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#include "precomp.h"
DEBUG_FILEZONE(ZONE_T120_MCSNC); /*
* omcscode.cpp * * Copyright (c) 1993 - 1996 by DataBeam Corporation, Lexington, KY * * Abstract: * This is the implementation file for the CMCSCoder class. This class * is responsible for encoding and decoding T.125 PDU's using ASN.1 * encoding rules via the ASN.1 toolkit. This class is also capable * of determining the size of both the encoded and decoded PDU's and is * capable of making copies of each of the PDU's. * * Private Instance Variables: * Encoding_Rules_Type * This variable holds the type of encoding rules which are currently * being utilized. * * Private Member Functions: * * Copy*** * Private member functions exist which are capable of making complete * copies of the decoded "Send Data" PDU data structures. These * routines copy not only the data contained within the structure but * also any data which is referenced by the pointers held within the * structure. * * SetEncodingRules * This routine is used to switch between using Basic Encoding Rules * (BER) and Packed Encoding Rules (PER). This routine also updates * the private instance variables used to hold values for the minimum * and maximum amount of overhead associated with the "send data" PDUs. * * Caveats: * None. * * Author: * John B. O'Nan */
#include "omcscode.h"
/*
* Macros. */ #define BOOLEAN_TAG 0x01
#define INTEGER_TAG 0x02
#define BIT_STRING_TAG 0x03
#define OCTET_STRING_TAG 0x04
#define ENUMERATED_TAG 0x0a
#define SEQUENCE 0x30
#define SETOF 0x31
#define INDEFINITE_LENGTH 0x80
#define ONE_BYTE_LENGTH 0x81
#define TWO_BYTE_LENGTH 0x82
#define THREE_BYTE_LENGTH 0x83
#define FOUR_BYTE_LENGTH 0x84
#define END_OF_CONTENTS 0x00
#define CONSTRUCTED_TAG_ZERO 0xa0
#define CONSTRUCTED_TAG_ONE 0xa1
#define CONSTRUCTED_TAG_TWO 0xa2
#define CONSTRUCTED_TAG_THREE 0xa3
#define CONSTRUCTED_TAG_FOUR 0xa4
/*
* This is a global variable that has a pointer to the one MCS coder that * is instantiated by the MCS Controller. Most objects know in advance * whether they need to use the MCS or the GCC coder, so, they do not need * this pointer in their constructors. */ CMCSCoder *g_MCSCoder;
/*
* The following array contains a template for the X.224 data header. * The 5 of the 7 bytes that it initializes are actually sent to the * wire. Bytes 3 and 4 will be set to contain the size of the PDU. * The array is only used when we encode a data PDU. */ UChar g_X224Header[] = { 3, 0, 0, 0, 2, DATA_PACKET, EOT_BIT };
/*
* CMCSCoder () * * Public * * Functional Description: * This is the constructor for the CMCSCoder class. It initializes * the ASN.1 encoder/decoder, saves the current encoding rules type, * and sets values for the highest and lowest overhead in the "send data" * PDU's. */ CMCSCoder::CMCSCoder () :m_pEncInfo(NULL), m_pDecInfo(NULL) { Encoding_Rules_Type = BASIC_ENCODING_RULES; // lonchanc: We should move Init out of constructor. However,
// to minimize the changes in the GCC/MCS code, we put it here for now.
// Otherwise, we need to change MCS and Packet interfaces.
// We will move it out and call Init() separately.
