both be omitted.
Another information we take from the RFC is, that the \a Protocol \a Type is used to define the
- type of payload which directly follows the GRE header. This value is the <a
+ type of payload which directly follows the GRE header. This value is an <a
href="http://www.iana.org/assignments/ethernet-numbers">ETHERTYPE</a> value. To allow the packet
library to automatically parse the GRE payload data, we need to tell the packet library which
ETHERTYPE represents which packet type. This association already exists in form of the
\li The GRE packet header is a dynamically sized header.
\li The GRE packet header utilizes the senf::EtherTypes registry for next-header selection
- \section howto_newpacket_impl Implementing the GRE Parser
+ \section howto_newpacket_parser Implementing the GRE Parser
The next step in creating a new packet type is to implement the parser. The parser is
responsible for turning a bunch of bytes into an interpreted header with specific fields. The
SENF_PARSER_BITFIELD ( protocolType, 16, unsigned );
\endcode
- This is a direct transcript of the field definition above. However, we can optimize this a
- little bit: Since the \a protocolType field is aligned on a byte boundary, instead of defining
- it as a bitfield, we can define it as a UInt16 field:
+ This is a direct transcript of the field definition above. There are quite a number of macros
+ which may be used to define fields. All these macros are documented in '\ref
+ packetparsermacros'.
+
+ This is a correct \c GREPacket header definition but we can optimize a little bit: Since the \a
+ protocolType field is aligned on a byte boundary, instead of defining it as a bitfield, we can
+ define it as a UInt16 field:
\code
SENF_PARSER_BITFIELD ( checksumPresent, 1, bool );
SENF_PARSER_FIELD ( protocolType, senf::UInt16Parser );
\endcode
- There are quite a number of such \c SENF_PARSER_ macros. They are all listed in \ref
- packetparsermacros. The basic field types (like senf::UInt16Parser) are listed in \ref parseint.
-
- What happens in the above macros? Most of the macros define an accessor for a specific field: \a
- checksumPresent() or \a protocolType(). They also manage a <em>current Offset</em>. This value
- is advanced according to the field size whenever a new field is defined (and since this parser
- is defined as a dynamically sized parser, this offset is not a constant, it is an expression
- which calculates the offset of a field depending on the preceding data).
+ Whereas \ref SENF_PARSER_BITFIELD can define only bit-fields, \ref SENF_PARSER_FIELD can define
+ almost arbitrary field types. The type is specified by passing the name of another parser to
+ \ref SENF_PARSER_FIELD.
It is important to understand, that the accessors do \e not return the parsed field value. They
return another \e parser which is used to further interpret the value. This is the inherent
recursive nature of the SENF packet parsers. This allows to define wildly complex header formats
if needed. Of course, at some point we need the real value. This is, what the so called
<em>value parsers</em> do: They interpret some bytes or bits and return the value of that field
- (not a parser). Examples are the bitfield parsers returnd by the accessors generated by
+ (not a parser). Examples are the bitfield parsers returned by the accessors generated by
SENF_PARSER_BITFIELD (like senf::UIntFieldParser) or the senf::UInt16Parser.
+ What happens in the above macros? Most of the macros define an accessor for a specific field: \a
+ checksumPresent() or \a protocolType(). They also manage a <em>current Offset</em>. This value
+ is advanced according to the field size whenever a new field is defined (and since this parser
+ is defined as a dynamically sized parser, this offset is not a constant, it is an expression
+ which calculates the offset of a field depending on the preceding data).
+
We now come to the optional fields. Since there are two fields which need to be disabled/enabled
- together, we first need to define an additional sub-parser which parses those two fields. After
- this parser is defined, we can use \ref SENF_PARSER_VARIANT() to add this parser as an optional
- parser to the GRE header.
+ together, we first need to define an additional sub-parser which combines those two
+ fields. After this parser is defined, we can use \ref SENF_PARSER_VARIANT() to add this parser
+ as an optional parser to the GRE header.
