Author: Pekka Riikonen <priikone@silcnet.org>
- Copyright (C) 1997 - 2006 Pekka Riikonen
+ Copyright (C) 1997 - 2007 Pekka Riikonen
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
#ifndef SILCBUFFMT_H
#define SILCBUFFMT_H
+/****f* silcutil/SilcBufferFormatAPI/SilcBufferFormatFunc
+ *
+ * SYNOPSIS
+ *
+ * typedef int (*SilcBufferFormatFunc)(SilcBuffer buffer,
+ * void *value,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Formatting function callback given with SILC_STR_FUNC type. The
+ * `buffer' is the buffer being formatted at the location where the
+ * SILC_STR_FUNC was placed in formatting. The function should call
+ * silc_buffer_enlarge before it adds the data to the buffer to make
+ * sure that it has enough space. The buffer->head points to the
+ * start of the buffer and silc_buffer_headlen() gives the length
+ * of the currently formatted data area. It is also possible to use
+ * silc_buffer_format with `buffer' which will enlarge the buffer if
+ * needed.
+ *
+ * The `value' is the value given to SILC_STR_FUNC that is to be formatted
+ * into the buffer. It may be NULL if the function is not formatting
+ * new data into the buffer. The `context' is caller specific context.
+ * Returns -1 on error and length of the formatted value otherwise, and
+ * 0 if nothing was formatted.
+ *
+ ***/
+typedef int (*SilcBufferFormatFunc)(SilcBuffer buffer, void *value,
+ void *context);
+
+/****f* silcutil/SilcBufferFormatAPI/SilcBufferSFormatFunc
+ *
+ * SYNOPSIS
+ *
+ * typedef int (*SilcBufferSFormatFunc)(SilcStack stack,
+ * SilcBuffer buffer,
+ * void *value,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Formatting function callback given with SILC_STR_FUNC type. The
+ * `buffer' is the buffer being formatted at the location where the
+ * SILC_STR_FUNC was placed in formatting. The function should call
+ * silc_buffer_senlarge before it adds the data to the buffer to make
+ * sure that it has enough space. The buffer->head points to the
+ * start of the buffer and silc_buffer_headlen() gives the length
+ * of the currently formatted data area. It is also possible to use
+ * silc_buffer_sformat with `buffer' which will enlarge the buffer if
+ * needed.
+ *
+ * The `value' is the value given to SILC_STR_FUNC that is to be formatted
+ * into the buffer. It may be NULL if the function is not formatting
+ * new data into the buffer. The `context' is caller specific context.
+ * Returns -1 on error and length of the formatted value otherwise, and
+ * 0 if nothing was formatted.
+ *
+ * This is same as SilcBufferFormatFunc except the SilcStack will be
+ * delivered. This callback must be used when SilcStack is used with
+ * formatting.
+ *
+ ***/
+typedef int (*SilcBufferSFormatFunc)(SilcStack stack, SilcBuffer buffer,
+ void *value, void *context);
+
+/****f* silcutil/SilcBufferFormatAPI/SilcBufferUnformatFunc
+ *
+ * SYNOPSIS
+ *
+ * typedef int (*SilcBufferUnformatFunc)(SilcBuffer buffer,
+ * void **value,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Unformatting function callback given with SILC_STR_FUNC type. The
+ * `buffer' is the buffer being unformatted and is at the location where
+ * the SILC_STR_FUNC was placed in unformatting. The function should
+ * check there is enough data in the `buffer' before trying to decode
+ * from it.
+ *
+ * If this function unformats anything from the buffer its value is to
+ * be returned to the `value' pointer. The implementation should itself
+ * decide whether the unformatted value is allocated or not. If this
+ * function does not unformat anything, nothing is returned to `value'
+ *
+ * The `context' is caller specific context. Returns -1 on error, and
+ * length of the unformatted value otherwise, and 0 if nothing was
+ * unformatted.