Init(); }
BOOL CMCSCoder::Init ( void ) { BOOL fRet = FALSE; MCSPDU_Module_Startup(); if (MCSPDU_Module != NULL) { if (ASN1_CreateEncoder( MCSPDU_Module, // ptr to mdule
&m_pEncInfo, // ptr to encoder info
NULL, // buffer ptr
0, // buffer size
NULL) // parent ptr
== ASN1_SUCCESS) { ASSERT(m_pEncInfo != NULL); m_pEncInfo->cbExtraHeader = PROTOCOL_OVERHEAD_X224; fRet = (ASN1_CreateDecoder( MCSPDU_Module, // ptr to mdule
&m_pDecInfo, // ptr to decoder info
NULL, // buffer ptr
0, // buffer size
NULL) // parent ptr
== ASN1_SUCCESS); ASSERT(fRet && m_pDecInfo != NULL); } } ASSERT(fRet); return fRet; }
/*
* ~CMCSCoder () * * Public * * Functional Description: * This is a virtual destructor. It is used to clean up after ASN.1. */ CMCSCoder::~CMCSCoder () { if (MCSPDU_Module != NULL) { ASN1_CloseEncoder(m_pEncInfo); ASN1_CloseDecoder(m_pDecInfo); MCSPDU_Module_Cleanup(); } }
/*
* void Encode () * * Public * * Functional Description: * This function encodes MCS protocol data units (PDU's) into ASN.1 * compliant byte streams using the ASN.1 toolkit. * The encode happens in a coder-allocated buffer. */ BOOL CMCSCoder::Encode(LPVOID pdu_structure, int pdu_type, UINT rules_type, LPBYTE *encoding_buffer, UINT *encoding_buffer_length) { BOOL fRet = TRUE; BOOL send_data_pdu = FALSE; int return_value;
//UINT encoding_length;
UShort initiator; LPBYTE buffer_pointer; PSendDataRequestPDU send_data; UINT PDUChoice; BOOL bBufferAllocated; PMemory memory;
/*
* Check to make sure the encoding rules type is properly set. */ ASSERT(rules_type == PACKED_ENCODING_RULES || pdu_type == CONNECT_MCS_PDU); if (pdu_type == DOMAIN_MCS_PDU) { /*
* Set PDUChoice to the type of MCS PDU we need to encode. * Also, determine if this is a data PDU. */ PDUChoice = (unsigned int) ((PDomainMCSPDU) pdu_structure)->choice; if ((PDUChoice == SEND_DATA_REQUEST_CHOSEN) || (PDUChoice == SEND_DATA_INDICATION_CHOSEN) || (PDUChoice == UNIFORM_SEND_DATA_REQUEST_CHOSEN) || (PDUChoice == UNIFORM_SEND_DATA_INDICATION_CHOSEN)) { send_data_pdu = TRUE; send_data = &((PDomainMCSPDU) pdu_structure)->u.send_data_request; bBufferAllocated = (*encoding_buffer == NULL); if (bBufferAllocated) { // We have to allocate the encoded buffer.
DBG_SAVE_FILE_LINE memory = AllocateMemory (NULL, send_data->user_data.length + MAXIMUM_PROTOCOL_OVERHEAD, SEND_PRIORITY); if (memory != NULL) { buffer_pointer = *encoding_buffer = (LPBYTE) memory->GetPointer(); } else { WARNING_OUT (("CMCSCoder::Encode: Failed to allocate space for " "encoded data PDU for send.")); fRet = FALSE; ASSERT (*encoding_buffer == NULL); goto MyExit; } } else { // All the space needed here has been pre-allocated
buffer_pointer = *encoding_buffer; } }
/*
* Check if this is a data PDU */ if (send_data_pdu) { #ifdef ENABLE_BER
/*
* If we are currently using Basic Encoding Rules. */ if (Encoding_Rules_Type == BASIC_ENCODING_RULES) { /*
