File content as of revision 12:b30dacf113f2:

// Copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.

#include <stdlib.h>
#ifdef _CRTDBG_MAP_ALLOC
#include <crtdbg.h>
#endif
#include <stdint.h>
#include <stdbool.h>
#include <string.h>
#include "azure_c_shared_utility/xlogging.h"
#include "azure_c_shared_utility/xio.h"
#include "azure_c_shared_utility/singlylinkedlist.h"
#include "azure_uamqp_c/frame_codec.h"
#include "azure_uamqp_c/amqpvalue.h"
#include "azure_uamqp_c/amqpalloc.h"

#define FRAME_HEADER_SIZE 8
#define MAX_TYPE_SPECIFIC_SIZE	((255 * 4) - 6)

typedef enum RECEIVE_FRAME_STATE_TAG
{
	RECEIVE_FRAME_STATE_FRAME_SIZE,
	RECEIVE_FRAME_STATE_DOFF,
	RECEIVE_FRAME_STATE_FRAME_TYPE,
	RECEIVE_FRAME_STATE_TYPE_SPECIFIC,
	RECEIVE_FRAME_STATE_FRAME_BODY,
	RECEIVE_FRAME_STATE_ERROR
} RECEIVE_FRAME_STATE;

typedef enum ENCODE_FRAME_STATE_TAG
{
	ENCODE_FRAME_STATE_IDLE,
	ENCODE_FRAME_STATE_ERROR
} ENCODE_FRAME_STATE;

typedef struct SUBSCRIPTION_TAG
{
	uint8_t frame_type;
	ON_FRAME_RECEIVED on_frame_received;
	void* callback_context;
} SUBSCRIPTION;

typedef struct FRAME_CODEC_INSTANCE_TAG
{
	/* subscriptions */
	SINGLYLINKEDLIST_HANDLE subscription_list;

	/* decode frame */
	RECEIVE_FRAME_STATE receive_frame_state;
	size_t receive_frame_pos;
	uint32_t receive_frame_size;
	uint32_t type_specific_size;
	uint8_t receive_frame_doff;
	uint8_t receive_frame_type;
	SUBSCRIPTION* receive_frame_subscription;
	unsigned char* receive_frame_bytes;
	ON_FRAME_CODEC_ERROR on_frame_codec_error;
	void* on_frame_codec_error_callback_context;

	/* encode frame */
	ENCODE_FRAME_STATE encode_frame_state;

	/* configuration */
	uint32_t max_frame_size;
} FRAME_CODEC_INSTANCE;

static bool find_subscription_by_frame_type(LIST_ITEM_HANDLE list_item, const void* match_context)
{
	bool result;
	SUBSCRIPTION* subscription = (SUBSCRIPTION*)singlylinkedlist_item_get_value(list_item);

	if (subscription == NULL)
	{
		result = false;
	}
	else
	{
		result = subscription->frame_type == *((uint8_t*)match_context) ? true : false;
	}

	return result;
}

FRAME_CODEC_HANDLE frame_codec_create(ON_FRAME_CODEC_ERROR on_frame_codec_error, void* callback_context)
{
	FRAME_CODEC_INSTANCE* result;

	/* Codes_SRS_FRAME_CODEC_01_020: [If the on_frame_codec_error argument is NULL, frame_codec_create shall return NULL.] */
	/* Codes_SRS_FRAME_CODEC_01_104: [The callback_context shall be allowed to be NULL.] */
	if (on_frame_codec_error == NULL)
	{
		result = NULL;
	}
	else
	{
		result = amqpalloc_malloc(sizeof(FRAME_CODEC_INSTANCE));
		/* Codes_SRS_FRAME_CODEC_01_022: [If allocating memory for the frame_codec instance fails, frame_codec_create shall return NULL.] */
		if (result != NULL)
		{
			/* Codes_SRS_FRAME_CODEC_01_021: [frame_codec_create shall create a new instance of frame_codec and return a non-NULL handle to it on success.] */
			result->encode_frame_state = ENCODE_FRAME_STATE_IDLE;
			result->receive_frame_state = RECEIVE_FRAME_STATE_FRAME_SIZE;
			result->on_frame_codec_error = on_frame_codec_error;
			result->on_frame_codec_error_callback_context = callback_context;
			result->receive_frame_pos = 0;
			result->receive_frame_size = 0;
			result->receive_frame_bytes = NULL;
			result->subscription_list = singlylinkedlist_create();

