beam_lib(3erl) | Erlang Module Definition | beam_lib(3erl) |
beam_lib - An interface to the BEAM file format.
This module provides an interface to files created by the BEAM Compiler ("BEAM files"). The format used, a variant of "EA IFF 1985" Standard for Interchange Format Files, divides data into chunks.
Chunk data can be returned as binaries or as compound terms. Compound terms are returned when chunks are referenced by names (atoms) rather than identifiers (strings). The recognized names and the corresponding identifiers are as follows:
Option debug_info can be specified to the Compiler (see compile(3erl)) to have debug information, such as Erlang Abstract Format, stored in the debug_info chunk. Tools such as Debugger and Xref require the debug information to be included.
The debug information can also be removed from BEAM files using strip/1, strip_files/1, and/or strip_release/1.
The following example shows how to reconstruct Erlang source code from the debug information in a BEAM file Beam:
{ok,{_,[{abstract_code,{_,AC}}]}} = beam_lib:chunks(Beam,[abstract_code]). io:fwrite("~s~n", [erl_prettypr:format(erl_syntax:form_list(AC))]).
The debug information can be encrypted to keep the source code secret, but still be able to use tools such as Debugger or Xref.
To use encrypted debug information, a key must be provided to the compiler and beam_lib. The key is specified as a string. It is recommended that the string contains at least 32 characters and that both upper and lower case letters as well as digits and special characters are used.
The default type (and currently the only type) of crypto algorithm is des3_cbc, three rounds of DES. The key string is scrambled using erlang:md5/1 to generate the keys used for des3_cbc.
The key can be provided in the following two ways:
If no such fun is registered, beam_lib instead searches for an .erlang.crypt file, see the next section.
In this case, Compiler option encrypt_debug_info can be used, see compile(3erl).
beam_lib searches for .erlang.crypt in the current directory, then the user's home directory and then filename:basedir(user_config, "erlang"). If the file is found and contains a key, beam_lib implicitly creates a crypto key fun and registers it.
File .erlang.crypt is to contain a single list of tuples:
{debug_info, Mode, Module, Key}
Mode is the type of crypto algorithm; currently, the only allowed value is des3_cbc. Module is either an atom, in which case Key is only used for the module Module, or [], in which case Key is used for all modules. Key is the non-empty key string.
Key in the first tuple where both Mode and Module match is used.
The following is an example of an .erlang.crypt file that returns the same key for all modules:
[{debug_info, des3_cbc, [], "%>7}|pc/DM6Cga*68$Mw]L#&_Gejr]G^"}].
The following is a slightly more complicated example of an .erlang.crypt providing one key for module t and another key for all other modules:
[{debug_info, des3_cbc, t, "My KEY"},
{debug_info, des3_cbc, [], "%>7}|pc/DM6Cga*68$Mw]L#&_Gejr]G^"}].
beam() = file:filename() | binary()
Each of the functions described below accept either the filename (as a string) or a binary containing the BEAM module.
chunkdata() =
{chunkid(), dataB()} |
{abstract_code, abst_code()} |
{debug_info, debug_info()} |
{attributes, [attrib_entry()]} |
{compile_info, [compinfo_entry()]} |
{exports, [{atom(), arity()}]} |
{labeled_exports, [labeled_entry()]} |
{imports, [mfa()]} |
{indexed_imports,
[{index(), module(), Function :: atom(), arity()}]} |
{locals, [{atom(), arity()}]} |
{labeled_locals, [labeled_entry()]} |
{atoms, [{integer(), atom()}]}
The list of attributes is sorted on Attribute (in attrib_entry()) and each attribute name occurs once in the list. The attribute values occur in the same order as in the file. The lists of functions are also sorted.
chunkid() = nonempty_string()
"Attr" | "CInf" | "Dbgi" | "ExpT" | "ImpT" | "LocT" | "AtU8"
dataB() = binary()
debug_info() =
{DbgiVersion :: atom(), Backend :: module(), Data :: term()} |
no_debug_info
The format stored in the debug_info chunk. To retrieve particular code representation from the backend, Backend:debug_info(Format, Module, Data, Opts) must be invoked. Format is an atom, such as erlang_v1 for the Erlang Abstract Format or core_v1 for Core Erlang. Module is the module represented by the beam file and Data is the value stored in the debug info chunk. Opts is any list of values supported by the Backend. Backend:debug_info/4 must return {ok, Code} or {error, Term}.
Developers must always invoke the debug_info/4 function and never rely on the Data stored in the debug_info chunk, as it is opaque and may change at any moment. no_debug_info means that chunk "Dbgi" is present, but empty.
abst_code() =
{AbstVersion :: atom(), forms()} | no_abstract_code
It is not checked that the forms conform to the abstract format indicated by AbstVersion. no_abstract_code means that chunk "Abst" is present, but empty.
