diff options
author | Bill Meier <wmeier@newsguy.com> | 2015-02-13 13:25:19 -0500 |
---|---|---|
committer | Bill Meier <wmeier@newsguy.com> | 2015-02-13 18:28:23 +0000 |
commit | 82f081dd64d6d193f23716a388b9c45f90431454 (patch) | |
tree | 1288745291700d8394b95ba5f25ba0a3dca34c9e /epan/wslua/wslua_tvb.c | |
parent | 9c866ff971c1c8c94ccb699d040dda34abafb55a (diff) |
wslua*: Add editor modelines; Fix indentation, etc as needed.
Change-Id: I6df5d46f4b263104aa9cb6353cc987087cdb867e
Reviewed-on: https://code.wireshark.org/review/7102
Reviewed-by: Bill Meier <wmeier@newsguy.com>
Diffstat (limited to 'epan/wslua/wslua_tvb.c')
-rw-r--r-- | epan/wslua/wslua_tvb.c | 116 |
1 files changed, 64 insertions, 52 deletions
diff --git a/epan/wslua/wslua_tvb.c b/epan/wslua/wslua_tvb.c index 30610a4351..8c8ed4e118 100644 --- a/epan/wslua/wslua_tvb.c +++ b/epan/wslua/wslua_tvb.c @@ -91,7 +91,7 @@ static int ByteArray__gc(lua_State* L) { } WSLUA_METAMETHOD ByteArray__concat(lua_State* L) { - /* Concatenate two `ByteArrays`. */ + /* Concatenate two `ByteArrays`. */ #define WSLUA_ARG_ByteArray__cat_FIRST 1 /* First array. */ #define WSLUA_ARG_ByteArray__cat_SECOND 2 /* Second array. */ @@ -129,7 +129,7 @@ WSLUA_METAMETHOD ByteArray__eq(lua_State* L) { } WSLUA_METHOD ByteArray_prepend(lua_State* L) { - /* Prepend a `ByteArray` to this `ByteArray`. */ + /* Prepend a `ByteArray` to this `ByteArray`. */ #define WSLUA_ARG_ByteArray_prepend_PREPENDED 2 /* `ByteArray` to be prepended. */ ByteArray ba = checkByteArray(L,1); ByteArray ba2 = checkByteArray(L,WSLUA_ARG_ByteArray_prepend_PREPENDED); @@ -140,7 +140,7 @@ WSLUA_METHOD ByteArray_prepend(lua_State* L) { } WSLUA_METHOD ByteArray_append(lua_State* L) { - /* Append a `ByteArray` to this `ByteArray`. */ + /* Append a `ByteArray` to this `ByteArray`. */ #define WSLUA_ARG_ByteArray_append_APPENDED 2 /* `ByteArray` to be appended. */ ByteArray ba = checkByteArray(L,1); ByteArray ba2 = checkByteArray(L,WSLUA_ARG_ByteArray_append_APPENDED); @@ -151,7 +151,7 @@ WSLUA_METHOD ByteArray_append(lua_State* L) { } WSLUA_METHOD ByteArray_set_size(lua_State* L) { - /* Sets the size of a `ByteArray`, either truncating it or filling it with zeros. */ + /* Sets the size of a `ByteArray`, either truncating it or filling it with zeros. */ #define WSLUA_ARG_ByteArray_set_size_SIZE 2 /* New size of the array. */ ByteArray ba = checkByteArray(L,1); @@ -174,7 +174,7 @@ WSLUA_METHOD ByteArray_set_size(lua_State* L) { } WSLUA_METHOD ByteArray_set_index(lua_State* L) { - /* Sets the value of an index of a `ByteArray`. */ + /* Sets the value of an index of a `ByteArray`. */ #define WSLUA_ARG_ByteArray_set_index_INDEX 2 /* The position of the byte to be set. */ #define WSLUA_ARG_ByteArray_set_index_VALUE 3 /* The char value to set [0-255]. */ ByteArray ba = checkByteArray(L,1); @@ -203,7 +203,7 @@ WSLUA_METHOD ByteArray_set_index(lua_State* L) { WSLUA_METHOD ByteArray_get_index(lua_State* L) { - /* Get the value of a byte in a `ByteArray`. */ + /* Get the value of a byte in a `ByteArray`. */ #define WSLUA_ARG_ByteArray_get_index_INDEX 2 /* The position of the byte to get. */ ByteArray ba = checkByteArray(L,1); int idx = (int)luaL_checkinteger(L,WSLUA_ARG_ByteArray_get_index_INDEX); @@ -223,7 +223,7 @@ WSLUA_METHOD ByteArray_get_index(lua_State* L) { } WSLUA_METHOD ByteArray_len(lua_State* L) { - /* Obtain the length of a `ByteArray`. */ + /* Obtain the length of a `ByteArray`. */ ByteArray ba = checkByteArray(L,1); lua_pushnumber(L,(lua_Number)ba->len); @@ -232,7 +232,7 @@ WSLUA_METHOD ByteArray_len(lua_State* L) { } WSLUA_METHOD ByteArray_subset(lua_State* L) { - /* Obtain a segment of a `ByteArray`, as a new `ByteArray`. */ + /* Obtain a segment of a `ByteArray`, as a new `ByteArray`. */ #define WSLUA_ARG_ByteArray_set_index_OFFSET 2 /* The position of the first byte (0=first). */ #define WSLUA_ARG_ByteArray_set_index_LENGTH 3 /* The length of the segment. */ ByteArray ba = checkByteArray(L,1); @@ -254,7 +254,7 @@ WSLUA_METHOD ByteArray_subset(lua_State* L) { } WSLUA_METHOD ByteArray_base64_decode(lua_State* L) { - /* Obtain a base64 decoded `ByteArray`. + /* Obtain a base64 decoded `ByteArray`. @since 1.11.3 */ @@ -324,7 +324,7 @@ WSLUA_METHOD ByteArray_tohex(lua_State* L) { } WSLUA_METAMETHOD ByteArray__tostring(lua_State* L) { - /* Obtain a Lua string containing the bytes in a `ByteArray` so that it can be used in + /* Obtain a Lua string containing the bytes in a `ByteArray` so that it can be used in display filters (e.g. "01FE456789AB"). */ ByteArray ba = checkByteArray(L,1); @@ -461,7 +461,7 @@ Tvb* push_Tvb(lua_State* L, tvbuff_t* ws_tvb) { * ByteArray_tvb(name) */ WSLUA_CONSTRUCTOR ByteArray_tvb (lua_State *L) { - /* Creates a new `Tvb` from a `ByteArray` (it gets added to the current frame too). */ + /* Creates a new `Tvb` from a `ByteArray` (it gets added to the current frame too). */ #define WSLUA_ARG_ByteArray_tvb_NAME 2 /* The name to be given to the new data-source. */ ByteArray ba = checkByteArray(L,1); const gchar* name = luaL_optstring(L,WSLUA_ARG_ByteArray_tvb_NAME,"Unnamed") ; @@ -487,7 +487,7 @@ WSLUA_CONSTRUCTOR ByteArray_tvb (lua_State *L) { } WSLUA_CONSTRUCTOR TvbRange_tvb (lua_State *L) { - /* Creates a (sub)`Tvb` from a `TvbRange`. */ + /* Creates a (sub)`Tvb` from a `TvbRange`. */ #define WSLUA_ARG_Tvb_new_subset_RANGE 1 /* The `TvbRange` from which to create the new `Tvb`. */ TvbRange tvbr = checkTvbRange(L,WSLUA_ARG_Tvb_new_subset_RANGE); @@ -513,7 +513,7 @@ WSLUA_CONSTRUCTOR TvbRange_tvb (lua_State *L) { } WSLUA_METAMETHOD Tvb__tostring(lua_State* L) { - /* Convert the bytes of a `Tvb` into a string, to be used for debugging purposes, as '...' + /* Convert the bytes of a `Tvb` into a string, to be used for debugging purposes, as '...' will be appended if the string is too long. */ Tvb tvb = checkTvb(L,1); int len = tvb_captured_length(tvb->ws_tvb); @@ -537,7 +537,7 @@ static int Tvb__gc(lua_State* L) { } WSLUA_METHOD Tvb_reported_len(lua_State* L) { - /* Obtain the reported (not captured) length of a `Tvb`. */ + /* Obtain the reported (not captured) length of a `Tvb`. */ Tvb tvb = checkTvb(L,1); lua_pushnumber(L,tvb_reported_length(tvb->ws_tvb)); @@ -545,7 +545,7 @@ WSLUA_METHOD Tvb_reported_len(lua_State* L) { } WSLUA_METHOD Tvb_len(lua_State* L) { - /* Obtain the actual (captured) length of a `Tvb`. */ + /* Obtain the actual (captured) length of a `Tvb`. */ Tvb tvb = checkTvb(L,1); lua_pushnumber(L,tvb_captured_length(tvb->ws_tvb)); @@ -553,7 +553,7 @@ WSLUA_METHOD