			/* Codes_SRS_FRAME_CODEC_01_082: [The initial max_frame_size_shall be 512.] */
			result->max_frame_size = 512;
		}
	}

	return result;
}

void frame_codec_destroy(FRAME_CODEC_HANDLE frame_codec)
{
	/* Codes_SRS_FRAME_CODEC_01_024: [If frame_codec is NULL, frame_codec_destroy shall do nothing.] */
	if (frame_codec != NULL)
	{
		FRAME_CODEC_INSTANCE* frame_codec_data = (FRAME_CODEC_INSTANCE*)frame_codec;

		singlylinkedlist_destroy(frame_codec_data->subscription_list);
		if (frame_codec_data->receive_frame_bytes != NULL)
		{
			amqpalloc_free(frame_codec_data->receive_frame_bytes);
		}

		/* Codes_SRS_FRAME_CODEC_01_023: [frame_codec_destroy shall free all resources associated with a frame_codec instance.] */
		amqpalloc_free(frame_codec);
	}
}

int frame_codec_set_max_frame_size(FRAME_CODEC_HANDLE frame_codec, uint32_t max_frame_size)
{
	int result;
	FRAME_CODEC_INSTANCE* frame_codec_data = (FRAME_CODEC_INSTANCE*)frame_codec;

	/* Codes_SRS_FRAME_CODEC_01_077: [If frame_codec is NULL, frame_codec_set_max_frame_size shall return a non-zero value.] */
	if ((frame_codec == NULL) ||
		/* Codes_SRS_FRAME_CODEC_01_078: [If max_frame_size is invalid according to the AMQP standard, frame_codec_set_max_frame_size shall return a non-zero value.] */
		(max_frame_size < FRAME_HEADER_SIZE) ||
		/* Codes_SRS_FRAME_CODEC_01_081: [If a frame being decoded already has a size bigger than the max_frame_size argument then frame_codec_set_max_frame_size shall return a non-zero value and the previous frame size shall be kept.] */
		((max_frame_size < frame_codec_data->receive_frame_size) && (frame_codec_data->receive_frame_state != RECEIVE_FRAME_STATE_FRAME_SIZE)) ||
		/* Codes_SRS_FRAME_CODEC_01_097: [Setting a frame size on a frame_codec that had a decode error shall fail.] */
		(frame_codec_data->receive_frame_state == RECEIVE_FRAME_STATE_ERROR) ||
		/* Codes_SRS_FRAME_CODEC_01_098: [Setting a frame size on a frame_codec that had an encode error shall fail.] */
		(frame_codec_data->encode_frame_state == ENCODE_FRAME_STATE_ERROR))
	{
		result = __LINE__;
	}
	else
	{
		/* Codes_SRS_FRAME_CODEC_01_075: [frame_codec_set_max_frame_size shall set the maximum frame size for a frame_codec.] */
		/* Codes_SRS_FRAME_CODEC_01_079: [The new frame size shall take effect immediately, even for a frame that is being decoded at the time of the call.] */
		frame_codec_data->max_frame_size = max_frame_size;

		/* Codes_SRS_FRAME_CODEC_01_076: [On success, frame_codec_set_max_frame_size shall return 0.] */
		result = 0;
	}
	return result;
}

