mirror of
https://github.com/moparisthebest/fernflower
synced 2024-12-17 21:32:42 -05:00
.. | ||
license_en.txt | ||
lizenz_de.txt | ||
readme.txt |
1. About the decompiler Fernflower is the first actually working analytical decompiler for Java and probably for a high-level programming language in general. Naturally it is still under development, please send your bug reports and improvement suggestions at fernflower.decompiler@gmail.com 2. License See license_en.txt 3. Running from the command line java -jar fernflower.jar [-<option>=<value>]* [<source>]+ <destination> * means 0 or more times + means 1 or more times <source>: file or directory with files to be decompiled. Directories are recursively scanned. Allowed file extensions are class, zip and jar. Sources prefixed with -e= mean "library" files that won't be decompiled, but taken into account when analysing relationships between classes or methods. Especially renaming of identifiers (s. option 'ren') can benefit from information about external classes. <destination>: destination directory <option>,<value>: command line option with the corresponding value, see 4. Examples: java -jar fernflower.jar -hes=0 -hdc=0 c:\Temp\binary\ -e=c:\Java\rt.jar c:\Temp\source\ java -jar fernflower.jar -dgs=1 c:\Temp\binary\library.jar c:\Temp\binary\Boot.class c:\Temp\source\ 4. Command line options With the exception of mpm and urc the value of 1 means the option is activated, 0 - deactivated. Default value, if any, is given between parentheses. Typically, the following options will be changed by user, if any: hes, hdc, dgs, mpm, ren, urc The rest of options can be left as they are: they are aimed at professional reverse engineers. rbr (1): hide bridge methods rsy (0): hide synthetic class members din (1): decompile inner classes dc4 (1): collapse 1.4 class references das (1): decompile assertions hes (1): hide empty super invocation hdc (1): hide empty default constructor dgs (0): decompile generic signatures occ (0): ouput copyright comment ner (1): assume return not throwing exceptions den (1): decompile enumerations rgn (1): remove getClass() invocation, when it is part of a qualified new statement lit (0): output numeric and character literals "as-is" bto (1): interpret int 1 as boolean true (workaround to a compiler bug) nns (1): allow for not set synthetic attribute (workaround to a compiler bug) uto (1): consider nameless types as java.lang.Object (workaround to a compiler architecture flaw) udv (1): reconstruct variable names from debug information, if present rer (1): remove empty exception ranges fdi (1): deinline finally structures asc (0): allow only ASCII characters in string literals. All other characters will be encoded using Unicode escapes (JLS 3.3). Default encoding is UTF8. mpm (0): maximum allowed processing time per decompiled method, in seconds. 0 means no upper limit. ren (0): rename ambiguous (resp. obfuscated) classes and class elements urc : full name of user-supplied class implementing IIdentifierRenamer. It is used to determine which class identifiers should be renamed and provides new identifier names. For more information s. section 5 inn (1): check for IntelliJ IDEA-specific @NotNull annotation and remove inserted code if found lac (0): decompile lambda expressions to anonymous classes nls (0): define new line character to be used for output. 0 - '\r\n' (Windows), 1 - '\n' (Linux) ind : indentation string (default is " " (3 spaces)) The default logging level is INFO. This value can be overwritten by setting the option 'log' as follows: log (INFO): possible values TRACE, INFO, WARN, ERROR 5. Renaming identifiers Some obfuscators give classes and their member elements short, meaningless and above all ambiguous names. Recompiling of such code leads to a great number of conflicts. Therefore it is advisable to let the decompiler rename elements in its turn, ensuring uniqueness of each identifier. Option 'ren' (i.e. -ren=1) activates renaming functionality. Default renaming strategy goes as follows: - rename an element if its name is a reserved word or is shorter than 3 characters - new names are built according to a simple pattern: (class|method|field)_<consecutive unique number> You can overwrite this rules by providing your own implementation of the 4 key methods invoked by the decompiler while renaming. Simply pass a class that implements de.fernflower.main.extern.IIdentifierRenamer in the option 'urc' (e.g. -urc=com.mypackage.MyRenamer) to Fernflower. The class must be available on the application classpath. The meaning of each method should be clear from naming: toBeRenamed determine whether the element will be renamed, while the other three provide new names for classes, methods and fields respectively.