typedef struct private_generator_t private_generator_t;
/**
- * Private part of a generator_t object
+ * Private part of a generator_t object.
*/
struct private_generator_t {
/**
- * Public part of a generator_t object
+ * Public part of a generator_t object.
*/
generator_t public;
* ATTRIBUTE_TYPE is also generated in this function
* @param offset offset of value in data struct
* @param generator_contexts generator_contexts_t object where the context is written or read from
- * @return - SUCCESS if succeeded
- * - OUT_OF_RES if out of ressources
+ * @return
+ * - SUCCESS
+ * - FAILED if allignment is wrong
*/
- status_t (*generate_u_int_type) (private_generator_t *this,encoding_type_t int_type,u_int32_t offset);
+ void (*generate_u_int_type) (private_generator_t *this,encoding_type_t int_type,u_int32_t offset);
/**
* Get size of current buffer in bytes.
* @param this private_generator_t object
* @param generator_contexts generator_contexts_t object where the context is written or read from
* @param bits number of bits to generate
- * @return - SUCCESS if succeeded
- * - OUT_OF_RES if out of ressources
- * - FAILED if bit count not supported
*/
- status_t (*generate_reserved_field) (private_generator_t *this,int bits);
+ void (*generate_reserved_field) (private_generator_t *this,int bits);
/**
* Generates a FLAG field
* @param this private_generator_t object
* @param generator_contexts generator_contexts_t object where the context is written or read from
* @param offset offset of flag value in data struct
- * @return - SUCCESS if succeeded
- * - OUT_OF_RES if out of ressources
*/
- status_t (*generate_flag) (private_generator_t *this,u_int32_t offset);
+ void (*generate_flag) (private_generator_t *this,u_int32_t offset);
/**
* Writes the current buffer content into a chunk_t
*
* @param this calling private_generator_t object
* @param data pointer of chunk_t to write to
- * @return
- * - SUCCESSFUL if succeeded
- * - OUT_OF_RES otherwise
*/
- status_t (*write_chunk) (private_generator_t *this,chunk_t *data);
+ void (*write_chunk) (private_generator_t *this,chunk_t *data);
/**
* Generates a bytestream from a chunk_t
*
* @param this private_generator_t object
* @param offset offset of chunk_t value in data struct
- * @return - SUCCESS if succeeded
- * - OUT_OF_RES if out of ressources
*/
- status_t (*generate_from_chunk) (private_generator_t *this,u_int32_t offset);
+ void (*generate_from_chunk) (private_generator_t *this,u_int32_t offset);
/**
* Makes sure enough space is available in buffer to store amount of bits.
*
* @param this calling private_generator_t object
* @param bits number of bits to make available in buffer
- * @return
- * - SUCCESSFUL if succeeded
- * - OUT_OF_RES otherwise
*/
- status_t (*make_space_available) (private_generator_t *this,size_t bits);
+ void (*make_space_available) (private_generator_t *this,size_t bits);
/**
* Writes a specific amount of byte into the buffer.
* @param this calling private_generator_t object
* @param bytes pointer to bytes to write
* @param number_of_bytes number of bytes to write into buffer
- * @return
- * - SUCCESSFUL if succeeded
- * - OUT_OF_RES otherwise
*/
- status_t (*write_bytes_to_buffer) (private_generator_t *this,void * bytes,size_t number_of_bytes);
+ void (*write_bytes_to_buffer) (private_generator_t *this,void * bytes,size_t number_of_bytes);
/**
* @param bytes pointer to bytes to write
* @param number_of_bytes number of bytes to write into buffer
* @param offset offset to write the data into
- * @return
- * - SUCCESSFUL if succeeded
- * - OUT_OF_RES otherwise
*/
- status_t (*write_bytes_to_buffer_at_offset) (private_generator_t *this,void * bytes,size_t number_of_bytes,u_int32_t offset);
+ void (*write_bytes_to_buffer_at_offset) (private_generator_t *this,void * bytes,size_t number_of_bytes,u_int32_t offset);
/**
* Buffer used to generate the data into.