/* Codes_SRS_FRAME_CODEC_01_001: [Frames are divided into three distinct areas: a fixed width frame header, a variable width extended header, and a variable width frame body.] */
/* Codes_SRS_FRAME_CODEC_01_002: [frame header The frame header is a fixed size (8 byte) structure that precedes each frame.] */
/* Codes_SRS_FRAME_CODEC_01_003: [The frame header includes mandatory information necessary to parse the rest of the frame including size and type information.] */
/* Codes_SRS_FRAME_CODEC_01_004: [extended header The extended header is a variable width area preceding the frame body.] */
/* Codes_SRS_FRAME_CODEC_01_007: [frame body The frame body is a variable width sequence of bytes the format of which depends on the frame type.] */
/* Codes_SRS_FRAME_CODEC_01_028: [The sequence of bytes shall be decoded according to the AMQP ISO.] */
/* Codes_SRS_FRAME_CODEC_01_029: [The sequence of bytes does not have to be a complete frame, frame_codec shall be responsible for maintaining decoding state between frame_codec_receive_bytes calls.] */
int frame_codec_receive_bytes(FRAME_CODEC_HANDLE frame_codec, const unsigned char* buffer, size_t size)
{
    int result = __LINE__;
	FRAME_CODEC_INSTANCE* frame_codec_data = (FRAME_CODEC_INSTANCE*)frame_codec;

	/* Codes_SRS_FRAME_CODEC_01_026: [If frame_codec or buffer are NULL, frame_codec_receive_bytes shall return a non-zero value.] */
	if ((frame_codec == NULL) ||
		(buffer == NULL) ||
		/* Codes_SRS_FRAME_CODEC_01_027: [If size is zero, frame_codec_receive_bytes shall return a non-zero value.] */
		(size == 0))
	{
		result = __LINE__;
	}
	else
	{
		while (size > 0)
		{
			switch (frame_codec_data->receive_frame_state)
			{
			default:
			case RECEIVE_FRAME_STATE_ERROR:
				/* Codes_SRS_FRAME_CODEC_01_074: [If a decoding error is detected, any subsequent calls on frame_codec_data_receive_bytes shall fail.] */
				result = __LINE__;
				size = 0;
				break;

				/* Codes_SRS_FRAME_CODEC_01_008: [SIZE Bytes 0-3 of the frame header contain the frame size.] */
			case RECEIVE_FRAME_STATE_FRAME_SIZE:
				/* Codes_SRS_FRAME_CODEC_01_009: [This is an unsigned 32-bit integer that MUST contain the total frame size of the frame header, extended header, and frame body.] */
				frame_codec_data->receive_frame_size += buffer[0] << (24 - frame_codec_data->receive_frame_pos * 8);
				buffer++;
				size--;
				frame_codec_data->receive_frame_pos++;

				if (frame_codec_data->receive_frame_pos == 4)
				{
					/* Codes_SRS_FRAME_CODEC_01_010: [The frame is malformed if the size is less than the size of the frame header (8 bytes).] */
					if ((frame_codec_data->receive_frame_size < FRAME_HEADER_SIZE) ||
						/* Codes_SRS_FRAME_CODEC_01_096: [If a frame bigger than the current max frame size is received, frame_codec_receive_bytes shall fail and return a non-zero value.] */
						(frame_codec_data->receive_frame_size > frame_codec_data->max_frame_size))
					{
						/* Codes_SRS_FRAME_CODEC_01_074: [If a decoding error is detected, any subsequent calls on frame_codec_data_receive_bytes shall fail.] */
						frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_ERROR;
						/* Codes_SRS_FRAME_CODEC_01_103: [Upon any decode error, if an error callback has been passed to frame_codec_create, then the error callback shall be called with the context argument being the on_frame_codec_error_callback_context argument passed to frame_codec_create.] */
						frame_codec_data->on_frame_codec_error(frame_codec_data->on_frame_codec_error_callback_context);

						result = __LINE__;
					}
					else
					{
						frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_DOFF;
						result = 0;
					}
				}
				else
				{
					result = 0;
				}

				break;

			case RECEIVE_FRAME_STATE_DOFF:
				/* Codes_SRS_FRAME_CODEC_01_011: [DOFF Byte 4 of the frame header is the data offset.] */
				/* Codes_SRS_FRAME_CODEC_01_013: [The value of the data offset is an unsigned, 8-bit integer specifying a count of 4-byte words.] */
				/* Codes_SRS_FRAME_CODEC_01_012: [This gives the position of the body within the frame.] */
				frame_codec_data->receive_frame_doff = buffer[0];
				buffer++;
				size--;