* The long variant of length must be used if the octet string * is longer than 127 bytes. The upper bit of the length byte * is set and the lower bits indicate the number of length bytes * which will follow. */ *(buffer_pointer--) = (UChar)send_data->user_data.length; if (send_data->user_data.length > 127) { *(buffer_pointer--) = (UChar)(send_data->user_data.length >> 8); *(buffer_pointer--) = TWO_BYTE_LENGTH; encoding_length = 3; } else { encoding_length = 1; }
/*
* Encode the "user data" octet string. */ *(buffer_pointer--) = OCTET_STRING_TAG;
/*
* Encode the "segmentation" bit string field. The identifier * is followed by a length of 2 and a byte indicating that 6 * bits are unused in the actual bit string byte. */ *(buffer_pointer--) = (UChar) send_data->segmentation; *(buffer_pointer--) = 0x06; *(buffer_pointer--) = 0x02; *(buffer_pointer--) = BIT_STRING_TAG;
/*
* Encode the enumerated "data priority" field. */ *(buffer_pointer--) = (UChar)send_data->data_priority; *(buffer_pointer--) = 0x01; *(buffer_pointer--) = ENUMERATED_TAG;
/*
* Encode the integer "channel ID" field. */ *(buffer_pointer--) = (UChar)send_data->channel_id; if (send_data->channel_id < 128) { *(buffer_pointer--) = 0x01; encoding_length += 10; } else if (send_data->channel_id < 32768L) { *(buffer_pointer--) = (UChar)(send_data->channel_id >> 8); *(buffer_pointer--) = 0x02; encoding_length += 11; } else { *(buffer_pointer--) = (UChar)(send_data->channel_id >> 8); *(buffer_pointer--) = (UChar)(send_data->channel_id >> 16); *(buffer_pointer--) = 0x03; encoding_length += 12; } *(buffer_pointer--) = INTEGER_TAG;
/*
* Encode the integer "initiator" field. */ *(buffer_pointer--) = (UChar)send_data->initiator; *(buffer_pointer--) = (UChar)(send_data->initiator >> 8); if (send_data->initiator < 32768L) { *(buffer_pointer--) = 0x02; encoding_length += 4; } else { *(buffer_pointer--) = (UChar)(send_data->initiator >> 16); *(buffer_pointer--) = 0x03; encoding_length += 5; } *(buffer_pointer--) = INTEGER_TAG;
*(buffer_pointer--) = INDEFINITE_LENGTH; switch (PDUChoice) { case SEND_DATA_REQUEST_CHOSEN: *buffer_pointer = SEND_DATA_REQUEST; break; case SEND_DATA_INDICATION_CHOSEN: *buffer_pointer = SEND_DATA_INDICATION; break; case UNIFORM_SEND_DATA_REQUEST_CHOSEN: *buffer_pointer = UNIFORM_SEND_DATA_REQUEST; break; case UNIFORM_SEND_DATA_INDICATION_CHOSEN: *buffer_pointer = UNIFORM_SEND_DATA_INDICATION; break; }
// Set the returned pointer to the beginning of the encoded packet
PUChar temp = *encoding_buffer; *encoding_buffer = buffer_pointer;
/*
* Encode the end-of-contents marker for the "Send Data" PDU. * This goes after the data, at the end of the PDU. */ buffer_pointer = temp + (send_data->user_data.length + (MAXIMUM_PROTOCOL_OVERHEAD_FRONT + 1)); *(buffer_pointer++) = END_OF_CONTENTS; *buffer_pointer = END_OF_CONTENTS;
// Set the returned length of the encoded packet
*encoding_buffer_length = encoding_length + send_data->user_data.length + 5; } /*
* If we are currently using Packed Encoding Rules. */ else #endif // ENABLE_BER
{ // Move the ptr past the X.224 header.