* Implements private_generator_t's generate_u_int_type function.
* See #private_generator_s.generate_u_int_type.
*/
-static status_t generate_u_int_type (private_generator_t *this,encoding_type_t int_type,u_int32_t offset)
+static void generate_u_int_type (private_generator_t *this,encoding_type_t int_type,u_int32_t offset)
{
size_t number_of_bits = 0;
- status_t status;
/* find out number of bits of each U_INT type to check for enough space
in buffer */
break;
default:
- return FAILED;
+ this->logger->log(this->logger, ERROR, "U_INT Type %s is not supported",
+ mapping_find(encoding_type_m,int_type));
+
+ return;
}
/* U_INT Types of multiple then 8 bits must be aligned */
if (((number_of_bits % 8) == 0) && (this->current_bit != 0))
this->logger->log(this->logger, ERROR, "U_INT Type %s is not 8 Bit aligned",
mapping_find(encoding_type_m,int_type));
/* current bit has to be zero for values multiple of 8 bits */
- return FAILED;
+ return;
}
/* make sure enough space is available in buffer */
- status = this->make_space_available(this,number_of_bits);
- if (status != SUCCESS)
- {
- return status;
- }
+ this->make_space_available(this,number_of_bits);
/* now handle each u int type differently */
switch (int_type)
{
{
this->logger->log(this->logger, ERROR, "U_INT_4 Type is not 4 Bit aligned");
/* 4 Bit integers must have a 4 bit alignment */
- return FAILED;
+ return;
};
break;
}
{
this->logger->log(this->logger, ERROR, "ATTRIBUTE FORMAT flag is not set");
/* first bit has to be set! */
- return FAILED;
+ return;
}
/* get value of attribute format flag */
u_int8_t attribute_format_flag = *(this->out_position) & 0x80;
default:
{
this->logger->log(this->logger, ERROR, "U_INT Type %s is not supported", mapping_find(encoding_type_m,int_type));
- return FAILED;
+ return;
}
}
- return SUCCESS;
}
/**
* Implements private_generator_t's generate_reserved_field function.
* See #private_generator_s.generate_reserved_field.
*/
-static status_t generate_reserved_field(private_generator_t *this,int bits)
+static void generate_reserved_field(private_generator_t *this,int bits)
{
- status_t status;
-
/* only one bit or 8 bit fields are supported */
if ((bits != 1) && (bits != 8))
{
this->logger->log(this->logger, ERROR, "Reserved field of %d bits cannot be generated", bits);
- return FAILED;
+ return ;
}
/* make sure enough space is available in buffer */
- status = this->make_space_available(this,bits);
- if (status != SUCCESS)
- {
- return status;
- }
+ this->make_space_available(this,bits);
if (bits == 1)
{
this->logger->log(this->logger, ERROR,
"Reserved field cannot be written cause allignement of current bit is %d",
this->current_bit);
- return FAILED;
+ return;
}
*(this->out_position) = 0x00;
this->out_position++;
}
-
- return SUCCESS;
-
-
}
/**
* Implements private_generator_t's generate_flag function.
* See #private_generator_s.generate_flag.
*/
-static status_t generate_flag (private_generator_t *this,u_int32_t offset)
+static void generate_flag (private_generator_t *this,u_int32_t offset)
{
- status_t status;
/* value of current flag */
u_int8_t flag_value;
/* position of flag in current byte */
flag = (flag_value << (7 - this->current_bit));
/* make sure one bit is available in buffer */
- status = this->make_space_available(this,1);
- if (status != SUCCESS)
- {
- return status;
- }
+ this->make_space_available(this,1);
if (this->current_bit == 0)
{
/* memory must be zero */
this->current_bit = this->current_bit % 8;
this->out_position++;
}
- return SUCCESS;
}
/**
* Implements private_generator_t's generate_from_chunk function.
* See #private_generator_s.generate_from_chunk.