				/* Codes_SRS_FRAME_CODEC_01_014: [Due to the mandatory 8-byte frame header, the frame is malformed if the value is less than 2.] */
				if (frame_codec_data->receive_frame_doff < 2)
				{
					/* Codes_SRS_FRAME_CODEC_01_074: [If a decoding error is detected, any subsequent calls on frame_codec_data_receive_bytes shall fail.] */
					frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_ERROR;

					/* Codes_SRS_FRAME_CODEC_01_103: [Upon any decode error, if an error callback has been passed to frame_codec_create, then the error callback shall be called with the context argument being the on_frame_codec_error_callback_context argument passed to frame_codec_create.] */
					frame_codec_data->on_frame_codec_error(frame_codec_data->on_frame_codec_error_callback_context);

					result = __LINE__;
				}
				else
				{
					frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_FRAME_TYPE;
					result = 0;
				}

				break;

			case RECEIVE_FRAME_STATE_FRAME_TYPE:
			{
				LIST_ITEM_HANDLE item_handle;
				frame_codec_data->type_specific_size = (frame_codec_data->receive_frame_doff * 4) - 6;

				/* Codes_SRS_FRAME_CODEC_01_015: [TYPE Byte 5 of the frame header is a type code.] */
				frame_codec_data->receive_frame_type = buffer[0];
				buffer++;
				size--;

				/* Codes_SRS_FRAME_CODEC_01_035: [After successfully registering a callback for a certain frame type, when subsequently that frame type is received the callbacks shall be invoked, passing to it the received frame and the callback_context value.] */
				item_handle = singlylinkedlist_find(frame_codec_data->subscription_list, find_subscription_by_frame_type, &frame_codec_data->receive_frame_type);
				if (item_handle == NULL)
				{
					frame_codec_data->receive_frame_subscription = NULL;
					frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_TYPE_SPECIFIC;
					result = 0;
					break;
				}
				else
				{
					frame_codec_data->receive_frame_subscription = (SUBSCRIPTION*)singlylinkedlist_item_get_value(item_handle);
					if (frame_codec_data->receive_frame_subscription == NULL)
					{
						frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_TYPE_SPECIFIC;
						result = 0;
						break;
					}
					else
					{
						frame_codec_data->receive_frame_pos = 0;

						/* Codes_SRS_FRAME_CODEC_01_102: [frame_codec_receive_bytes shall allocate memory to hold the frame_body bytes.] */
						frame_codec_data->receive_frame_bytes = (unsigned char*)amqpalloc_malloc(frame_codec_data->receive_frame_size - 6);
						if (frame_codec_data->receive_frame_bytes == NULL)
						{
							/* Codes_SRS_FRAME_CODEC_01_101: [If the memory for the frame_body bytes cannot be allocated, frame_codec_receive_bytes shall fail and return a non-zero value.] */
							/* Codes_SRS_FRAME_CODEC_01_030: [If a decoding error occurs, frame_codec_data_receive_bytes shall return a non-zero value.] */
							/* Codes_SRS_FRAME_CODEC_01_074: [If a decoding error is detected, any subsequent calls on frame_codec_data_receive_bytes shall fail.] */
							frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_ERROR;

							/* Codes_SRS_FRAME_CODEC_01_103: [Upon any decode error, if an error callback has been passed to frame_codec_create, then the error callback shall be called with the context argument being the on_frame_codec_error_callback_context argument passed to frame_codec_create.] */
							frame_codec_data->on_frame_codec_error(frame_codec_data->on_frame_codec_error_callback_context);

							result = __LINE__;
							break;
						}
						else
						{
							frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_TYPE_SPECIFIC;
							result = 0;
							break;
						}
					}
				}
			}

			case RECEIVE_FRAME_STATE_TYPE_SPECIFIC:
			{
				size_t to_copy = frame_codec_data->type_specific_size - frame_codec_data->receive_frame_pos;
				if (to_copy > size)
				{
					to_copy = size;
				}

