/* * Copyright (c) Contributors * See CONTRIBUTORS.TXT for a full list of copyright holders. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of the OpenSim Project nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE DEVELOPERS ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE CONTRIBUTORS BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ using Mono.Addins; using System; using System.Reflection; using System.Threading; using System.Text; using System.Net; using System.Net.Sockets; using log4net; using Nini.Config; using OpenMetaverse; using OpenMetaverse.StructuredData; using OpenSim.Framework; using OpenSim.Region.Framework.Interfaces; using OpenSim.Region.Framework.Scenes; using System.Collections.Generic; using System.Text.RegularExpressions; namespace OpenSim.Region.OptionalModules.Scripting.JsonStore { public class JsonStore { private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType); protected virtual OSD ValueStore { get; set; } protected class TakeValueCallbackClass { public string Path { get; set; } public bool UseJson { get; set; } public TakeValueCallback Callback { get; set; } public TakeValueCallbackClass(string spath, bool usejson, TakeValueCallback cback) { Path = spath; UseJson = usejson; Callback = cback; } } protected List m_TakeStore; protected List m_ReadStore; // add separators for quoted paths and array references protected static Regex m_ParsePassOne = new Regex("({[^}]+}|\\[[0-9]+\\]|\\[\\+\\])"); // add quotes to bare identifiers which are limited to alphabetic characters protected static Regex m_ParsePassThree = new Regex("(? /// This is a simple estimator for the size of the stored data, it /// is not precise, but should be close enough to implement reasonable /// limits on the storage space used /// // ----------------------------------------------------------------- public int StringSpace { get; set; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public static bool CanonicalPathExpression(string ipath, out string opath) { Stack path; if (! ParsePathExpression(ipath,out path)) { opath = ""; return false; } opath = PathExpressionToKey(path); return true; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public JsonStore() { StringSpace = 0; m_TakeStore = new List(); m_ReadStore = new List(); } public JsonStore(string value) : this() { // This is going to throw an exception if the value is not // a valid JSON chunk. Calling routines should catch the // exception and handle it appropriately if (String.IsNullOrEmpty(value)) ValueStore = new OSDMap(); else ValueStore = OSDParser.DeserializeJson(value); } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public JsonStoreNodeType GetNodeType(string expr) { Stack path; if (! ParsePathExpression(expr,out path)) return JsonStoreNodeType.Undefined; OSD result = ProcessPathExpression(ValueStore,path); if (result == null) return JsonStoreNodeType.Undefined; if (result is OSDMap) return JsonStoreNodeType.Object; if (result is OSDArray) return JsonStoreNodeType.Array; if (OSDBaseType(result.Type)) return JsonStoreNodeType.Value; return JsonStoreNodeType.Undefined; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public JsonStoreValueType GetValueType(string expr) { Stack path; if (! ParsePathExpression(expr,out path)) return JsonStoreValueType.Undefined; OSD result = ProcessPathExpression(ValueStore,path); if (result == null) return JsonStoreValueType.Undefined; if (result is OSDMap) return JsonStoreValueType.Undefined; if (result is OSDArray) return JsonStoreValueType.Undefined; if (result is OSDBoolean) return JsonStoreValueType.Boolean; if (result is OSDInteger) return JsonStoreValueType.Integer; if (result is OSDReal) return JsonStoreValueType.Float; if (result is OSDString) return JsonStoreValueType.String; return JsonStoreValueType.Undefined; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public int ArrayLength(string expr) { Stack path; if (! ParsePathExpression(expr,out path)) return -1; OSD result = ProcessPathExpression(ValueStore,path); if (result != null && result.Type == OSDType.Array) { OSDArray arr = result as OSDArray; return arr.Count; } return -1; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public bool GetValue(string expr, out string value, bool useJson) { Stack path; if (! ParsePathExpression(expr,out path)) { value = ""; return false; } OSD result = ProcessPathExpression(ValueStore,path); return ConvertOutputValue(result,out value,useJson); } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public bool RemoveValue(string expr) { return SetValueFromExpression(expr,null); } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public bool SetValue(string expr, string value, bool useJson) { OSD ovalue; // One note of caution... if you use an empty string in the // structure it will be assumed to be a default value and will // not be seialized in the json if (useJson) { // There doesn't appear