\code
struct GREParser_OptFields : public senf::PacketParser
(GREParser_OptFields) );
\endcode
- How does this work? For a variant parser, two things need to be specified: A selector and a list
- of variant parsers. The selector is another parser field which is used to decide, which variant
- to choose. In this simple case, the field must be an unsigned integer (more precisely a value
+ For a variant parser, two things need to be specified: A selector and a list of variant
+ parsers. The selector is another parser field which is used to decide, which variant to
+ choose. In this simple case, the field must be an unsigned integer (more precisely a value
parser which returns a value which is implicitly convertible to \c unsigned). This value is used
as index into the list of variant types. So in our case, 0 is associated with
- senf::VoidPacketParser whereas 1 is associated with \c GREParser_OptFields.
+ senf::VoidPacketParser whereas 1 is associated with \c
+ GREParser_OptFields. (senf::VoidPacketParser is a special empty parser which is used in a
+ Variant to denote cases in which the variant parser should not parse anything)
This parser will work, it is however not very safe and not very usable. If \a p is a GREParser
instance, than we access the fields via:
\code
- p.checksumPresent()
- p.version()
- p.protocolType()
- p.optionalFields().get<1>().checksum()
+ p.checksumPresent() = true;
+ p.version() = 4u;
+ p.protocolType() = 0x86dd;
+ p.optionalFields().get<1>().checksum() = 12345u;
\endcode
There are two problems here:
- \li accessing the checksum field is not straight forward
+ \li accessing the checksum field is quite unwieldy
\li changing the checksumPresent() value will break the parser
The reason for the second problem lies in the fact, that the variant parser needs to be informed
whenever the selector (here \a checksumPresent) is changed since the variant parser must ensure,
that the header data stays consistent. In this example, whenever the checksumPresent field is
enabled, the variant parser needs to insert additional 4 bytes of data and remove those bytes,
- when the checksumPresent field is disabled. We therefore make the checksumPresent field
- read-only:
+ when the checksumPresent field is disabled.
+
+ To fix this, we make the checksumPresent field read-only:
\code
SENF_PARSER_BITFIELD_RO ( checksumPresent, 1, bool );
The first statements switches to the first variant and therefore in this case disables the
checksum field. The second statement will switch to the second variant and enable the checksum
- field. This again is not very usable. So we complete the parser by providing simple additional
- members which access the fields in a more readable way. While doing this, we also mark the
- variant as a private field so it is not directly accessible any more. Here the final \c
- GREParser
+ field.
+
+ This again is not very usable. So we complete the parser by providing simple additional members
+ which wrap these complicated calls. While doing this, we also mark the variant as a private
+ field so it is not directly accessible any more (since we now have the additional helpers which
+ are used to access the variant, we don't want anyone to mess around with it directly). Here the
+ final \c GREParser
\code
struct GREParser_OptFields : public senf::PacketParser
{
# include SENF_FIXED_PARSER()
- SENF_PARSER_FIELD ( checksum, senf::UInt16Parser );
- SENF_PARSER_SKIP ( 2 );
+ SENF_PARSER_FIELD ( checksum, senf::UInt16Parser );
+ SENF_PARSER_SKIP ( 2 );
SENF_PARSER_FINALIZE(GREParser_OptFields);
};
SENF_PARSER_FINALIZE(GREParser);
};
\endcode
+
+ Above code has one other twist we need to discuss: the \a checksum_t typedef. This is added as a
+ convenience to the user of this parser. The \c SENF_PARSER_* macros which define a field all
+ define some additional symbols providing further information about the field. Of these
+ additional symbols, the most important is <em>field</em><code>_t</code>, which is the (parser)
+ type returned by the field. This helps to work with a parser in more complex situations
+ (e.g. when using collection parsers) since it allows to access the parser type without exact
+ knowledge of this type (which may become quite complex if templates are involved) as long as the
+ field name is known. Since we provide an accessor for the \a checksum field, we also provide the
+ \a checksum_t typedef for this accessor.
+
+ The \c GREParser is now simple and safe to use. The only responsibility of the user now is to
+ only access \a checksum() if the \a checksumPresent() field is set. Otherwise, the behavior is
+ undefined (in debug builds, the parser will terminate the application with an assert).