buffer_pointer += sizeof(X224_DATA_PACKET); switch (PDUChoice) { case SEND_DATA_REQUEST_CHOSEN: *buffer_pointer = PER_SEND_DATA_REQUEST; break; case SEND_DATA_INDICATION_CHOSEN: *buffer_pointer = PER_SEND_DATA_INDICATION; break; case UNIFORM_SEND_DATA_REQUEST_CHOSEN: *buffer_pointer = PER_UNIFORM_SEND_DATA_REQUEST; break; case UNIFORM_SEND_DATA_INDICATION_CHOSEN: *buffer_pointer = PER_UNIFORM_SEND_DATA_INDICATION; break; } buffer_pointer++;
/*
* Encode the integer "initiator" field. The lower bound must * first be subtracted from the value to encode. */ initiator = send_data->initiator - INITIATOR_LOWER_BOUND; *(buffer_pointer++) = (UChar) (initiator >> 8); *(buffer_pointer++) = (UChar) initiator;
/*
* Encode the integer "channel ID" field. */ *(buffer_pointer++) = (UChar)(send_data->channel_id >> 8); *(buffer_pointer++) = (UChar)(send_data->channel_id);
/*
* Encode the "priority" and "segmentation" fields. */ *(buffer_pointer++) = (UChar)((send_data->data_priority << 6) | (send_data->segmentation >> 2)); /*
* Encode the "user data" octet string. The octet strings are * encoded differently depending upon their length. */ ASSERT (send_data->user_data.length < 16384);
if (send_data->user_data.length <= 127) { *encoding_buffer_length = MAXIMUM_PROTOCOL_OVERHEAD - 1; } else { *(buffer_pointer++) = (UChar)(send_data->user_data.length >> 8) | INDEFINITE_LENGTH; *encoding_buffer_length = MAXIMUM_PROTOCOL_OVERHEAD; } *buffer_pointer++ = (UChar)send_data->user_data.length;
initiator = (UShort) (*encoding_buffer_length + send_data->user_data.length); // Set the returned length of the encoded PDU.
if (bBufferAllocated || (send_data->segmentation & SEGMENTATION_BEGIN)) { /*
* If the Encode operation allocates the space needed, or the space * was allocated by MCSGetBufferRequest (by a client) and this is * the 1st segment of the data in the buffer, the whole encoded PDU * is in contiguous space. The total PDU size is returned in this * case. * However, in the case where the space was allocated by MCSGetBufferRequest, * the PDUs after the 1st one, will put the X.224 and MCS headers in * a separate piece of memory (whose length is returned here), and the * data is still in the pre-allocated space. */ *encoding_buffer_length = (UINT) initiator; }
/*
* If the space was not preallocated, we need to copy the data * into the space allocated by the encoder. */ if (bBufferAllocated) { // We now need to copy the data into the encoded data PDU.
memcpy (buffer_pointer, send_data->user_data.value, send_data->user_data.length); // Update the data ptr in the data packet
send_data->user_data.value = (ASN1octet_t *) buffer_pointer; } } } }
if (send_data_pdu == FALSE) { SetEncodingRules (rules_type); return_value = ASN1_Encode(m_pEncInfo, // ptr to encoder info
pdu_structure, // pdu data structure
pdu_type, // pdu id
ASN1ENCODE_ALLOCATEBUFFER, // flags
NULL, // do not provide buffer
0); // buffer size if provided
if (ASN1_FAILED(return_value)) { ERROR_OUT(("CMCSCoder::Encode: ASN1_Encode failed, err=%d", return_value)); ASSERT(FALSE); fRet = FALSE; goto MyExit; } ASSERT(return_value == ASN1_SUCCESS); /*
* The encoded buffers returned by ASN.1 have preallocated the space * needed for the X.224 header. */ // len of encoded data in buffer
*encoding_buffer_length = m_pEncInfo->len; initiator = (UShort) *encoding_buffer_length; // buffer to encode into
*encoding_buffer = m_pEncInfo->buf; }