to be a good way to determine if the // value is valid Json other than to let the parser crash try { ovalue = OSDParser.DeserializeJson(value); } catch (Exception) { if (value.StartsWith("'") && value.EndsWith("'")) { ovalue = new OSDString(value.Substring(1,value.Length - 2)); } else { return false; } } } else { ovalue = new OSDString(value); } return SetValueFromExpression(expr,ovalue); } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public bool TakeValue(string expr, bool useJson, TakeValueCallback cback) { Stack path; if (! ParsePathExpression(expr,out path)) return false; string pexpr = PathExpressionToKey(path); OSD result = ProcessPathExpression(ValueStore,path); if (result == null) { m_TakeStore.Add(new TakeValueCallbackClass(pexpr,useJson,cback)); return false; } string value = String.Empty; if (! ConvertOutputValue(result,out value,useJson)) { // the structure does not match the request so i guess we'll wait m_TakeStore.Add(new TakeValueCallbackClass(pexpr,useJson,cback)); return false; } SetValueFromExpression(expr,null); cback(value); return true; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- public bool ReadValue(string expr, bool useJson, TakeValueCallback cback) { Stack path; if (! ParsePathExpression(expr,out path)) return false; string pexpr = PathExpressionToKey(path); OSD result = ProcessPathExpression(ValueStore,path); if (result == null) { m_ReadStore.Add(new TakeValueCallbackClass(pexpr,useJson,cback)); return false; } string value = String.Empty; if (! ConvertOutputValue(result,out value,useJson)) { // the structure does not match the request so i guess we'll wait m_ReadStore.Add(new TakeValueCallbackClass(pexpr,useJson,cback)); return false; } cback(value); return true; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- protected bool SetValueFromExpression(string expr, OSD ovalue) { Stack path; if (! ParsePathExpression(expr,out path)) return false; if (path.Count == 0) { ValueStore = ovalue; StringSpace = 0; return true; } // pkey will be the final element in the path, we pull it out here to make sure // that the assignment works correctly string pkey = path.Pop(); string pexpr = PathExpressionToKey(path); if (pexpr != "") pexpr += "."; OSD result = ProcessPathExpression(ValueStore,path); if (result == null) return false; // Check pkey, the last element in the path, for and extract array references MatchCollection amatches = m_ArrayPattern.Matches(pkey,0); if (amatches.Count > 0) { if (result.Type != OSDType.Array) return false; OSDArray amap = result as OSDArray; Match match = amatches[0]; GroupCollection groups = match.Groups; string akey = groups[1].Value; if (akey == "+") { string npkey = String.Format("[{0}]",amap.Count); if (ovalue != null) { StringSpace += ComputeSizeOf(ovalue); amap.Add(ovalue); InvokeNextCallback(pexpr + npkey); } return true; } int aval = Convert.ToInt32(akey); if (0 <= aval && aval < amap.Count) { if (ovalue == null) { StringSpace -= ComputeSizeOf(amap[aval]); amap.RemoveAt(aval); } else { StringSpace -= ComputeSizeOf(amap[aval]); StringSpace += ComputeSizeOf(ovalue); amap[aval] = ovalue; InvokeNextCallback(pexpr + pkey); } return true; } return false; } // Check for and extract hash references MatchCollection hmatches = m_HashPattern.Matches(pkey,0); if (hmatches.Count > 0) { Match match = hmatches[0]; GroupCollection groups = match.Groups; string hkey = groups[1].Value; if (result is OSDMap) { // this is the assignment case OSDMap hmap = result as OSDMap; if (ovalue != null) { StringSpace -= ComputeSizeOf(hmap[hkey]); StringSpace += ComputeSizeOf(ovalue); hmap[hkey] = ovalue; InvokeNextCallback(pexpr + pkey); return true; } // this is the remove case if (hmap.ContainsKey(hkey)) { StringSpace -= ComputeSizeOf(hmap[hkey]); hmap.Remove(hkey); return true; } return false; } return false; } // Shouldn't get here if the path was checked correctly m_log.WarnFormat("[JsonStore] invalid path expression"); return false; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- protected bool InvokeNextCallback(string pexpr) { // Process all of the reads that match the expression first List reads = m_ReadStore.FindAll(delegate(TakeValueCallbackClass tb) { return pexpr.StartsWith(tb.Path); }); foreach (TakeValueCallbackClass readcb in reads) { m_ReadStore.Remove(readcb); ReadValue(readcb.Path,readcb.UseJson,readcb.Callback); } // Process one take next TakeValueCallbackClass takecb = m_TakeStore.Find(delegate(TakeValueCallbackClass tb) { return pexpr.StartsWith(tb.Path); }); if (takecb != null) { m_TakeStore.Remove(takecb); TakeValue(takecb.Path,takecb.UseJson,takecb.Callback); return true; } return false; } // ----------------------------------------------------------------- /// /// Parse the path expression and put the components into a stack. We /// use a stack because we process the path in inverse order later /// // ----------------------------------------------------------------- protected static bool ParsePathExpression(string expr, out Stack path) { path = new Stack(); // add front and rear separators expr = "." + expr + "."; // add separators for quoted exprs and array references expr = m_ParsePassOne.Replace(expr,".