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author | Jari Vetoniemi <mailroxas@gmail.com> | 2017-12-07 22:01:03 +0200 |
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committer | Jari Vetoniemi <mailroxas@gmail.com> | 2017-12-07 22:25:41 +0200 |
commit | 72f823675f6d260f18dd1172e970e22c31d7e103 (patch) | |
tree | 3ea6da03151a584cdfe6ab4df2511334a5082a39 | |
parent | 0ec51164dbbf1d999bf31ca18990df5980fcaa9b (diff) |
doc: Add work-in-progress asciidoc
-rw-r--r-- | doc/fspec-guide.adoc | 275 |
1 files changed, 275 insertions, 0 deletions
diff --git a/doc/fspec-guide.adoc b/doc/fspec-guide.adoc new file mode 100644 index 0000000..576c734 --- /dev/null +++ b/doc/fspec-guide.adoc @@ -0,0 +1,275 @@ += Filespec Structured Data Modelling Language User Guide +Jari Vetoniemi <mailroxas@gmail.com> +Filespec Version 0.1 +:toc: +:toclevels: 3 +:numbered: + +.License + + Permission is hereby granted, free of charge, to any person obtaining a copy + of this software and associated documentation files (the "Software"), to + deal in the Software without restriction, including without limitation the + rights to use, copy, modify, merge, publish, distribute, sublicense, and/or + sell copies of the Software, and to permit persons to whom the Software is + furnished to do so, subject to the following conditions: + + The above copyright notice and this permission notice shall be included in all + copies or substantial portions of the Software. + + THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, + OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE + SOFTWARE. + +== Introduction + +=== Abstract + +Writeup about how writing and reading structured data is mostly done manually. + +=== Motivation + +Writeup how boring it is to write similar code each time when trying to read or +write structured data. How easy it is to make mistakes or cause unportable and +unoptimized code. Write how filespec can help with reverse engineering and +figuring out data structures, how it can be used to generate both packers and +unpackers giving you powerful tools for working with structured data. + +=== Overview + +Goal of Filespec is to document the structured data and relationships within, +so the data can be understood and accessed completely. + +=== Related Work + +==== Kaitai + +Kaitai is probably not very well known utility, that has similar goal to +filespec. + +Explain cons: + +- Depends on runtime +- Can only model data which runtime supports (only certain + compression/decompression available for example, while in filespec + filters can express anything) +- Mainly designed for generated code, not general utility +- Uses YAML for modelling structured data which is quite wordy and akward + +///////////////////////////////// +How Filespec is different from Kaitai. + +Explain the uses cases that would be difficult or impossible on Kaitai. +///////////////////////////////// + +////////////////////// +=== Development Status +////////////////////// + +== Modelling Structured Data + +=== Filespec Specifications + +Brief of Filespec specifications and syntax + +.Modelling ELF header +---- +include::../spec/elf.fspec[] +---- + +=== Keywords + +|============================================================================= +| struct _name_ { ... } | Declares structured data +| enum _name_ { ... } | Declares enumeration +| union _name_ (_var_) { ... } | Declares union, can be used to model variants +|============================================================================= + +.Struct member declaration syntax +Parenthesis indicate optional fields +---- +member_name: member_type (array ...) (| filter ...) (visual hint); +---- + +=== Types + +Basic types to express binary data. + +|================================================================ +| struct _name_ | Named structured data (Struct member only) +| enum _name_ | Value range is limited to the named enumeration +| u8, s8 | Unsigned, signed 8bit integer +| u16, s16 | Unsigned, signed 16bit integer +| u32, s32 | Unsigned, signed 32bit integer +| u64, s64 | Unsigned, signed 64bit integer +|================================================================ + +=== Arrays + +Valid values that can be used inside array subscript operation. + +|================================================= +| _expr_ | Uses result of expression as array size +| \'str' | Grow array until occurance of str +| $ | Grow array until end of data is reached +|================================================= + +.Reading length prefixed data +---- +num_items: u16 dec; +items: struct item[num_items]; +---- + +.Reading null terminated string +---- +cstr: u8['\0'] str; +---- + +.Reading repeating pattern +---- +pattern: struct pattern[$]; +---- + +=== Filters + +Filters can be used to sanity check and transform data into more sensible +format while still maintaining compatible data layout for both packing and +unpacking. They also act as documentation for the data, e.g. documenting +possible encoding, compression and valid data range of member. + +Filters are merely an