret.setObject(*obj);
}
void CParamNode::ResetScriptVal()
{
m_ScriptVal = NULL;
}
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