				if (frame_codec_data->receive_frame_subscription != NULL)
				{
					(void)memcpy(&frame_codec_data->receive_frame_bytes[frame_codec_data->receive_frame_pos], buffer, to_copy);
					frame_codec_data->receive_frame_pos += to_copy;
					buffer += to_copy;
					size -= to_copy;
				}
				else
				{
					frame_codec_data->receive_frame_pos += to_copy;
					buffer += to_copy;
					size -= to_copy;
				}

				if (frame_codec_data->receive_frame_pos == frame_codec_data->type_specific_size)
				{
					if (frame_codec_data->receive_frame_size == FRAME_HEADER_SIZE)
					{
						if (frame_codec_data->receive_frame_subscription != NULL)
						{
							/* Codes_SRS_FRAME_CODEC_01_031: [When a complete frame is successfully decoded it shall be indicated to the upper layer by invoking the on_frame_received passed to frame_codec_subscribe.] */
							/* Codes_SRS_FRAME_CODEC_01_032: [Besides passing the frame information, the callback_context value passed to frame_codec_data_subscribe shall be passed to the on_frame_received function.] */
							/* Codes_SRS_FRAME_CODEC_01_005: [This is an extension point defined for future expansion.] */
							/* Codes_SRS_FRAME_CODEC_01_006: [The treatment of this area depends on the frame type.] */
							/* Codes_SRS_FRAME_CODEC_01_100: [If the frame body size is 0, the frame_body pointer passed to on_frame_received shall be NULL.] */
							frame_codec_data->receive_frame_subscription->on_frame_received(frame_codec_data->receive_frame_subscription->callback_context, frame_codec_data->receive_frame_bytes, frame_codec_data->type_specific_size, NULL, 0);
							amqpalloc_free(frame_codec_data->receive_frame_bytes);
							frame_codec_data->receive_frame_bytes = NULL;
						}

						frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_FRAME_SIZE;
						frame_codec_data->receive_frame_size = 0;
					}
					else
					{
						frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_FRAME_BODY;
					}

					frame_codec_data->receive_frame_pos = 0;
				}

				result = 0;
				break;
			}

			case RECEIVE_FRAME_STATE_FRAME_BODY:
			{
				uint32_t frame_body_size = frame_codec_data->receive_frame_size - (frame_codec_data->receive_frame_doff * 4);
				size_t to_copy = frame_body_size - frame_codec_data->receive_frame_pos;

				if (to_copy > size)
				{
					to_copy = size;
				}

				(void)memcpy(frame_codec_data->receive_frame_bytes + frame_codec_data->receive_frame_pos + frame_codec_data->type_specific_size, buffer, to_copy);

				buffer += to_copy;
				size -= to_copy;
				frame_codec_data->receive_frame_pos += to_copy;

				if (frame_codec_data->receive_frame_pos == frame_body_size)
				{
					if (frame_codec_data->receive_frame_subscription != NULL)
					{
						/* Codes_SRS_FRAME_CODEC_01_031: [When a complete frame is successfully decoded it shall be indicated to the upper layer by invoking the on_frame_received passed to frame_codec_subscribe.] */
						/* Codes_SRS_FRAME_CODEC_01_032: [Besides passing the frame information, the callback_context value passed to frame_codec_data_subscribe shall be passed to the on_frame_received function.] */
						/* Codes_SRS_FRAME_CODEC_01_005: [This is an extension point defined for future expansion.] */
						/* Codes_SRS_FRAME_CODEC_01_006: [The treatment of this area depends on the frame type.] */
						/* Codes_SRS_FRAME_CODEC_01_099: [A pointer to the frame_body bytes shall also be passed to the on_frame_received.] */
						frame_codec_data->receive_frame_subscription->on_frame_received(frame_codec_data->receive_frame_subscription->callback_context, frame_codec_data->receive_frame_bytes, frame_codec_data->type_specific_size, frame_codec_data->receive_frame_bytes + frame_codec_data->type_specific_size, frame_body_size);
						amqpalloc_free(frame_codec_data->receive_frame_bytes);
						frame_codec_data->receive_frame_bytes = NULL;
					}