*/
\f
\r
<xsl:param name="topdir" select="''"/>\r
\r
- <xsl:template match="*">\r
+ <xsl:template match="*" name="copy">\r
<xsl:copy>\r
<xsl:call-template name="copy-attributes"/>\r
<xsl:apply-templates/>\r
</xsl:for-each>\r
</xsl:template>\r
\r
- <!-- Remove the automatically inserted search form (we build our own) -->\r
- <xsl:template match="li[form]"> \r
- </xsl:template>\r
- \r
- <!-- Replace @TOPDIR@ with relative top directory path -->\r
+ <!-- Replace @TOPDIR@ with relative top directory path -->\r
+\r
<xsl:template match="@*[contains(current(),'@TOPDIR@')]">\r
- <xsl:value-of select="substring-before(current(),'@TOPDIR')"/>\r
+ <xsl:value-of select="substring-before(current(),'@TOPDIR@')"/>\r
<xsl:value-of select="$topdir"/>\r
- <xsl:value-of select="substring-after(current(),'@TOPDIR')"/>\r
+ <xsl:value-of select="substring-after(current(),'@TOPDIR@')"/>\r
</xsl:template>\r
\r
<!-- Add 'class' attribute to some special paragraphs/lists -->\r
</xsl:copy>\r
</xsl:template>\r
\r
+ <!-- Add '<br/>' tag after every ', ' -->\r
+ <!-- This code is not very robust, it works with the doxygen output though -->\r
+\r
+ <xsl:template name="break-comma">\r
+ <xsl:copy>\r
+ <xsl:call-template name="copy-attributes"/>\r
+ <xsl:attribute name="class">commalist</xsl:attribute>\r
+ <xsl:apply-templates mode="break-comma"/>\r
+ </xsl:copy>\r
+ </xsl:template>\r
+ \r
+ <xsl:template match="text()[1]" mode="break-comma">\r
+ <xsl:value-of select="current()"/><br/>\r
+ </xsl:template>\r
+\r
+ <xsl:template match="*" mode="break-comma">\r
+ <xsl:call-template name="copy"/>\r
+ </xsl:template>\r
+\r
+ <xsl:template match="text()[contains(current(),' and') or contains(current(),'and ')]" mode="break-comma" priority="1">\r
+ <xsl:value-of select="substring-before(current(),'and')"/>\r
+ <br/>\r
+ <xsl:value-of select="substring-after(current(),'and')"/>\r
+ </xsl:template>\r
+\r
+ <xsl:template match="text()[contains(current(),',')]" mode="break-comma">\r
+ <xsl:value-of select="substring-before(current(),',')"/>\r
+ <xsl:text>,</xsl:text><br/>\r
+ <xsl:value-of select="substring-after(current(),',')"/>\r
+ </xsl:template>\r
+\r
+ <!-- ====================================================================== -->\r
+\r
+ <!-- Remove the automatically inserted search form (we build our own) -->\r
+ <xsl:template match="li[form]"> \r
+ </xsl:template>\r
+ \r
<xsl:template match="dl[dt/b/a/text()='Bug:']">\r
<xsl:call-template name="add-class">\r
<xsl:with-param name="class">xref-bug</xsl:with-param>\r
</xsl:call-template>\r
</xsl:template>\r
\r
+ <xsl:template match="p[starts-with(text(),'Inherited by ')]">\r
+ <xsl:call-template name="break-comma"/>\r
+ </xsl:template>\r
+\r
+ <xsl:template match="p[starts-with(text(),'Inherits ')]">\r
+ <xsl:call-template name="break-comma"/>\r
+ </xsl:template>\r
+\r
<!-- Remove external items from the namespace index -->\r
<xsl:template match="div[@id='content2']/table[contains(preceding-sibling::h1/text(),'Namespace Reference')]/tr[td[@class='memItemRight']/a[1][@class='elRef'][@doxygen]]">\r
</xsl:template>\r
projects / senf.git / commitdiff