Skip to content
This repository has been archived by the owner on Aug 4, 2020. It is now read-only.

sw17ch/Z-ARCHIVED-legacy-cauterize

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

cauterize

A Ruby DSL for generating marshalable structured data easily compatable with statically allocated C systems. Currently, it prefers simplicity and predictability over speed.

Why?

Basically, malloc is a huge pain when you only have 16K of RAM.

Examples

There's currently a (single) example in this project. To run it, do this:

git clone git://github.com/sw17ch/cauterize.git
cd cauterize
bundle install
cd example
sh build.sh

If this completes without error, then you should find a bunch of generated code in cauterize_output. Look at the structures and enumerations defined in the example_project.h file. Also look at how the Pack_* and Unpack_* functions are organized and named.

Once you've looked at this, take a look at example_project.c. This will show you the exact mechanism used to package and unpackage different structures.

cauterize.h and cauterize.c are used as iterators over C buffers. They are used to abstract the process of packaging and unpackaging different elements.

Different Types

There are 7 fundamental classes of types in Cauterize. These types have several characteristics:

  • They can be copied with memcpy.
  • They do not attempt to cover the concept of indirection or pointers.
  • They are simple.
  • They cannot be defined recursively.

Primitives

  • 1 Byte Primitives
    • :bool - a boolean value
    • :int8 - a signed, 8 bit value
    • :uint8 - an unsigned, 8 bit value
  • 2 Byte Primitives
    • :int16 - a signed, 16 bit value
    • :uint16 - an unsigned, 16 bit value
  • 4 Byte Primitives
    • :int32 - a signed, 32 bit value
    • :uint32 - an unsigned, 32 bit value
    • :float32 - a 32 bit floating point value
  • 8 Byte Primitives
    • :int64 - a signed, 64 bit value
    • :uint64 - an unsigned, 64 bit value
    • :float64 - a 64 bit floating point value

Scalars

Scalars are any type that corresponds to a C scalar value. That is, something that can be defined with the native types (int, long, short, etc). It is highly recommended that these ONLY ever use values from stdint.h. This ensures that the sizes of these scalars will be consistent across platforms.

Scalars can be defined simply by giving them a name that corresponds to a type from stdint.h.

scalar(:uint8_t)
scalar(:uint32_t)

Enumerations

Enumerations correspond almost exactly to C enumerations. They are a list of names. When appropriate, a specific scalar value may also be specified. If no scalar is specified, enumerations will be represented in order from 0.

enumeration(:color) do |e|
  e.value :red
  e.value :blue
  e.value :green
end

enumeration(:days_of_week) do |e|
  e.value :sunday, 100
  e.value :monday, 101
  e.value :tuesday, 102
  e.value :wednesday, 103
  e.value :thursday, 104
  e.value :friday, 105
  e.value :saturday, 106
end

Fixed Arrays

Fixed arrays are arrays that only ever make sense when they are full. An example of an array with this property is a MAC Address. MAC addresses are always 6 bytes. Never more. Never less.

fixed_array(:mac_address) do |a|
 a.array_type :uint8_t # the type held by the array
 a.array_size 6 # the number of elements in the array
end

Variable Arrays

Variable Arrays are arrays that have a maximum length, but may not be entirely utilized.

# a way to represent some number of dates/times as 32-bit values
variable_array(:datetimes) do |a|
  a.size_type  :uint8_t # WILL BE DEPRECATED
  a.array_type :int32_t
  a.array_size 128
end

# a string, represented as `int_8`'s, with a maximum length of 32 bytes
variable_array(:string_32) do |a|
  a.size_type  :uint8_t # WILL BE DEPRECATED
  a.array_type :int8_t
  a.array_size 32
end

Composites

Composites are very similar to C structures. They are collections of other types. Each field has a name and may correspond to any other defined type.

composite(:person) do |c|
  c.field :name, :string_32
  c.field :age, :uint8_t
  c.field :date_of_birth, :uint32_t
end

Groups

Groups are similar to C unions with one major difference. Each group is comprised of a type tag and a union of the types the union is capable of representing. This is known as a tagged union.

The tag is used to inform the user application what type the union is currently representing. The tag is a special enumeration that is automatically defined.

group(:requests) do |g|
  c.field :add_user, :add_user_request
  c.field :get_user, :get_user_request
  c.field :delete_user, :delete_user_request
end

group(:responses) do |g|
  c.field :add_user, :add_user_response
  c.field :get_user, :get_user_response
  c.field :delete_user, :delete_user_response
end

Groups don't have to specify a data type in all of their fields.

group(:complex) do |g|
  g.field :a_number, :int32
  g.dataless :a_state # no associated data with this alternative
end

About

EXPERIMENTAL - Tools for marshaling structured data in C.

Resources

License

Stars

Watchers

Forks

Packages

No packages published