					frame_codec_data->receive_frame_state = RECEIVE_FRAME_STATE_FRAME_SIZE;
					frame_codec_data->receive_frame_pos = 0;
					frame_codec_data->receive_frame_size = 0;
				}
				result = 0;

				break;
			}
			}
		}
	}

	return result;
}

/* Codes_SRS_FRAME_CODEC_01_033: [frame_codec_subscribe subscribes for a certain type of frame received by the frame_codec instance identified by frame_codec.] */
int frame_codec_subscribe(FRAME_CODEC_HANDLE frame_codec, uint8_t type, ON_FRAME_RECEIVED on_frame_received, void* callback_context)
{
	int result;

	/* Codes_SRS_FRAME_CODEC_01_034: [If any of the frame_codec or on_frame_received arguments is NULL, frame_codec_subscribe shall return a non-zero value.] */
	if ((frame_codec == NULL) ||
		(on_frame_received == NULL))
	{
		result = __LINE__;
	}
	else
	{
		FRAME_CODEC_INSTANCE* frame_codec_data = (FRAME_CODEC_INSTANCE*)frame_codec;
		SUBSCRIPTION* subscription;

		/* Codes_SRS_FRAME_CODEC_01_036: [Only one callback pair shall be allowed to be registered for a given frame type.] */
		/* find the subscription for this frame type */
		LIST_ITEM_HANDLE list_item = singlylinkedlist_find(frame_codec_data->subscription_list, find_subscription_by_frame_type, &type);
		if (list_item != NULL)
		{
			subscription = (SUBSCRIPTION*)singlylinkedlist_item_get_value(list_item);
			if (subscription == NULL)
			{
				/* Codes_SRS_FRAME_CODEC_01_037: [If any failure occurs while performing the subscribe operation, frame_codec_subscribe shall return a non-zero value.] */
				result = __LINE__;
			}
			else
			{
				/* a subscription was found */
				subscription->on_frame_received = on_frame_received;
				subscription->callback_context = callback_context;

				/* Codes_SRS_FRAME_CODEC_01_087: [On success, frame_codec_subscribe shall return zero.] */
				result = 0;
			}
		}
		else
		{
			/* add a new subscription */
			subscription = (SUBSCRIPTION*)amqpalloc_malloc(sizeof(SUBSCRIPTION));
			/* Codes_SRS_FRAME_CODEC_01_037: [If any failure occurs while performing the subscribe operation, frame_codec_subscribe shall return a non-zero value.] */
			if (subscription == NULL)
			{
				result = __LINE__;
			}
			else
			{
				subscription->on_frame_received = on_frame_received;
				subscription->callback_context = callback_context;
				subscription->frame_type = type;

				/* Codes_SRS_FRAME_CODEC_01_037: [If any failure occurs while performing the subscribe operation, frame_codec_subscribe shall return a non-zero value.] */
				if (singlylinkedlist_add(frame_codec_data->subscription_list, subscription) == NULL)
				{
					amqpalloc_free(subscription);
					result = __LINE__;
				}
				else
				{
					/* Codes_SRS_FRAME_CODEC_01_087: [On success, frame_codec_subscribe shall return zero.] */
					result = 0;
				}
			}
		}
	}

	return result;
}

int frame_codec_unsubscribe(FRAME_CODEC_HANDLE frame_codec, uint8_t type)
{
	int result;