*/
-static status_t generate_from_chunk (private_generator_t *this,u_int32_t offset)
+static void generate_from_chunk (private_generator_t *this,u_int32_t offset)
{
if (this->current_bit != 0)
{
this->logger->log(this->logger, ERROR, "can not generate a chunk at Bitpos %d", this->current_bit);
- return FAILED;
+ return ;
}
/* position in buffer */
this->logger->log_chunk(this->logger, RAW|MOST, " =>", attribute_value);
/* use write_bytes_to_buffer function to do the job */
- return this->write_bytes_to_buffer(this,attribute_value->ptr,attribute_value->len);
-
+ this->write_bytes_to_buffer(this,attribute_value->ptr,attribute_value->len);
}
/**
* Implements private_generator_t's generator_context_make_space_available function.
* See #private_generator_s.generator_context_make_space_available.
*/
-static status_t make_space_available (private_generator_t *this, size_t bits)
+static void make_space_available (private_generator_t *this, size_t bits)
{
while (((this->get_current_buffer_space(this) * 8) - this->current_bit) < bits)
{
if (new_buffer == NULL)
{
this->logger->log(this->logger, ERROR, "reallocation of gen buffer failed!!!");
- return OUT_OF_RES;
}
this->buffer = new_buffer;
this->out_position = (this->buffer + out_position_offset);
this->roof_position = (this->buffer + new_buffer_size);
}
- return SUCCESS;
}
/**
* Implements private_generator_t's write_bytes_to_buffer function.
* See #private_generator_s.write_bytes_to_buffer.
*/
-static status_t write_bytes_to_buffer (private_generator_t *this,void * bytes, size_t number_of_bytes)
+static void write_bytes_to_buffer (private_generator_t *this,void * bytes, size_t number_of_bytes)
{
int i;
- status_t status;
u_int8_t *read_position = (u_int8_t *) bytes;
- status = this->make_space_available(this,number_of_bytes * 8);
- if (status != SUCCESS)
- {
- return status;
- }
+ this->make_space_available(this,number_of_bytes * 8);
for (i = 0; i < number_of_bytes; i++)
{
read_position++;
this->out_position++;
}
- return status;
}
/**
* Implements private_generator_t's write_bytes_to_buffer_at_offset function.
* See #private_generator_s.write_bytes_to_buffer_at_offset.
*/
-static status_t write_bytes_to_buffer_at_offset (private_generator_t *this,void * bytes,size_t number_of_bytes,u_int32_t offset)
+static void write_bytes_to_buffer_at_offset (private_generator_t *this,void * bytes,size_t number_of_bytes,u_int32_t offset)
{
int i;
- status_t status;
u_int8_t *read_position = (u_int8_t *) bytes;
u_int8_t *write_position;
u_int32_t free_space_after_offset = (this->get_current_buffer_size(this) - offset);
/* check first if enough space for new data is available */
if (number_of_bytes > free_space_after_offset)
{
- status = this->make_space_available(this,(number_of_bytes - free_space_after_offset) * 8);
+ this->make_space_available(this,(number_of_bytes - free_space_after_offset) * 8);
}
write_position = this->buffer + offset;
read_position++;
write_position++;
}
- return SUCCESS;
+
}
/**
* Implements generator_t's write_chunk function.
* See #generator_s.write_chunk.
*/
-static status_t write_to_chunk (private_generator_t *this,chunk_t *data)
+static void write_to_chunk (private_generator_t *this,chunk_t *data)
{
size_t data_length = this->get_current_data_length(this);
u_int32_t header_length_field = data_length;
if (this->current_bit > 0)
data_length++;
data->ptr = allocator_alloc(data_length);
- if (data->ptr == NULL)
- {
- data->len = 0;
- this->logger->log(this->logger, ERROR, "not enougth ressources to allocate chunk");
- return OUT_OF_RES;
- }
memcpy(data->ptr,this->buffer,data_length);
data->len = data_length;
this->logger->log_chunk(this->logger, RAW, "generated data of this parser", data);
-
- return SUCCESS;
}
/**
* Implements generator_t's generate_payload function.
* See #generator_s.generate_payload.