// Now, add the X.224 header
buffer_pointer = *encoding_buffer; memcpy (buffer_pointer, g_X224Header, PROTOCOL_OVERHEAD_X224); AddRFCSize (buffer_pointer, initiator);
MyExit:
return fRet; }
/*
* void Decode () * * Public * * Functional Description: * This function decodes ASN.1 compliant byte streams into the * appropriate MCS PDU structures using the ASN.1 toolkit. * * NOTE: For data PDUs, do NOT access pdecoding_buffer_length. It's set * to NULL. */ BOOL CMCSCoder::Decode(LPBYTE encoded_buffer, UINT encoded_buffer_length, int pdu_type, UINT rules_type, LPVOID *pdecoding_buffer, UINT *pdecoding_buffer_length) { BOOL fRet = TRUE; BOOL send_data_pdu = FALSE; ASN1optionparam_s OptParam;
/*
* Check to make sure the encoding rules type is properly set. */ ASSERT(rules_type == PACKED_ENCODING_RULES || pdu_type == CONNECT_MCS_PDU);
if (pdu_type == DOMAIN_MCS_PDU) { UChar length; unsigned int short_data; PUChar buffer_pointer; PSendDataRequestPDU send_data; PDomainMCSPDU decoding_pdu; ASN1choice_t choice; buffer_pointer = encoded_buffer; #ifdef ENABLE_BER
/*
* If we are currently using Basic Encoding Rules. */ if (Encoding_Rules_Type == BASIC_ENCODING_RULES) { switch (*(buffer_pointer++)) { case SEND_DATA_REQUEST: ((PDomainMCSPDU) decoding_buffer)->choice = SEND_DATA_REQUEST_CHOSEN; send_data_pdu = TRUE; break;
case SEND_DATA_INDICATION: ((PDomainMCSPDU) decoding_buffer)->choice = SEND_DATA_INDICATION_CHOSEN; send_data_pdu = TRUE; break;
case UNIFORM_SEND_DATA_REQUEST: ((PDomainMCSPDU) decoding_buffer)->choice = UNIFORM_SEND_DATA_REQUEST_CHOSEN; send_data_pdu = TRUE; break;
case UNIFORM_SEND_DATA_INDICATION: ((PDomainMCSPDU) decoding_buffer)->choice = UNIFORM_SEND_DATA_INDICATION_CHOSEN; send_data_pdu = TRUE; break; }
if (send_data_pdu ) { /*
* Get the pointer to the "Send Data" PDU. */ send_data = &((PDomainMCSPDU) decoding_buffer)-> u.send_data_request;
/*
* Retrieve one byte for the length and check to see which * length variant is being used. If the long variant is being * used, move the buffer pointer past the length and set the * flag indicating that the indefinite length is not being used. */ length = *buffer_pointer;
switch (length) { case ONE_BYTE_LENGTH: buffer_pointer += 3; break; case TWO_BYTE_LENGTH: buffer_pointer += 4; break; case THREE_BYTE_LENGTH: buffer_pointer += 5; break; case FOUR_BYTE_LENGTH: buffer_pointer += 6; break; default: buffer_pointer += 2; }
/*
* Decode the integer "initiator" field. Increment the data * pointer past the integer identifier and retrieve the length * of the integer. */ length = *(buffer_pointer++);
ASSERT ((length == 1) || (length == 2)); if (length == 1) send_data->initiator = (UserID) *(buffer_pointer++); else if (length == 2) { send_data->initiator = ((UserID) *(buffer_pointer++)) << 8; send_data->initiator |= (UserID) *(buffer_pointer++); } else { TRACE_OUT(("CMCSCoder::Decode: initiator field is longer than 2 bytes (%d bytes) in MCS Data packet.", (UINT) length)); }
/*
* Decode the integer "channel ID" field. Increment the data * pointer past the integer identifier and retrieve the length * of the integer. */ buffer_pointer++; length = *(buffer_pointer++);
ASSERT ((length == 1) || (length == 2)); if (length == 1) send_data->channel_id = (ChannelID) *(buffer_pointer++); else if (length == 2) { send_data->channel_id = ((ChannelID) *buffer_pointer++) << 8; send_data->channel_id |= (ChannelID) *(buffer_pointer++); } else { TRACE_OUT(("CMCSCoder::Decode: channel_id field is longer than 2 bytes (%d bytes) in MCS Data packet.", (UINT) length)); }