Tvb_len(lua_State* L) { } WSLUA_METHOD Tvb_reported_length_remaining(lua_State* L) { - /* Obtain the reported (not captured) length of packet data to end of a `Tvb` or -1 if the + /* Obtain the reported (not captured) length of packet data to end of a `Tvb` or -1 if the offset is beyond the end of the `Tvb`. */ #define Tvb_reported_length_remaining_OFFSET 2 /* offset */ Tvb tvb = checkTvb(L,1); @@ -564,7 +564,7 @@ WSLUA_METHOD Tvb_reported_length_remaining(lua_State* L) { } WSLUA_METHOD Tvb_offset(lua_State* L) { - /* Returns the raw offset (from the beginning of the source `Tvb`) of a sub `Tvb`. */ + /* Returns the raw offset (from the beginning of the source `Tvb`) of a sub `Tvb`. */ Tvb tvb = checkTvb(L,1); lua_pushnumber(L,tvb_raw_offset(tvb->ws_tvb)); @@ -574,8 +574,8 @@ WSLUA_METHOD Tvb_offset(lua_State* L) { #if USED_FOR_DOC_PURPOSES WSLUA_METAMETHOD Tvb__call(lua_State* L) { - /* Equivalent to tvb:range(...) */ - return 0; + /* Equivalent to tvb:range(...) */ + return 0; } #endif @@ -621,7 +621,7 @@ gboolean push_TvbRange(lua_State* L, tvbuff_t* ws_tvb, int offset, int len) { WSLUA_METHOD Tvb_range(lua_State* L) { - /* Creates a `TvbRange` from this `Tvb`. */ + /* Creates a `TvbRange` from this `Tvb`. */ #define WSLUA_OPTARG_Tvb_range_OFFSET 2 /* The offset (in octets) from the beginning of the `Tvb`. Defaults to 0. */ #define WSLUA_OPTARG_Tvb_range_LENGTH 3 /* The length (in octets) of the range. Defaults to until the end of the `Tvb`. */ @@ -700,7 +700,7 @@ int Tvb_register(lua_State* L) { * get a Blefuscuoan unsigned integer from a tvb */ WSLUA_METHOD TvbRange_uint(lua_State* L) { - /* Get a Big Endian (network order) unsigned integer from a `TvbRange`. + /* Get a Big Endian (network order) unsigned integer from a `TvbRange`. The range must be 1, 2, 3 or 4 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -739,7 +739,7 @@ WSLUA_METHOD TvbRange_uint(lua_State* L) { * get a Lilliputian unsigned integer from a tvb */ WSLUA_METHOD TvbRange_le_uint(lua_State* L) { - /* Get a Little Endian unsigned integer from a `TvbRange`. + /* Get a Little Endian unsigned integer from a `TvbRange`. The range must be 1, 2, 3 or 4 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -772,7 +772,7 @@ WSLUA_METHOD TvbRange_le_uint(lua_State* L) { * get a Blefuscuoan unsigned 64 bit integer from a tvb */ WSLUA_METHOD TvbRange_uint64(lua_State* L) { - /* Get a Big Endian (network order) unsigned 64 bit integer from a `TvbRange`, as a `UInt64` object. + /* Get a Big Endian (network order) unsigned 64 bit integer from a `TvbRange`, as a `UInt64` object. The range must be 1-8 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -803,7 +803,7 @@ WSLUA_METHOD TvbRange_uint64(lua_State* L) { * get a Lilliputian unsigned 64 bit integer from a tvb */ WSLUA_METHOD TvbRange_le_uint64(lua_State* L) { - /* Get a Little Endian unsigned 64 bit integer from a `TvbRange`, as a `UInt64` object. + /* Get a Little Endian unsigned 64 bit integer from a `TvbRange`, as a `UInt64` object. The range must be 1-8 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -834,7 +834,7 @@ WSLUA_METHOD TvbRange_le_uint64(lua_State* L) { * get a Blefuscuoan signed integer from a tvb */ WSLUA_METHOD TvbRange_int(lua_State* L) { - /* Get a Big