+ *
+ ***/
+typedef int (*SilcBufferUnformatFunc)(SilcBuffer buffer, void **value,
+ void *context);
+
+/****f* silcutil/SilcBufferFormatAPI/SilcBufferSUnformatFunc
+ *
+ * SYNOPSIS
+ *
+ * typedef int (*SilcBufferSUnformatFunc)(SilcStack stack,
+ * SilcBuffer buffer,
+ * void **value,
+ * void *context);
+ *
+ * DESCRIPTION
+ *
+ * Unformatting function callback given with SILC_STR_FUNC type. The
+ * `buffer' is the buffer being unformatted and is at the location where
+ * the SILC_STR_FUNC was placed in unformatting. The function should
+ * check there is enough data in the `buffer' before trying to decode
+ * from it.
+ *
+ * If this function unformats anything from the buffer its value is to
+ * be returned to the `value' pointer. The implementation should itself
+ * decide whether the unformatted value is allocated or not. If this
+ * function does not unformat anything, nothing is returned to `value'
+ *
+ * The `context' is caller specific context. Returns -1 on error, and
+ * length of the unformatted value otherwise, and 0 if nothing was
+ * unformatted.
+ *
+ * This is same as SilcBufferUnformatFunc except the SilcStack will be
+ * delivered. This callback must be used when SilcStack is used with
+ * unformatting.
+ *
+ ***/
+typedef int (*SilcBufferSUnformatFunc)(SilcStack stack, SilcBuffer buffer,
+ void **value, void *context);
+
/* Prototypes */
/****f* silcutil/SilcBufferFormatAPI/silc_buffer_format
*
* EXAMPLE
*
+ * Three basic ways of using silc_buffer_format:
+ *
+ * // Statically allocated zero size buffer
* SilcBufferStruct buffer;
- * SilcBuffer buf;
*
* memset(&buffer, 0, sizeof(buffer));
* ret = silc_buffer_format(&buffer,
- * SILC_STR_INT(intval),
+ * SILC_STR_UI_INT(intval),
* SILC_STR_CHAR(charval),
- * SILC_STR_INT(intval),
+ * SILC_STR_UI_INT(intval),
* SILC_STR_SHORT(str_len),
- * SILC_STR_UI_XNSTRING(str, str_len),
+ * SILC_STR_DATA(str, str_len),
* SILC_STR_END);
* if (ret < 0)
* error;
* // Free the allocated data
* silc_buffer_purge(&buffer);
*
- * // Allocate zero size buffer
+ * // Dynamically allocated zero size buffer
+ * SilcBuffer buf;
* buf = silc_buffer_alloc(0);
* ret = silc_buffer_format(buf,
- * SILC_STR_INT(intval),
+ * SILC_STR_UI_INT(intval),
* SILC_STR_CHAR(charval),
* SILC_STR_END);
+ * if (ret < 0)
+ * error;
*
* // Free the allocated buffer
* silc_buffer_free(buf);
*
+ * // Dynamically allocated buffer with enough space
+ * SilcBuffer buf;
+ * buf = silc_buffer_alloc(2 + str_len);
+ * ret = silc_buffer_format(buf,
+ * SILC_STR_UI_SHORT(str_len),
+ * SILC_STR_DATA(str, str_len),
+ * SILC_STR_END);
+ * if (ret < 0)
+ * error;
+ *
***/
int silc_buffer_format(SilcBuffer dst, ...);
***/
int silc_buffer_format_vp(SilcBuffer dst, va_list ap);
-/****f* silcutil/SilcBufferFormatAPI/silc_buffer_format_vp
+/****f* silcutil/SilcBufferFormatAPI/silc_buffer_sformat_vp
*
* SYNOPSIS
*
- * int silc_buffer_format_vp(SilcBuffer dst, va_list vp);
+ * int silc_buffer_sformat_vp(SilcStack stack, SilcBuffer dst, va_list vp);
*
* DESCRIPTION
*
* EXAMPLE
*
* ret = silc_buffer_unformat(buffer,
- * SILC_STR_INT(&intval),
+ * SILC_STR_UI_INT(&intval),
* SILC_STR_CHAR(&charval),
* SILC_STR_OFFSET(4),
* SILC_STR_UI16_NSTRING_ALLOC(&str, &str_len),
*
* SYNOPSIS
*
- * int silc_buffer_strformat(SilcBuffer dst, ...);
+ * int silc_buffer_strformat(SilcBuffer dst, ...);
*
* DESCRIPTION
*
- * Formats a buffer from variable argument list of strings. Each
- * string must be NULL-terminated and the variable argument list must
- * be end with SILC_STR_END argument. This allows that a string in
- * the list can be NULL, in which case it is skipped. This automatically
- * allocates the space for the buffer data but `dst' must be already
- * allocated by the caller.