	/* Codes_SRS_FRAME_CODEC_01_039: [If frame_codec is NULL, frame_codec_unsubscribe shall return a non-zero value.] */
	if (frame_codec == NULL)
	{
		result = __LINE__;
	}
	else
	{
		FRAME_CODEC_INSTANCE* frame_codec_data = (FRAME_CODEC_INSTANCE*)frame_codec;
		LIST_ITEM_HANDLE list_item = singlylinkedlist_find(frame_codec_data->subscription_list, find_subscription_by_frame_type, &type);

		if (list_item == NULL)
		{
			/* Codes_SRS_FRAME_CODEC_01_040: [If no subscription for the type frame type exists, frame_codec_unsubscribe shall return a non-zero value.] */
			/* Codes_SRS_FRAME_CODEC_01_041: [If any failure occurs while performing the unsubscribe operation, frame_codec_unsubscribe shall return a non-zero value.] */
			result = __LINE__;
		}
		else
		{
			SUBSCRIPTION* subscription = (SUBSCRIPTION*)singlylinkedlist_item_get_value(list_item);
			if (subscription == NULL)
			{
				/* Codes_SRS_FRAME_CODEC_01_041: [If any failure occurs while performing the unsubscribe operation, frame_codec_unsubscribe shall return a non-zero value.] */
				result = __LINE__;
			}
			else
			{
				amqpalloc_free(subscription);
				if (singlylinkedlist_remove(frame_codec_data->subscription_list, list_item) != 0)
				{
					/* Codes_SRS_FRAME_CODEC_01_041: [If any failure occurs while performing the unsubscribe operation, frame_codec_unsubscribe shall return a non-zero value.] */
					result = __LINE__;
				}
				else
				{
					/* Codes_SRS_FRAME_CODEC_01_038: [frame_codec_unsubscribe removes a previous subscription for frames of type type and on success it shall return 0.] */
					result = 0;
				}
			}
		}
	}

	return result;
}

int frame_codec_encode_frame(FRAME_CODEC_HANDLE frame_codec, uint8_t type, const PAYLOAD* payloads, size_t payload_count, const unsigned char* type_specific_bytes, uint32_t type_specific_size, ON_BYTES_ENCODED on_bytes_encoded, void* callback_context)
{
	int result;

	FRAME_CODEC_INSTANCE* frame_codec_data = (FRAME_CODEC_INSTANCE*)frame_codec;

	/* Codes_SRS_FRAME_CODEC_01_044: [If the argument frame_codec is NULL, frame_codec_encode_frame shall return a non-zero value.] */
	if ((frame_codec == NULL) ||
		/* Codes_SRS_FRAME_CODEC_01_091: [If the argument type_specific_size is greater than 0 and type_specific_bytes is NULL, frame_codec_encode_frame shall return a non-zero value.] */
		((type_specific_size > 0) && (type_specific_bytes == NULL)) ||
		/* Codes_SRS_FRAME_CODEC_01_092: [If type_specific_size is too big to allow encoding the frame according to the AMQP ISO then frame_codec_encode_frame shall return a non-zero value.] */
		(type_specific_size > MAX_TYPE_SPECIFIC_SIZE) ||
		(frame_codec_data->encode_frame_state == ENCODE_FRAME_STATE_ERROR))
	{
		result = __LINE__;
	}
	else
	{
        /* round up to the 4 bytes for doff */
        /* Codes_SRS_FRAME_CODEC_01_067: [The value of the data offset is an unsigned, 8-bit integer specifying a count of 4-byte words.] */
        /* Codes_SRS_FRAME_CODEC_01_068: [Due to the mandatory 8-byte frame header, the frame is malformed if the value is less than 2.] */
        uint8_t padding_byte_count;
        uint32_t frame_body_offset = type_specific_size + 6;
        uint8_t doff = (uint8_t)((frame_body_offset + 3) / 4);
        size_t i;
        size_t frame_size;
        size_t frame_body_size = 0;
        frame_body_offset = doff * 4;
        padding_byte_count = (uint8_t)(frame_body_offset - type_specific_size - 6);

        for (i = 0; i < payload_count; i++)
        {
            frame_body_size += payloads[i].length;
        }