idea, generated packer/unpacker generates call to the +filter, but leaves the implementation to you. Thus use of filters do not imply +runtime dependency, nor they force that you actually implement the filter. +For example, you do not want to run the compression filters implicitly as it +would use too much memory, and instead do it only when data is being accessed. + +It's useful for Filespec interpreter to implement common set of filters +to be able to pack/unpack wide variety of formats. When modelling new formats +consider contributing your filter to the interpeter. Filters for official +interepter are implemented as command pairs (Thus filters are merely optional +dependency in interpeter) + +|======================================================================== +| matches(_str_) | Data matches _str_ +| encoding(_str_, ...) | Data is encoded with algorithm _str_ +| compression(_str_, ...) | Data is compressed with algorithm _str_ +| encryption(_str_, _key_, ...) | Data is encrypted with algorithm _str_ +|======================================================================== + +.Validating file headers +---- +header: u8[4] | matches('\x7fELF') str; +---- + +.Decoding strings +---- +name: u8[32] | encoding('sjis') str; +---- + +.Decompressing data +---- +data_sz: u32; +data: u8[$] | compression('deflate', data_sz) hex; +---- + +=== Visual hints + +Visual hints can be used to advice tools how data should be presented to +human, as well as provide small documentation what kind of data to expect. + +|=========================================== +| nul | Do not visualize data +| dec | Visualize data as decimal +| hex | Visualize data as hexdecimal +| str | Visualize data as string +| mime/type | Associate data with media type +|=========================================== + +== Relationships + +To keep Filespec specifications 2-way, that is, structure can be both packed +and unpacked, specification has to make sure it forms the required +relationships between members. + +Compiler has enough information to deduce whether specification forms all the +needed relationships, thus it can throw warning or error when the specification +does not fill the 2-way critera. + +=== Implicit Relationships + +Implicit relationships are formed when result of member is referenced. For +example using result of member as array size, or as a filter parameter. + +.Array relationship +In packing case, even if _len_ would not be filled, we can deduce the correct +value of _len_ from the length of _str_ if it has been filled. We can also use +this information to verify that length of _str_ matches the value of _len_, if +both have been filled. +---- +len: u16; +str: u8[len] str; +---- + +.Parameter relationship +In packing case, the same rules apply as in array relationship. Implicit +relationship is formed between _decompressed_sz_ member and compression filter. +---- +decompressed_sz: u32 dec; +data: u8[$] | compression('zlib', decompressed_sz); +---- + +=== Explicit Relationships + +Sometimes we need to form explicit relationships when the structure is more +complicated. + +TODO: When we can actually model FFXI string tables correctly, it will be a +good example. + +== Implementation + +=== Compiler + +Compiler is implemented with Ragel. It parses the source and emits bytecode +in a single pass. The compiler is very simple and possible future steps such +as optimizations would be done on the bytecode level instead the source level. + +=== Validator + +Validator takes the output of compiler and checks the bytecode follows a +standard pattern, and isn't invalid. Having validator pass simplifies the +code of translators, as they can assume their input is valid and don't need to +do constant error checking. It also helps catch bugs from compiler early on. + +=== Bytecode + +The bytecode is low-level representation of Filespec specification. It's +merely a stack machine with values and operations. To be able to still +understand the low-level representation and generate high-level code, the +bytecode is guaranteed to follow predictable pattern (by validator). + +To make sure all source level attributes such as mathematical expressions +can be translated losslessly to target language, the bytecode may contain +special attributes. + +TODO: Document bytecode operations and the predictable pattern here + +=== Translators + +Translators take in the Filespec bytecode and output packer/unpacker in a +target language. Translators are probably the best place to implement domain +specific and language specific optimizations and options. + +=== Interpreters + +Interpreters can be used to run compiled bytecode and use the information to +understand and transform structured data as a external utility. For example +it could give shell ability to understand and parse binary formats. Or make +it very easy to pack and unpack files, create game translation tools, etc... + +Interpreters can also act as debugging tools, such as visualize the model on +top of hexadecimal view of data to aid modelling / reverse engineering of data. |