*/
-static status_t generate_payload (private_generator_t *this,payload_t *payload)
+static void generate_payload (private_generator_t *this,payload_t *payload)
{
int i;
- status_t status;
this->data_struct = payload;
size_t rule_count;
encoding_rule_t *rules;
payload_start = this->out_position;
this->logger->log(this->logger, CONTROL, "generating payload of type %s",
- mapping_find(payload_type_m,payload_type));
+ mapping_find(payload_type_m,payload_type));
/* each payload has its own encoding rules */
payload->get_encoding_rules(payload,&rules,&rule_count);
for (i = 0; i < rule_count;i++)
{
- status = SUCCESS;
this->logger->log(this->logger, CONTROL|MORE, " generating rule %d %s",
i, mapping_find(encoding_type_m,rules[i].type));
switch (rules[i].type)
case IKE_SPI:
case ATTRIBUTE_TYPE:
{
- status = this->generate_u_int_type(this,rules[i].type,rules[i].offset);
+ this->generate_u_int_type(this,rules[i].type,rules[i].offset);
break;
}
case RESERVED_BIT:
{
- status = this->generate_reserved_field(this,1);
+ this->generate_reserved_field(this,1);
break;
}
case RESERVED_BYTE:
{
- status = this->generate_reserved_field(this,8);
+ this->generate_reserved_field(this,8);
break;
}
case FLAG:
{
- status = this->generate_flag(this,rules[i].offset);
+ this->generate_flag(this,rules[i].offset);
break;
}
case PAYLOAD_LENGTH:
/* position of payload lenght field is temporary stored */
this->last_payload_length_position_offset = this->get_current_buffer_offset(this);
/* payload length is generated like an U_INT_16 */
- status = this->generate_u_int_type(this,U_INT_16,rules[i].offset);
+ this->generate_u_int_type(this,U_INT_16,rules[i].offset);
break;
}
case HEADER_LENGTH:
/* position of header length field is temporary stored */
this->header_length_position_offset = this->get_current_buffer_offset(this);
/* header length is generated like an U_INT_32 */
- status = this->generate_u_int_type(this,U_INT_32,rules[i].offset);
+ this->generate_u_int_type(this,U_INT_32,rules[i].offset);
break;
}
case SPI_SIZE:
/* spi size is handled as 8 bit unsigned integer */
- status = this->generate_u_int_type(this,U_INT_8,rules[i].offset);
+ this->generate_u_int_type(this,U_INT_8,rules[i].offset);
/* last spi size is temporary stored */
this->last_spi_size = *((u_int8_t *)(this->data_struct + rules[i].offset));
break;
case SPI:
{
/* the SPI value is generated from chunk */
- status = this->generate_from_chunk(this,rules[i].offset);
+ this->generate_from_chunk(this,rules[i].offset);
break;
}
case KEY_EXCHANGE_DATA:
{
/* the Key Exchange Data value is generated from chunk */
- status = this->generate_from_chunk(this,rules[i].offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could no write key exchange data from chunk");
- return status;
- }
-
+ this->generate_from_chunk(this,rules[i].offset);
+
u_int32_t payload_length_position_offset = this->last_payload_length_position_offset;
/* Length of KE_PAYLOAD is calculated */
u_int16_t length_of_ke_payload = KE_PAYLOAD_HEADER_LENGTH + ((chunk_t *)(this->data_struct + rules[i].offset))->len;
u_int16_t int16_val = htons(length_of_ke_payload);
- status = this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write payload length into buffer");
- return status;
- }
+ this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
break;
}
case NOTIFICATION_DATA:
{
/* the Notification Data value is generated from chunk */
- status = this->generate_from_chunk(this,rules[i].offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "Could not generate notification data from chunk");
- return status;
- }
+ this->generate_from_chunk(this,rules[i].offset);
u_int32_t payload_length_position_offset = this->last_payload_length_position_offset;
/* Length of Notification PAYLOAD is calculated */
length_of_notify_payload += this->last_spi_size;
u_int16_t int16_val = htons(length_of_notify_payload);
- status = this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write payload length into buffer");
- return status;
- }
+ this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
break;
}
case NONCE_DATA:
{
/* the Nonce Data value is generated from chunk */
- status = this->generate_from_chunk(this, rules[i].offset);
-
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write nonce data from chunk");
- return status;
- }
+ this->generate_from_chunk(this, rules[i].offset);
u_int32_t payload_length_position_offset = this->last_payload_length_position_offset;