Endian (network order) signed integer from a `TvbRange`. + /* Get a Big Endian (network order) signed integer from a `TvbRange`. The range must be 1, 2 or 4 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -870,7 +870,7 @@ WSLUA_METHOD TvbRange_int(lua_State* L) { * get a Lilliputian signed integer from a tvb */ WSLUA_METHOD TvbRange_le_int(lua_State* L) { - /* Get a Little Endian signed integer from a `TvbRange`. + /* Get a Little Endian signed integer from a `TvbRange`. The range must be 1, 2 or 4 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -899,7 +899,7 @@ WSLUA_METHOD TvbRange_le_int(lua_State* L) { * get a Blefuscuoan signed 64 bit integer from a tvb */ WSLUA_METHOD TvbRange_int64(lua_State* L) { - /* Get a Big Endian (network order) signed 64 bit integer from a `TvbRange`, as an `Int64` object. + /* Get a Big Endian (network order) signed 64 bit integer from a `TvbRange`, as an `Int64` object. The range must be 1-8 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -930,7 +930,7 @@ WSLUA_METHOD TvbRange_int64(lua_State* L) { * get a Lilliputian signed 64 bit integer from a tvb */ WSLUA_METHOD TvbRange_le_int64(lua_State* L) { - /* Get a Little Endian signed 64 bit integer from a `TvbRange`, as an `Int64` object. + /* Get a Little Endian signed 64 bit integer from a `TvbRange`, as an `Int64` object. The range must be 1-8 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -961,7 +961,7 @@ WSLUA_METHOD TvbRange_le_int64(lua_State* L) { * get a Blefuscuoan float */ WSLUA_METHOD TvbRange_float(lua_State* L) { - /* Get a Big Endian (network order) floating point number from a `TvbRange`. + /* Get a Big Endian (network order) floating point number from a `TvbRange`. The range must be 4 or 8 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -987,7 +987,7 @@ WSLUA_METHOD TvbRange_float(lua_State* L) { * get a Lilliputian float */ WSLUA_METHOD TvbRange_le_float(lua_State* L) { - /* Get a Little Endian floating point number from a `TvbRange`. + /* Get a Little Endian floating point number from a `TvbRange`. The range must be 4 or 8 octets long. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -1006,7 +1006,7 @@ WSLUA_METHOD TvbRange_le_float(lua_State* L) { } WSLUA_METHOD TvbRange_ipv4(lua_State* L) { - /* Get an IPv4 Address from a `TvbRange`, as an `Address` object. */ + /* Get an IPv4 Address from a `TvbRange`, as an `Address` object. */ TvbRange tvbr = checkTvbRange(L,1); Address addr; guint32* ip_addr; @@ -1034,7 +1034,7 @@ WSLUA_METHOD TvbRange_ipv4(lua_State* L) { } WSLUA_METHOD TvbRange_le_ipv4(lua_State* L) { - /* Get an Little Endian IPv4 Address from a `TvbRange`, as an `Address` object. */ + /* Get an Little Endian IPv4 Address from a `TvbRange`, as an `Address` object. */ TvbRange tvbr = checkTvbRange(L,1); Address addr; guint32* ip_addr; @@ -1063,7 +1063,7 @@ WSLUA_METHOD TvbRange_le_ipv4(lua_State* L) { } WSLUA_METHOD TvbRange_ether(lua_State* L) { - /* Get an Ethernet Address from a `TvbRange`, as an `Address` object. */ + /* Get an Ethernet Address from a `TvbRange`, as an `Address` object. */ TvbRange tvbr = checkTvbRange(L,1); Address addr; guint8* buff; @@ -1090,7 +1090,7 @@ WSLUA_METHOD TvbRange_ether(lua_State* L) { } WSLUA_METHOD TvbRange_nstime(lua_State* L) { - /* Obtain