/*
* Decode the enumerated "data priority" field. Increment the * data pointer past the identifier and length. */ buffer_pointer+=2; send_data->data_priority =(PDUPriority)*buffer_pointer;
/*
* Decode the bit string "segmentation" field. Increment the * data pointer past the bit string identifier, length, and the * "unused bits" byte and retrieve the "segmentation" flag. */ buffer_pointer += 4; send_data->segmentation = *buffer_pointer;
/*
* Decode the "user data" octet string. Increment the data * pointer past the identifier. */ buffer_pointer += 2;
/*
* Check to see which variant of the length is being used and * then retrieve the length. */ length = *(buffer_pointer++);
if (length & INDEFINITE_LENGTH) { if (length == ONE_BYTE_LENGTH) send_data->user_data.length = (unsigned int) *(buffer_pointer++); /*
* A length identifier of 0x82 indicates that two bytes are * being used to hold the actual length so retrieve the two * bytes to form the length. */ else if (length == TWO_BYTE_LENGTH) { send_data->user_data.length = ((unsigned int) *(buffer_pointer++)) << 8; send_data->user_data.length |= (unsigned int) *(buffer_pointer++); } } else send_data->user_data.length = (unsigned int) length;
// buffer_pointer now points to the 1st data byte
send_data->user_data.value = buffer_pointer; *pulDataOffset = buffer_pointer - encoded_buffer; } } /*
* If we are currently using Packed Encoding Rules. */ else #endif // ENABLE_BER
{ switch (*(buffer_pointer++)) { case PER_SEND_DATA_REQUEST: choice = SEND_DATA_REQUEST_CHOSEN; send_data_pdu = TRUE; break;
case PER_SEND_DATA_INDICATION: choice = SEND_DATA_INDICATION_CHOSEN; send_data_pdu = TRUE; break;
case PER_UNIFORM_SEND_DATA_REQUEST: choice = UNIFORM_SEND_DATA_REQUEST_CHOSEN; send_data_pdu = TRUE; break;
case PER_UNIFORM_SEND_DATA_INDICATION: choice = UNIFORM_SEND_DATA_INDICATION_CHOSEN; send_data_pdu = TRUE; break; }
if (send_data_pdu) { decoding_pdu = (PDomainMCSPDU) pdecoding_buffer;
// Store the choice field
decoding_pdu->choice = choice; /*
* Get the pointer to the "Send Data" PDU. */ send_data = &decoding_pdu->u.send_data_request;
/*
* Decode the integer "initiator" field. */ short_data = ((unsigned int) *(buffer_pointer++)) << 8; short_data |= (unsigned int) *(buffer_pointer++); send_data->initiator = (UserID) short_data + INITIATOR_LOWER_BOUND;
/*
* Decode the integer "channel ID" field. */ send_data->channel_id = ((ChannelID) *(buffer_pointer++)) << 8; send_data->channel_id |= (ChannelID) *(buffer_pointer++);
/*
* Decode the enumerated "data priority" field and the * "segmentation" field. */ send_data->data_priority = (PDUPriority)((*buffer_pointer >> 6) & 0x03); send_data->segmentation = (*(buffer_pointer++) << 2) & 0xc0;
/*
* Decode the "user data" octet string. Check to see which * variant of the length is being used and then retrieve the * length. */ length = *(buffer_pointer++);
if (length & INDEFINITE_LENGTH) { ASSERT ((length & 0x40) == 0); /*
* If bit 7 is set the length is greater than 127 but * less than 16K. * * ChristTs: We no longer handle the case where the data length * was higher than 16K. Our Max PDU size is 4K. */ short_data = (unsigned int) ((length & 0x3f) << 8); send_data->user_data.length = short_data | ((unsigned int) *(buffer_pointer++)); } /*