$1.",-1,0); // add quotes to bare identifier expr = m_ParsePassThree.Replace(expr,".{$1}",-1,0); // remove extra separators expr = m_ParsePassFour.Replace(expr,".",-1,0); // validate the results (catches extra quote characters for example) if (m_ValidatePath.IsMatch(expr)) { MatchCollection matches = m_PathComponent.Matches(expr,0); foreach (Match match in matches) path.Push(match.Groups[1].Value); return true; } return false; } // ----------------------------------------------------------------- /// /// /// /// path is a stack where the top level of the path is at the bottom of the stack // ----------------------------------------------------------------- protected static OSD ProcessPathExpression(OSD map, Stack path) { if (path.Count == 0) return map; string pkey = path.Pop(); OSD rmap = ProcessPathExpression(map,path); if (rmap == null) return null; // ---------- Check for an array index ---------- MatchCollection amatches = m_SimpleArrayPattern.Matches(pkey,0); if (amatches.Count > 0) { if (rmap.Type != OSDType.Array) { m_log.WarnFormat("[JsonStore] wrong type for key {2}, expecting {0}, got {1}",OSDType.Array,rmap.Type,pkey); return null; } OSDArray amap = rmap as OSDArray; Match match = amatches[0]; GroupCollection groups = match.Groups; string akey = groups[1].Value; int aval = Convert.ToInt32(akey); if (aval < amap.Count) return (OSD) amap[aval]; return null; } // ---------- Check for a hash index ---------- MatchCollection hmatches = m_HashPattern.Matches(pkey,0); if (hmatches.Count > 0) { if (rmap.Type != OSDType.Map) { m_log.WarnFormat("[JsonStore] wrong type for key {2}, expecting {0}, got {1}",OSDType.Map,rmap.Type,pkey); return null; } OSDMap hmap = rmap as OSDMap; Match match = hmatches[0]; GroupCollection groups = match.Groups; string hkey = groups[1].Value; if (hmap.ContainsKey(hkey)) return (OSD) hmap[hkey]; return null; } // Shouldn't get here if the path was checked correctly m_log.WarnFormat("[JsonStore] Path type (unknown) does not match the structure"); return null; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- protected static bool ConvertOutputValue(OSD result, out string value, bool useJson) { value = String.Empty; // If we couldn't process the path if (result == null) return false; if (useJson) { // The path pointed to an intermediate hash structure if (result.Type == OSDType.Map) { value = OSDParser.SerializeJsonString(result as OSDMap,true); return true; } // The path pointed to an intermediate hash structure if (result.Type == OSDType.Array) { value = OSDParser.SerializeJsonString(result as OSDArray,true); return true; } value = "'" + result.AsString() + "'"; return true; } if (OSDBaseType(result.Type)) { value = result.AsString(); return true; } return false; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- protected static string PathExpressionToKey(Stack path) { if (path.Count == 0) return ""; string pkey = ""; foreach (string k in path) pkey = (pkey.Length == 0) ? k : (k + "." + pkey); return pkey; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- protected static bool OSDBaseType(OSDType type) { // Should be the list of base types for which AsString() returns // something useful if (type == OSDType.Boolean) return true; if (type == OSDType.Integer) return true; if (type == OSDType.Real) return true; if (type == OSDType.String) return true; if (type == OSDType.UUID) return true; if (type == OSDType.Date) return true; if (type == OSDType.URI) return true; return false; } // ----------------------------------------------------------------- /// /// /// // ----------------------------------------------------------------- protected static int ComputeSizeOf(OSD value) { string sval; if (ConvertOutputValue(value,out sval,true)) return sval.Length; return 0; } } // ----------------------------------------------------------------- /// /// // ----------------------------------------------------------------- public class JsonObjectStore : JsonStore { private static readonly ILog m_log = LogManager.GetLogger(MethodBase.GetCurrentMethod().DeclaringType); private Scene m_scene; private UUID m_objectID; protected override OSD ValueStore { get { SceneObjectPart sop = m_scene.GetSceneObjectPart(m_objectID); if (sop == null || sop.DynAttrs == null) { // This is bad return null; } return sop.DynAttrs.TopLevelMap; } // cannot set the top level set { m_log.InfoFormat("[JsonStore] cannot set top level value in object store"); } } public JsonObjectStore(Scene scene, UUID oid) : base() { m_scene = scene; m_objectID = oid; // the size limit is imposed on whatever is already in the store StringSpace = ComputeSizeOf(ValueStore); } } }