Source Code Cross Referenced for SNMPBERCodec.java in  » Net » Java-SNMP » snmp » Java Source Code / Java DocumentationJava Source Code and Java Documentation

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Java Source Code / Java Documentation » Net » Java SNMP » snmp 
Source Cross Referenced  Class Diagram Java Document (Java Doc) 


001:        /*
002:         * SNMP Package
003:         *
004:         * Copyright (C) 2004, Jonathan Sevy <jsevy@mcs.drexel.edu>
005:         *
006:         * This is free software. Redistribution and use in source and binary forms, with
007:         * or without modification, are permitted provided that the following conditions
008:         * are met:
009:         *
010:         *  1. Redistributions of source code must retain the above copyright notice, this
011:         *     list of conditions and the following disclaimer.
012:         *  2. Redistributions in binary form must reproduce the above copyright notice,
013:         *     this list of conditions and the following disclaimer in the documentation 
014:         *     and/or other materials provided with the distribution.
015:         *  3. The name of the author may not be used to endorse or promote products 
016:         *     derived from this software without specific prior written permission.
017:         *
018:         * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED 
019:         * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 
020:         * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO 
021:         * EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
022:         * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
023:         * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS 
024:         * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
025:         * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
026:         * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
027:         *
028:         */
029:
030:        package snmp;
031:
032:        import java.io.*;
033:
034:        /** 
035:         *    SNMPBERCodec defines methods for converting from ASN.1 BER encoding to SNMPObject subclasses. The extraction
036:         *     process usually produces a tree structure of objects with an SNMPSequence object at the root; this
037:         *     is the usual behavior when a received encoded message is received from an SNMP device.
038:         */
039:
040:        public class SNMPBERCodec {
041:
042:            public static final byte SNMPINTEGER = 0x02;
043:            public static final byte SNMPBITSTRING = 0x03;
044:            public static final byte SNMPOCTETSTRING = 0x04;
045:            public static final byte SNMPNULL = 0x05;
046:            public static final byte SNMPOBJECTIDENTIFIER = 0x06;
047:            public static final byte SNMPSEQUENCE = 0x30;
048:
049:            public static final byte SNMPIPADDRESS = (byte) 0x40;
050:            public static final byte SNMPCOUNTER32 = (byte) 0x41;
051:            public static final byte SNMPGAUGE32 = (byte) 0x42;
052:            public static final byte SNMPTIMETICKS = (byte) 0x43;
053:            public static final byte SNMPOPAQUE = (byte) 0x44;
054:            public static final byte SNMPNSAPADDRESS = (byte) 0x45;
055:            public static final byte SNMPCOUNTER64 = (byte) 0x46;
056:            public static final byte SNMPUINTEGER32 = (byte) 0x47;
057:
058:            public static final byte SNMPGETREQUEST = (byte) 0xA0;
059:            public static final byte SNMPGETNEXTREQUEST = (byte) 0xA1;
060:            public static final byte SNMPGETRESPONSE = (byte) 0xA2;
061:            public static final byte SNMPSETREQUEST = (byte) 0xA3;
062:            public static final byte SNMPTRAP = (byte) 0xA4;
063:
064:            // SNMPv2 constants
065:            public static final byte SNMPv2pCOMMUNICATION = (byte) 0xA2;
066:            public static final byte SNMPv2pAUTHORIZEDMESSAGE = (byte) 0xA1;
067:            public static final byte SNMPv2pENCRYPTEDMESSAGE = (byte) 0xA1;
068:            public static final byte SNMPv2BULKREQUEST = (byte) 0xA5;
069:            public static final byte SNMPv2INFORMREQUEST = (byte) 0xA6;
070:            public static final byte SNMPv2TRAP = (byte) 0xA7;
071:
072:            public static final byte SNMPv2pENCRYPTEDDATA = (byte) 0xA1;
073:
074:            public static final byte SNMPUNKNOWNOBJECT = 0x00;
075:
076:            /** 
077:             *    Extracts an SNMP object given its type, length, value triple as an SNMPTLV object.
078:             *    Called by SNMPObject subclass constructors.
079:             *     @throws SNMPBadValueException Indicates byte array in value field is uninterprettable for
080:             *     specified SNMP object type.