        /* Codes_SRS_FRAME_CODEC_01_063: [This is an unsigned 32-bit integer that MUST contain the total frame size of the frame header, extended header, and frame body.] */
        frame_size = frame_body_size + frame_body_offset;

        if (frame_size > frame_codec_data->max_frame_size)
        {
            /* Codes_SRS_FRAME_CODEC_01_095: [If the frame_size needed for the frame is bigger than the maximum frame size, frame_codec_encode_frame shall fail and return a non-zero value.] */
            result = __LINE__;
        }
        else
        {
            /* Codes_SRS_FRAME_CODEC_01_042: [frame_codec_encode_frame encodes the header and type specific bytes of a frame that has frame_payload_size bytes.]  */
            /* Codes_SRS_FRAME_CODEC_01_055: [Frames are divided into three distinct areas: a fixed width frame header, a variable width extended header, and a variable width frame body.] */
            /* Codes_SRS_FRAME_CODEC_01_056: [frame header The frame header is a fixed size (8 byte) structure that precedes each frame.] */
            /* Codes_SRS_FRAME_CODEC_01_057: [The frame header includes mandatory information necessary to parse the rest of the frame including size and type information.] */
            /* Codes_SRS_FRAME_CODEC_01_058: [extended header The extended header is a variable width area preceding the frame body.] */
            /* Codes_SRS_FRAME_CODEC_01_059: [This is an extension point defined for future expansion.] */
            /* Codes_SRS_FRAME_CODEC_01_060: [The treatment of this area depends on the frame type.]*/
            /* Codes_SRS_FRAME_CODEC_01_062: [SIZE Bytes 0-3 of the frame header contain the frame size.] */
            /* Codes_SRS_FRAME_CODEC_01_063: [This is an unsigned 32-bit integer that MUST contain the total frame size of the frame header, extended header, and frame body.] */
            /* Codes_SRS_FRAME_CODEC_01_064: [The frame is malformed if the size is less than the size of the frame header (8 bytes).] */
            unsigned char frame_header[6];

            frame_header[0] = (frame_size >> 24) & 0xFF;
            frame_header[1] = (frame_size >> 16) & 0xFF;
            frame_header[2] = (frame_size >> 8) & 0xFF;
            frame_header[3] = frame_size & 0xFF;
            /* Codes_SRS_FRAME_CODEC_01_065: [DOFF Byte 4 of the frame header is the data offset.] */
            frame_header[4] = doff;
            /* Codes_SRS_FRAME_CODEC_01_069: [TYPE Byte 5 of the frame header is a type code.] */
            frame_header[5] = type;

            /* Codes_SRS_FRAME_CODEC_01_088: [Encoded bytes shall be passed to the on_bytes_encoded callback.] */
            on_bytes_encoded(callback_context, frame_header, sizeof(frame_header), ((frame_body_size + type_specific_bytes + padding_byte_count) == 0) ? true : false);

            /* Codes_SRS_FRAME_CODEC_01_088: [Encoded bytes shall be passed to the on_bytes_encoded callback.] */
            if (type_specific_size > 0)
            {
                on_bytes_encoded(callback_context, type_specific_bytes, type_specific_size, ((frame_body_size + padding_byte_count) == 0) ? true : false);
            }

            /* send padding bytes */
            /* Codes_SRS_FRAME_CODEC_01_090: [If the type_specific_size – 2 does not divide by 4, frame_codec_encode_frame shall pad the type_specific bytes with zeroes so that type specific data is according to the AMQP ISO.] */
            unsigned char padding_bytes[] = { 0x00, 0x00, 0x00 };

            /* Codes_SRS_FRAME_CODEC_01_088: [Encoded bytes shall be passed to the on_bytes_encoded callback.] */
            if (padding_byte_count > 0)
            {
                on_bytes_encoded(callback_context, padding_bytes, padding_byte_count, (payload_count == 0) ? true : false);
            }

            for (i = 0; i < payload_count; i++)
            {
                /* Codes_SRS_FRAME_CODEC_01_088: [Encoded bytes shall be passed to the on_bytes_encoded callback.] */
                on_bytes_encoded(callback_context, payloads[i].bytes, payloads[i].length, (i == payload_count - 1) ? true : false);
            }

            /* Codes_SRS_FRAME_CODEC_01_043: [On success it shall return 0.] */
            result = 0;
        }
	}

	return result;
}