a time_t structure from a `TvbRange`, as an `NSTime` object. */ + /* Obtain a time_t structure from a `TvbRange`, as an `NSTime` object. */ #define WSLUA_OPTARG_TvbRange_nstime_ENCODING 2 /* An optional ENC_* encoding value to use */ TvbRange tvbr = checkTvbRange(L,1); NSTime nstime; @@ -1142,7 +1142,7 @@ WSLUA_METHOD TvbRange_nstime(lua_State* L) { } WSLUA_METHOD TvbRange_le_nstime(lua_State* L) { - /* Obtain a nstime from a `TvbRange`, as an `NSTime` object. */ + /* Obtain a nstime from a `TvbRange`, as an `NSTime` object. */ TvbRange tvbr = checkTvbRange(L,1); NSTime nstime; @@ -1172,7 +1172,7 @@ WSLUA_METHOD TvbRange_le_nstime(lua_State* L) { } WSLUA_METHOD TvbRange_string(lua_State* L) { - /* Obtain a string from a `TvbRange`. */ + /* Obtain a string from a `TvbRange`. */ #define WSLUA_OPTARG_TvbRange_string_ENCODING 2 /* The encoding to use. Defaults to ENC_ASCII. */ TvbRange tvbr = checkTvbRange(L,1); guint encoding = (guint)luaL_optinteger(L,WSLUA_OPTARG_TvbRange_string_ENCODING, ENC_ASCII|ENC_NA); @@ -1189,7 +1189,7 @@ WSLUA_METHOD TvbRange_string(lua_State* L) { } static int TvbRange_ustring_any(lua_State* L, gboolean little_endian) { - /* Obtain a UTF-16 encoded string from a `TvbRange`. */ + /* Obtain a UTF-16 encoded string from a `TvbRange`. */ TvbRange tvbr = checkTvbRange(L,1); gchar * str; @@ -1206,17 +1206,17 @@ static int TvbRange_ustring_any(lua_State* L, gboolean little_endian) { } WSLUA_METHOD TvbRange_ustring(lua_State* L) { - /* Obtain a Big Endian (network order) UTF-16 encoded string from a `TvbRange`. */ + /* Obtain a Big Endian (network order) UTF-16 encoded string from a `TvbRange`. */ WSLUA_RETURN(TvbRange_ustring_any(L, FALSE)); /* The string. */ } WSLUA_METHOD TvbRange_le_ustring(lua_State* L) { - /* Obtain a Little Endian UTF-16 encoded string from a `TvbRange`. */ + /* Obtain a Little Endian UTF-16 encoded string from a `TvbRange`. */ WSLUA_RETURN(TvbRange_ustring_any(L, TRUE)); /* The string. */ } WSLUA_METHOD TvbRange_stringz(lua_State* L) { - /* Obtain a zero terminated string from a `TvbRange`. */ + /* Obtain a zero terminated string from a `TvbRange`. */ #define WSLUA_OPTARG_TvbRange_stringz_ENCODING 2 /* The encoding to use. Defaults to ENC_ASCII. */ TvbRange tvbr = checkTvbRange(L,1); guint encoding = (guint)luaL_optinteger(L,WSLUA_OPTARG_TvbRange_stringz_ENCODING, ENC_ASCII|ENC_NA); @@ -1307,7 +1307,7 @@ WSLUA_METHOD TvbRange_strsize(lua_State* L) { static int TvbRange_ustringz_any(lua_State* L, gboolean little_endian) { - /* Obtain a zero terminated string from a TvbRange */ + /* Obtain a zero terminated string from a TvbRange */ gint count; TvbRange tvbr = checkTvbRange(L,1); gint offset; @@ -1338,17 +1338,17 @@ static int TvbRange_ustringz_any(lua_State* L, gboolean little_endian) { } WSLUA_METHOD TvbRange_ustringz(lua_State* L) { - /* Obtain a Big Endian (network order) UTF-16 encoded zero terminated string from a `TvbRange`. */ + /* Obtain a Big Endian (network order) UTF-16 encoded zero terminated string from a `TvbRange`. */ WSLUA_RETURN(TvbRange_ustringz_any(L, FALSE)); /* Two return values: the zero terminated string, and the length. */ } WSLUA_METHOD TvbRange_le_ustringz(lua_State* L) { - /* Obtain a Little Endian UTF-16 encoded zero