081:             */
082:            public static SNMPObject extractEncoding(SNMPTLV theTLV)
083:                    throws SNMPBadValueException {
084:
085:                switch (theTLV.tag) {
086:                case SNMPINTEGER: {
087:                    return new SNMPInteger(theTLV.value);
088:                }
089:
090:                case SNMPSEQUENCE: {
091:                    return new SNMPSequence(theTLV.value);
092:                }
093:
094:                case SNMPOBJECTIDENTIFIER: {
095:                    return new SNMPObjectIdentifier(theTLV.value);
096:                }
097:
098:                case SNMPOCTETSTRING: {
099:                    return new SNMPOctetString(theTLV.value);
100:                }
101:
102:                case SNMPBITSTRING: {
103:                    return new SNMPBitString(theTLV.value);
104:                }
105:
106:                case SNMPIPADDRESS: {
107:                    return new SNMPIPAddress(theTLV.value);
108:                }
109:
110:                case SNMPCOUNTER32: {
111:                    return new SNMPCounter32(theTLV.value);
112:                }
113:
114:                case SNMPGAUGE32: {
115:                    return new SNMPGauge32(theTLV.value);
116:                }
117:
118:                case SNMPTIMETICKS: {
119:                    return new SNMPTimeTicks(theTLV.value);
120:                }
121:
122:                case SNMPNSAPADDRESS: {
123:                    return new SNMPNSAPAddress(theTLV.value);
124:                }
125:
126:                case SNMPCOUNTER64: {
127:                    return new SNMPCounter64(theTLV.value);
128:                }
129:
130:                case SNMPUINTEGER32: {
131:                    return new SNMPUInteger32(theTLV.value);
132:                }
133:
134:                case SNMPGETREQUEST:
135:                case SNMPGETNEXTREQUEST:
136:                case SNMPGETRESPONSE:
137:                case SNMPSETREQUEST: {
138:                    return new SNMPPDU(theTLV.value, theTLV.tag);
139:                }
140:
141:                case SNMPTRAP: {
142:                    return new SNMPv1TrapPDU(theTLV.value);
143:                }
144:
145:                case SNMPv2TRAP: {
146:                    return new SNMPv2TrapPDU(theTLV.value);
147:                }
148:
149:                case SNMPv2INFORMREQUEST: {
150:                    return new SNMPv2InformRequestPDU(theTLV.value);
151:                }
152:
153:                case SNMPNULL:
154:                case SNMPOPAQUE: {
155:                    return new SNMPNull();
156:                }
157:
158:                default: {
159:                    //System.out.println("Unrecognized tag");
160:                    //return new SNMPOctetString(theTLV.value);
161:                    return new SNMPUnknownObject(theTLV.value);
162:                }
163:                }
164:
165:            }
166:
167:            /** 
168:             *    Extracts the type, length and value of the SNMP object whose BER encoding begins at the
169:             *     specified position in the given byte array. Throws an SNMPBadValueException if there's
170:             *   any problem with the extraction.
171:             */
172:
173:            public static SNMPTLV extractNextTLV(byte[] enc, int position)
174:                    throws SNMPBadValueException {
175:                SNMPTLV nextTLV = new SNMPTLV();
176:                int currentPos = position;
177:
178:                try {
179:
180:                    // get tag
181:
182:                    /*
183:                    if ((enc[currentPos] % 32) < 31)
184:                    {
185:                        // single byte tag; extract value
186:                        nextTLV.tag = (int)(enc[currentPos]);
187:                    }
188:                    else
189:                    {
190:                        // multiple byte tag; for now, just return value in subsequent bytes ...
191:                        // but need to think about universal / application fields, etc...
192:                        nextTLV.tag = 0;
193:                        
194:                        do
195:                        {
196:                            currentPos++;
197:                            nextTLV.tag = nextTLV.tag * 128 + (int)(enc[currentPos] % 128);
198:                        }
199:                        while ((enc[currentPos]/128) >= 1);
200:                    }
201:                     */
202:
203:                    // single byte tag; extract value
204:                    nextTLV.tag = enc[currentPos];
205:                    currentPos++; // now at start of length info
206:
207:                    // get length of data
208:
209:                    int dataLength;
210:
211:                    int unsignedValue = enc[currentPos];
212:                    if (unsignedValue < 0)
213:                        unsignedValue += 256;
214:
215:                    if ((unsignedValue / 128) < 1) {
216:                        // single byte length; extract value
217:                        dataLength = unsignedValue;
218:                    } else {
219:                        // multiple byte length; first byte's value (minus first bit) is # of length bytes
220:                        int numBytes = (unsignedValue % 128);
221:
222:                        dataLength = 0;
223:
224:                        for (int i = 0; i < numBytes; i++) {
225:                            currentPos++;
226:                            unsignedValue = enc[currentPos];
227:                            if (unsignedValue < 0)
228:                                unsignedValue += 256;
229:                            dataLength = dataLength * 256 + unsignedValue;
230:                        }
231:                    }
232:
233:                    currentPos++; // now at start of data
234:
235:                    // set total length
236:                    nextTLV.totalLength = currentPos - position + dataLength;
237:
238:                    // extract data portion
239:
240:                    ByteArrayOutputStream outBytes = new ByteArrayOutputStream();
241:                    outBytes.write(enc, currentPos, dataLength);
242:                    nextTLV.value = outBytes.toByteArray();
243:
244:                    return nextTLV;
245:
246:                } catch (IndexOutOfBoundsException e) {
247:                    // whatever the exception, throw an SNMPBadValueException
248:                    throw new SNMPBadValueException(
249:                            "Problem while decoding SNMP: packet truncated or corrupt");
250:                } catch (Exception e) {
251:                    // whatever the exception, throw an SNMPBadValueException
252:                    throw new SNMPBadValueException(
253:                            "Problem while decoding SNMP");
254:                }
255:
256:            }
257:
258:            /** 
259:             *    Utility function for encoding a length as a BER byte sequence
260:             */
261:
262:            public static byte[] encodeLength(int length) {
263:                ByteArrayOutputStream outBytes = new ByteArrayOutputStream();
264:
265:                // see if can be represented in single byte
266:                // don't forget the first bit is the "long field test" bit!!
267:                if (length < 128) {
268:                    byte[] len = { (byte) length };
269:                    outBytes.write(len, 0, 1);
270:                } else {
271:                    // too big for one byte
272:                    // see how many are needed:
273:                    int numBytes = 0;
274:                    int temp = length;
275:                    while (temp > 0) {
276:                        ++numBytes;
277:                        temp = (int) Math.floor(temp / 256);
278:                    }
279:
280:                    byte num = (byte) numBytes;
281:                    num += 128; // set the "long format" bit
282:                    outBytes.write(num);
283:
284:                    byte[] len = new byte[numBytes];
285:                    for (int i = numBytes - 1; i >= 0; --i) {
286:                        len[i] = (byte) (length % 256);
287:                        length = (int) Math.floor(length / 256);
288:                    }
289:                    outBytes.write(len, 0, numBytes);
290:
291:                }
292:
293:                return outBytes.toByteArray();
294:            }
295:
296:        }
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