+ * Formats a buffer from variable argument list of strings. Each
+ * string must be NULL-terminated and the variable argument list must
+ * be end with SILC_STRFMT_END argument. This allows that a string in
+ * the list can be NULL, in which case it is skipped. This automatically
+ * allocates the space for the buffer data but `dst' must be already
+ * allocated by the caller.
*
* EXAMPLE
*
*
* SYNOPSIS
*
- * int silc_buffer_strformat(SilcStack stack, SilcBuffer dst, ...);
+ * int silc_buffer_strformat(SilcStack stack, SilcBuffer dst, ...);
*
* DESCRIPTION
*
- * Formats a buffer from variable argument list of strings. Each
- * string must be NULL-terminated and the variable argument list must
- * be end with SILC_STR_END argument. This allows that a string in
- * the list can be NULL, in which case it is skipped. This automatically
- * allocates the space for the buffer data but `dst' must be already
- * allocated by the caller. This function is equivalent to
- * silc_buffer_strformat but allocates memory from `stack'.
+ * Formats a buffer from variable argument list of strings. Each
+ * string must be NULL-terminated and the variable argument list must
+ * be end with SILC_STRFMT_END argument. This allows that a string in
+ * the list can be NULL, in which case it is skipped. This automatically
+ * allocates the space for the buffer data but `dst' must be already
+ * allocated by the caller. This function is equivalent to
+ * silc_buffer_strformat but allocates memory from `stack'.
*
***/
int silc_buffer_sstrformat(SilcStack stack, SilcBuffer dst, ...);
SILC_PARAM_OFFSET,
SILC_PARAM_ADVANCE,
+ SILC_PARAM_FUNC,
SILC_PARAM_UI_XNSTRING,
SILC_PARAM_UI_XNSTRING_ALLOC,
*
* SilcInt16/SilcUInt16.
*
- * Formatting: SILC_STR_SI_SHORT(short)
+ * Formatting: SILC_STR_SI_SHORT(SilcInt16)
* SILC_STR_UI_SHORT(SilcUInt16)
- * Unformatting: SILC_STR_SI_SHORT(short *)
+ * Unformatting: SILC_STR_SI_SHORT(SilcInt16 *)
* SILC_STR_UI_SHORT(SilcUInt16 *)
*
***/
*
* SilcInt32/SilcUInt32.
*
- * Formatting: SILC_STR_SI_INT(int)
+ * Formatting: SILC_STR_SI_INT(SilcInt32)
* SILC_STR_UI_INT(SilcUInt32)
- * Unformatting: SILC_STR_SI_INT(int *)
+ * Unformatting: SILC_STR_SI_INT(SilcInt32 *)
* SILC_STR_UI_INT(SilcUInt32 *)
*
***/
*
* SilcInt64/SilcUInt64.
*
- * Formatting: SILC_STR_SI_INT64(int)
- * SILC_STR_UI_INT64(SilcUInt32)
- * Unformatting: SILC_STR_SI_INT64(int *)
- * SILC_STR_UI_INT64(SilcUInt32 *)
+ * Formatting: SILC_STR_SI_INT64(SilcInt64)
+ * SILC_STR_UI_INT64(SilcUInt64)
+ * Unformatting: SILC_STR_SI_INT64(SilcInt64 *)
+ * SILC_STR_UI_INT64(SilcUInt64 *)
*
***/
#define SILC_STR_SI_INT64(x) SILC_PARAM_SI64_INT, (x)
*
* SilcBuffer formatting.