* If bit 7 is not set then the length is less than 128 and is * contained in the retrieved byte. */ else { send_data->user_data.length = (UShort) length; }
// buffer_pointer now points to the 1st data byte
send_data->user_data.value = buffer_pointer; } } } if (send_data_pdu == FALSE) { int return_value; //void *pDecodedData;
SetEncodingRules (rules_type);
return_value = ASN1_Decode(m_pDecInfo,// ptr to decoder info
pdecoding_buffer, // destination buffer
pdu_type, // pdu type
ASN1DECODE_SETBUFFER, // flags
encoded_buffer, // source buffer
encoded_buffer_length); // source buffer size
if (ASN1_FAILED(return_value)) { ERROR_OUT(("CMCSCoder::Decode: ASN1_Decode failed, err=%d", return_value)); ASSERT(FALSE); fRet = FALSE; goto MyExit; }
OptParam.eOption = ASN1OPT_GET_DECODED_BUFFER_SIZE; return_value = ASN1_GetDecoderOption(m_pDecInfo, &OptParam); if (ASN1_FAILED(return_value)) { ERROR_OUT(("CMCSCoder::Decode: ASN1_GetDecoderOption failed, err=%d", return_value)); ASSERT(FALSE); fRet = FALSE; goto MyExit; } *pdecoding_buffer_length = OptParam.cbRequiredDecodedBufSize;
ASSERT((return_value == ASN1_SUCCESS) && (*pdecoding_buffer_length > 0)); }
MyExit:
return fRet; }
/*
* PacketCoderError ReverseDirection () * * Private * * Functional Description: * This routine is used to convert data request PDU's into data indication * PDU's and vice versa. */ Void CMCSCoder::ReverseDirection (LPBYTE encoded_buffer) { encoded_buffer += PROTOCOL_OVERHEAD_X224; switch (*encoded_buffer) { case PER_SEND_DATA_REQUEST: *encoded_buffer = PER_SEND_DATA_INDICATION; break;
case PER_SEND_DATA_INDICATION: *encoded_buffer = PER_SEND_DATA_REQUEST; break;
case PER_UNIFORM_SEND_DATA_REQUEST: *encoded_buffer = PER_UNIFORM_SEND_DATA_INDICATION; break;
case PER_UNIFORM_SEND_DATA_INDICATION: *encoded_buffer = PER_UNIFORM_SEND_DATA_REQUEST; break; default: ASSERT (FALSE); break; } }
/*
* void SetEncodingRules () * * Private * * Functional Description: * This function is used to set the type (basic or packed) of encoding * rules to be used. */ void CMCSCoder::SetEncodingRules (UINT rules_type) { /*
* If the rules type is changing, set our rules instance variable and reset * the variables which hold the amount of overhead associated with the * "SendData" PDU's. */ Encoding_Rules_Type = rules_type; }
/*
* BOOL IsMCSDataPacket () * * Public * * Functional Description: * This function determines whether the encoded packet is an MCS Data packet * or not. * * Return value: * TRUE, if the packet is an MCS Data packet. FALSE, otherwise. */ BOOL CMCSCoder::IsMCSDataPacket(LPBYTE encoded_buffer, UINT rules_type) { UChar identifier;
/*
* Retrieve the identifier from the encoded data. */ identifier = *encoded_buffer;
if (rules_type == BASIC_ENCODING_RULES) { if ( (identifier == SEND_DATA_REQUEST) || (identifier == SEND_DATA_INDICATION) || (identifier == UNIFORM_SEND_DATA_REQUEST) || (identifier == UNIFORM_SEND_DATA_INDICATION)) { return TRUE; } } else { if ( (identifier == PER_SEND_DATA_REQUEST) || (identifier == PER_SEND_DATA_INDICATION) || (identifier == PER_UNIFORM_SEND_DATA_REQUEST) || (identifier == PER_UNIFORM_SEND_DATA_INDICATION)) { return TRUE; } }
return FALSE; }
void CMCSCoder::FreeEncoded(LPBYTE encoded_buffer) { ASN1_FreeEncoded(m_pEncInfo, encoded_buffer); }
void CMCSCoder::FreeDecoded (int pdu_type, LPVOID decoded_buffer) { ASN1_FreeDecoded(m_pDecInfo, decoded_buffer, pdu_type); }
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