terminated string from a TvbRange */ + /* Obtain a Little Endian UTF-16 encoded zero terminated string from a TvbRange */ WSLUA_RETURN(TvbRange_ustringz_any(L, TRUE)); /* Two return values: the zero terminated string, and the length. */ } WSLUA_METHOD TvbRange_bytes(lua_State* L) { - /* Obtain a `ByteArray` from a `TvbRange`. + /* Obtain a `ByteArray` from a `TvbRange`. Starting in 1.11.4, this function also takes an optional `encoding` argument, which can be set to `ENC_STR_HEX` to decode a hex-string from the `TvbRange` @@ -1404,7 +1404,7 @@ WSLUA_METHOD TvbRange_bytes(lua_State* L) { } WSLUA_METHOD TvbRange_bitfield(lua_State* L) { - /* Get a bitfield from a `TvbRange`. */ + /* Get a bitfield from a `TvbRange`. */ #define WSLUA_OPTARG_TvbRange_bitfield_POSITION 2 /* The bit offset from the beginning of the `TvbRange`. Defaults to 0. */ #define WSLUA_OPTARG_TvbRange_bitfield_LENGTH 3 /* The length (in bits) of the field. Defaults to 1. */ @@ -1442,7 +1442,7 @@ WSLUA_METHOD TvbRange_bitfield(lua_State* L) { } WSLUA_METHOD TvbRange_range(lua_State* L) { - /* Creates a sub-`TvbRange` from this `TvbRange`. */ + /* Creates a sub-`TvbRange` from this `TvbRange`. */ #define WSLUA_OPTARG_TvbRange_range_OFFSET 2 /* The offset (in octets) from the beginning of the `TvbRange`. Defaults to 0. */ #define WSLUA_OPTARG_TvbRange_range_LENGTH 3 /* The length (in octets) of the range. Defaults to until the end of the `TvbRange`. */ @@ -1472,7 +1472,7 @@ WSLUA_METHOD TvbRange_range(lua_State* L) { } WSLUA_METHOD TvbRange_uncompress(lua_State* L) { - /* Obtain an uncompressed TvbRange from a TvbRange */ + /* Obtain an uncompressed TvbRange from a TvbRange */ #define WSLUA_ARG_TvbRange_uncompress_NAME 2 /* The name to be given to the new data-source. */ TvbRange tvbr = checkTvbRange(L,1); #ifdef HAVE_LIBZ @@ -1513,7 +1513,7 @@ static int TvbRange__gc(lua_State* L) { } WSLUA_METHOD TvbRange_len(lua_State* L) { - /* Obtain the length of a `TvbRange`. */ + /* Obtain the length of a `TvbRange`. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -1526,7 +1526,7 @@ WSLUA_METHOD TvbRange_len(lua_State* L) { } WSLUA_METHOD TvbRange_offset(lua_State* L) { - /* Obtain the offset in a `TvbRange`. */ + /* Obtain the offset in a `TvbRange`. */ TvbRange tvbr = checkTvbRange(L,1); if (!(tvbr && tvbr->tvb)) return 0; @@ -1578,9 +1578,9 @@ WSLUA_METHOD TvbRange_raw(lua_State* L) { WSLUA_METAMETHOD TvbRange__tostring(lua_State* L) { - /* Converts the `TvbRange` into a string. Since the string gets truncated, - you should use this only for debugging purposes - or if what you want is to have a truncated string in the format 67:89:AB:... */ + /* Converts the `TvbRange` into a string. Since the string gets truncated, + you should use this only for debugging purposes + or if what you want is to have a truncated string in the format 67:89:AB:... */ TvbRange tvbr = checkTvbRange(L,1); char* str = NULL; @@ -1646,3 +1646,15 @@ int TvbRange_register(lua_State* L) { return 0; } +/* + * Editor modelines - http://www.wireshark.org/tools/modelines.html + * + * Local variables: + * c-basic-offset: 4 + * tab-width: 8 + * indent-tabs-mode: nil + * End: + * + * vi: set shiftwidth=4 tabstop=8 expandtab: + * :indentSize=4:tabSize=8:noTabs=true: + */ |