*
- * Formatting: SILC_STR_DATA(SilcBuffer)
- * Unformatting: SILC_STR_DATA(SilcBuffer)
+ * Formatting: SILC_STR_BUFFER(SilcBuffer)
+ * Unformatting: SILC_STR_BUFFER(SilcBuffer)
*
- * This type can be used to format and unformat SilcBuffer. The lenght
- * of the buffer will be automatically encoded into the buffer as a 32-bit
- * integer. In unformatting the SilcBuffer context must be pre-allocated.
+ * This type can be used to format and unformat SilcBuffer. Note that, the
+ * length of the buffer will be automatically encoded into the buffer as
+ * a 32-bit integer. In unformatting the SilcBuffer context must be
+ * pre-allocated.
*
* _ALLOC routines automatically allocates memory inside SilcBuffer in
* unformatting.
*
***/
-#define SILC_STR_BUFFER(x) SILC_BUFFER_DATA, (x)
+#define SILC_STR_BUFFER(x) SILC_PARAM_BUFFER, (x)
#define SILC_STR_BUFFER_ALLOC(x) SILC_PARAM_BUFFER_ALLOC, (x)
+/****d* silcutil/SilcBufferFormatAPI/SILC_STR_FUNC
+ *
+ * NAME
+ *
+ * #define SILC_STR_FUNC() ...
+ *
+ * DESCRIPTION
+ *
+ * SilcBuffer formatting.
+ *
+ * Formatting: SILC_STR_FUNC(function, void *value, void *context)
+ * Unformatting: SILC_STR_FUNC(function, void **value, void *context)
+ *
+ * This type can be used to call the `function' of the type
+ * SilcBufferFormatFunc or SilcBufferUnformatFunc to encode or decode
+ * the `value'. In encoding the `value' will be passed to the `function'
+ * and can be encoded into the buffer. The buffer will be passed as
+ * well to the `function' at the location where SILC_STR_FUNC is placed
+ * in formatting. The `context' delivers caller specific context to
+ * the `function'
+ *
+ * In unformatting the `function' will decode the encoded type and
+ * return it to `value' pointer. The decoding function should decide
+ * itself whether to allocate or not the decoded value.
+ *
+ * The `function' does not have to encode anything and passing `value'
+ * as NULL is allowed. The `function' could for example modify the
+ * existing buffer.
+ *
+ * EXAMPLE
+ *
+ * // Encode payload, encrypt and compute MAC.
+ * silc_buffer_format(buf,
+ * SILC_STR_FUNC(foo_encode_id, id, ctx),
+ * SILC_STR_UI_SHORT(len),
+ * SILC_STR_DATA(data, len),
+ * SILC_STR_FUNC(foo_buf_encrypt, NULL, key),
+ * SILC_STR_FUNC(foo_buf_hmac, NULL, hmac),
+ * SILC_STR_DATA(iv, iv_len);
+ * SILC_STR_END);
+ *
+ * // Check MAC, decrypt and decode payload
+ * silc_buffer_unformat(buf,
+ * SILC_STR_FUNC(foo_buf_hmac, NULL, hmac),
+ * SILC_STR_FUNC(foo_buf_decrypt, NULL, key),
+ * SILC_STR_FUNC(foo_decode_id, &id, ctx),
+ * SILC_STR_UI_SHORT(&len),
+ * SILC_STR_END);
+ *
+ ***/
+#define SILC_STR_FUNC(func, val, context) SILC_PARAM_FUNC, \
+ func, (val), (context)
+
/****d* silcutil/SilcBufferFormatAPI/SILC_STR_OFFSET
*
* NAME
* buffer is located at the start of the data. With SILC_STR_ADVANCE
* the buffer will be located at the end of the data. This makes it
* easy to add new data immediately after the previously added data.
+ * The SILC_STR_ADVANCE may also be used in unformatting.
*
* EXAMPLE
*
* // Add read data to the buffer
* silc_buffer_format(buffer,
* SILC_STR_ADVANCE,
- * SILC_STR_UI_XNSTRING(buf, len),
+ * SILC_STR_DATA(buf, len),
* SILC_STR_END);
* } while (len > 0);
*
* // Move to beginning of buffer
- * silc_buffer_push(buffer, silc_buffer_truelen(buffer));
+ * silc_buffer_start(buffer);
*
***/
#define SILC_STR_ADVANCE SILC_PARAM_ADVANCE