/* Length of nonce PAYLOAD is calculated */
u_int16_t length_of_nonce_payload = NONCE_PAYLOAD_HEADER_LENGTH + ((chunk_t *)(this->data_struct + rules[i].offset))->len;
u_int16_t int16_val = htons(length_of_nonce_payload);
- status = this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write payload length into buffer");
- return status;
- }
+ this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
break;
}
case PROPOSALS:
iterator_t *iterator;
/* create forward iterator */
- status = proposals->create_iterator(proposals,&iterator,TRUE);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not create iterator for proposals");
- return status;
- }
+ proposals->create_iterator(proposals,&iterator,TRUE);
/* every proposal is processed (iterative call )*/
while (iterator->has_next(iterator))
{
u_int32_t before_generate_position_offset;
u_int32_t after_generate_position_offset;
- status = iterator->current(iterator,(void **)¤t_proposal);
- if (status != SUCCESS)
- {
- iterator->destroy(iterator);
- return status;
- }
+ iterator->current(iterator,(void **)¤t_proposal);
+
before_generate_position_offset = this->get_current_buffer_offset(this);
- status = this->public.generate_payload(&(this->public),current_proposal);
+ this->public.generate_payload(&(this->public),current_proposal);
after_generate_position_offset = this->get_current_buffer_offset(this);
- if (status != SUCCESS)
- {
- iterator->destroy(iterator);
- return status;
- }
/* increase size of transform */
length_of_sa_payload += (after_generate_position_offset - before_generate_position_offset);
iterator->destroy(iterator);
int16_val = htons(length_of_sa_payload);
- status = this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write payload length into buffer");
- return status;
- }
+ this->write_bytes_to_buffer_at_offset(this,&int16_val,sizeof(u_int16_t),payload_length_position_offset);
break;
}
iterator_t *iterator;
/* create forward iterator */
- status = transforms->create_iterator(transforms,&iterator,TRUE);
- if (status != SUCCESS)
- {
- return status;
- }
+ transforms->create_iterator(transforms,&iterator,TRUE);
while (iterator->has_next(iterator))
{
payload_t *current_transform;
u_int32_t before_generate_position_offset;
u_int32_t after_generate_position_offset;
- status = iterator->current(iterator,(void **)¤t_transform);
- if (status != SUCCESS)
- {
- iterator->destroy(iterator);
- return status;
- }
+ iterator->current(iterator,(void **)¤t_transform);
before_generate_position_offset = this->get_current_buffer_offset(this);
- status = this->public.generate_payload(&(this->public),current_transform);
+ this->public.generate_payload(&(this->public),current_transform);
after_generate_position_offset = this->get_current_buffer_offset(this);
- if (status != SUCCESS)
- {
- iterator->destroy(iterator);
- return status;
- }
/* increase size of transform */
length_of_proposal += (after_generate_position_offset - before_generate_position_offset);
iterator_t *iterator;
/* create forward iterator */
- status = transform_attributes->create_iterator(transform_attributes,&iterator,TRUE);
- if (status != SUCCESS)
- {
- return status;
- }
+ transform_attributes->create_iterator(transform_attributes,&iterator,TRUE);
while (iterator->has_next(iterator))
{
payload_t *current_attribute;
u_int32_t before_generate_position_offset;
u_int32_t after_generate_position_offset;
- status = iterator->current(iterator,(void **)¤t_attribute);
- if (status != SUCCESS)
- {
- iterator->destroy(iterator);
- return status;
- }
+ iterator->current(iterator,(void **)¤t_attribute);
before_generate_position_offset = this->get_current_buffer_offset(this);
this->public.generate_payload(&(this->public),current_attribute);
}
case ATTRIBUTE_FORMAT:
{
- status = this->generate_flag(this,rules[i].offset);
+ this->generate_flag(this,rules[i].offset);
/* Attribute format is a flag which is stored in context*/
this->attribute_format = *((bool *) (this->data_struct + rules[i].offset));
break;
{
if (this->attribute_format == FALSE)
{
- status = this->generate_u_int_type(this,U_INT_16,rules[i].offset);
+ this->generate_u_int_type(this,U_INT_16,rules[i].offset);
/* this field hold the length of the attribute */
this->attribute_length = *((u_int16_t *)(this->data_struct + rules[i].offset));
}
else
{
- status = this->generate_u_int_type(this,U_INT_16,rules[i].offset);
+ this->generate_u_int_type(this,U_INT_16,rules[i].offset);
// status = this->write_bytes_to_buffer(this,(this->data_struct + rules[i].offset),2);
}
break;
{
this->logger->log(this->logger, CONTROL|MOST, "attribute value has not fixed size");
/* the attribute value is generated */
- status = this->generate_from_chunk(this,rules[i].offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write attribute value from chunk");
- return status;
- }
+ this->generate_from_chunk(this,rules[i].offset);
}
break;
}
case ENCRYPTED_DATA:
{
- status = this->generate_from_chunk(this, rules[i].offset);
- if (status != SUCCESS)
- {
- this->logger->log(this->logger, ERROR, "could not write encrypted data from chunk");
- return status;
- }
+ this->generate_from_chunk(this, rules[i].offset);
break;
}
default:
this->logger->log(this->logger, ERROR, "field type %s is not supported",
mapping_find(encoding_type_m,rules[i].type));
- return NOT_SUPPORTED;
+ return;
}
}
this->logger->log_bytes(this->logger, RAW|MORE, "generated data for this payload",
payload_start, this->out_position-payload_start);
- return status;
}
/**
}
/* initiate public functions */
- this->public.generate_payload = (status_t(*)(generator_t*, payload_t *)) generate_payload;
- this->public.destroy = (status_t(*)(generator_t*)) destroy;
- this->public.write_to_chunk = (status_t (*) (generator_t *,chunk_t *)) write_to_chunk;
+ this->public.generate_payload = (void(*)(generator_t*, payload_t *)) generate_payload;
+ this->public.destroy = (void(*)(generator_t*)) destroy;
+ this->public.write_to_chunk = (void (*) (generator_t *,chunk_t *)) write_to_chunk;
/* initiate private functions */
generator = generator_create();
tester->assert_true(tester,(generator != NULL), "generator create check");
- status = generator->generate_payload(generator,(payload_t *) header_data);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
+ generator->generate_payload(generator,(payload_t *) header_data);
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->write_to_chunk(generator,&generated_data);
u_int8_t expected_generation[] = {
0x01,0x00,0x00,0x00,
tester->assert_true(tester,(memcmp(expected_generation,generated_data.ptr,sizeof(expected_generation)) == 0), "compare generated data 1");
allocator_free_chunk(&generated_data);
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
header_data->set_initiator_spi(header_data,0x22000054231234LL);
header_data->set_responder_spi(header_data,0x122398);
generator = generator_create();
tester->assert_true(tester,(generator != NULL), "generator create check");
- status = generator->generate_payload(generator,(payload_t *)header_data);
+ generator->generate_payload(generator,(payload_t *)header_data);
tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->write_to_chunk(generator,&generated_data);
u_int8_t expected_generation2[] = {
0x34,0x12,0x23,0x54,
header_data->destroy(header_data);
global_logger_manager->destroy_logger(global_logger_manager,logger);
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
}
/*
generator = generator_create();
tester->assert_true(tester,(generator != NULL), "generator create check");
attribute = transform_attribute_create();
- status = generator->generate_payload(generator,(payload_t *)attribute);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)attribute);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated attribute",&generated_data);
u_int8_t expected_generation[] = {
tester->assert_true(tester,(memcmp(expected_generation,generated_data.ptr,sizeof(expected_generation)) == 0), "compare generated data");
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(attribute->destroy(attribute) == SUCCESS), "attribute destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
/* test attribute with 2 byte data */
generator = generator_create();
attribute->set_value_chunk(attribute,data);
- status = generator->generate_payload(generator,(payload_t *)attribute);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)attribute);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated attribute",&generated_data);
u_int8_t expected_generation2[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(attribute->destroy(attribute) == SUCCESS), "attribute destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
tester->assert_true(tester,(status == SUCCESS),"set_attribute_type call check");
- status = generator->generate_payload(generator,(payload_t *)attribute);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)attribute);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated attribute",&generated_data);
u_int8_t expected_generation3[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(attribute->destroy(attribute) == SUCCESS), "attribute destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);
logger->log(logger,CONTROL,"transform created");
- status = generator->generate_payload(generator,(payload_t *)transform);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)transform);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated transform",&generated_data);
u_int8_t expected_generation3[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(transform->destroy(transform) == SUCCESS), "transform destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);
tester->assert_true(tester,(status == SUCCESS),"set_protocol_id call check");
- status = generator->generate_payload(generator,(payload_t *)proposal);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)proposal);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated transform",&generated_data);
u_int8_t expected_generation[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(proposal->destroy(proposal) == SUCCESS), "proposal destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);
ike_header->set_response_flag(ike_header, TRUE);
ike_header->set_message_id(ike_header,0x33AFF3);
- status = generator->generate_payload(generator,(payload_t *)ike_header);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- status = generator->generate_payload(generator,(payload_t *)sa_payload);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)ike_header);
+ generator->generate_payload(generator,(payload_t *)sa_payload);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated transform",&generated_data);
u_int8_t expected_generation[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(ike_header->destroy(ike_header) == SUCCESS), "ike_header destroy call check");
tester->assert_true(tester,(sa_payload->destroy(sa_payload) == SUCCESS), "sa_payload destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);
generator_t *generator;
ke_payload_t *ke_payload;
logger_t *logger;
- status_t status;
chunk_t generated_data;
chunk_t key_exchange_data;
ke_payload->set_dh_group_number(ke_payload,7777);
- status = generator->generate_payload(generator,(payload_t *)ke_payload);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)ke_payload);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated payload",&generated_data);
u_int8_t expected_generation[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(ke_payload->destroy(ke_payload) == SUCCESS), "sa_payload destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);
generator_t *generator;
notify_payload_t *notify_payload;
logger_t *logger;
- status_t status;
chunk_t generated_data;
chunk_t spi,notification_data;
notify_payload->set_spi(notify_payload,spi);
notify_payload->set_notification_data(notify_payload,notification_data);
- status = generator->generate_payload(generator,(payload_t *)notify_payload);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)notify_payload);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated payload",&generated_data);
u_int8_t expected_generation[] = {
allocator_free_chunk(&generated_data);
tester->assert_true(tester,(notify_payload->destroy(notify_payload) == SUCCESS), "notify_payload destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);
generator_t *generator;
nonce_payload_t *nonce_payload;
logger_t *logger;
- status_t status;
chunk_t generated_data;
chunk_t nonce;
nonce_payload->set_nonce(nonce_payload,nonce);
- status = generator->generate_payload(generator,(payload_t *)nonce_payload);
- tester->assert_true(tester,(status == SUCCESS),"generate_payload call check");
- tester->assert_true(tester,(generator->write_to_chunk(generator,&generated_data) == SUCCESS),"write_to_chunk call check");
+ generator->generate_payload(generator,(payload_t *)nonce_payload);
+ generator->write_to_chunk(generator,&generated_data);
logger->log_chunk(logger,RAW,"generated payload",&generated_data);
tester->assert_true(tester,(nonce_payload->destroy(nonce_payload) == SUCCESS), "notify_payload destroy call check");
- tester->assert_true(tester,(generator->destroy(generator) == SUCCESS), "generator destroy call check");
+ generator->destroy(generator);
global_logger_manager->destroy_logger(global_logger_manager,logger);