For modules compiled with OTP 20 onwards, the abst_code chunk is automatically computed from the debug_info chunk.
forms() = [erl_parse:abstract_form() | erl_parse:form_info()]
compinfo_entry() = {InfoKey :: atom(), term()}
attrib_entry() =
{Attribute :: atom(), [AttributeValue :: term()]}
labeled_entry() = {Function :: atom(), arity(), label()}
index() = integer() >= 0
label() = integer()
chunkref() = chunkname() | chunkid()
chunkname() =
abstract_code | debug_info | attributes | compile_info |
exports | labeled_exports | imports | indexed_imports |
locals | labeled_locals | atoms
chnk_rsn() =
{unknown_chunk, file:filename(), atom()} |
{key_missing_or_invalid,
file:filename(),
abstract_code | debug_info} |
{missing_backend, file:filename(), module()} |
info_rsn()
info_rsn() =
{chunk_too_big,
file:filename(),
chunkid(),
ChunkSize :: integer() >= 0,
FileSize :: integer() >= 0} |
{invalid_beam_file,
file:filename(),
Position :: integer() >= 0} |
{invalid_chunk, file:filename(), chunkid()} |
{missing_chunk, file:filename(), chunkid()} |
{not_a_beam_file, file:filename()} |
{file_error, file:filename(), file:posix()}
all_chunks(File :: beam()) ->
{ok, beam_lib, [{chunkid(), dataB()}]} |
{error, beam_lib, info_rsn()}
Reads chunk data for all chunks.
build_module(Chunks) -> {ok, Binary}
Types:
Builds a BEAM module (as a binary) from a list of chunks.
chunks(Beam, ChunkRefs) ->
{ok, {module(), [chunkdata()]}} |
{error, beam_lib, chnk_rsn()}
Types:
Reads chunk data for selected chunks references. The order of the returned list of chunk data is determined by the order of the list of chunks references.
chunks(Beam, ChunkRefs, Options) ->
{ok, {module(), [ChunkResult]}} |
{error, beam_lib, chnk_rsn()}
Types:
Reads chunk data for selected chunks references. The order of the returned list of chunk data is determined by the order of the list of chunks references.
By default, if any requested chunk is missing in Beam, an error tuple is returned. However, if option allow_missing_chunks is specified, a result is returned even if chunks are missing. In the result list, any missing chunks are represented as {ChunkRef,missing_chunk}. Notice however that if chunk "Atom" is missing, that is considered a fatal error and the return value is an error tuple.
clear_crypto_key_fun() -> undefined | {ok, Result}
Types:
Unregisters the crypto key fun and terminates the process holding it, started by crypto_key_fun/1.
Returns either {ok, undefined} if no crypto key fun is registered, or {ok, Term}, where Term is the return value from CryptoKeyFun(clear), see crypto_key_fun/1.
cmp(Beam1, Beam2) -> ok | {error, beam_lib, cmp_rsn()}
Types:
cmp_rsn() =
{modules_different, module(), module()} |
{chunks_different, chunkid()} |
different_chunks |
info_rsn()
Compares the contents of two BEAM files. If the module names are the same, and all chunks except for chunk "CInf" (the chunk containing the compilation information that is returned by Module:module_info(compile)) have the same contents in both files, ok is returned. Otherwise an error message is returned.
cmp_dirs(Dir1, Dir2) ->
{Only1, Only2, Different} | {error, beam_lib, Reason}
Types:
Compares the BEAM files in two directories. Only files with extension ".beam" are compared. BEAM files that exist only in directory Dir1 (Dir2) are returned in Only1 (Only2). BEAM files that exist in both directories but are considered different by cmp/2 are returned as pairs {Filename1, Filename2}, where Filename1 (Filename2) exists in directory Dir1 (Dir2).
crypto_key_fun(CryptoKeyFun) -> ok | {error, Reason}
Types:
crypto_fun() = fun((crypto_fun_arg()) -> term())
crypto_fun_arg() =
init | clear | {debug_info, mode(), module(), file:filename()}
mode() = des3_cbc
Registers an unary fun that is called if beam_lib must read an debug_info chunk that has been encrypted. The fun is held in a process that is started by the function.
If a fun is already registered when attempting to register a fun, {error, exists} is returned.
The fun must handle the following arguments:
CryptoKeyFun(init) -> ok | {ok, NewCryptoKeyFun} | {error, Term}
Called when the fun is registered, in the process that holds the fun. Here the crypto key fun can do any necessary initializations. If {ok, NewCryptoKeyFun} is returned, NewCryptoKeyFun is registered instead of CryptoKeyFun. If {error, Term} is returned, the registration is aborted and crypto_key_fun/1 also returns {error, Term}.
CryptoKeyFun({debug_info, Mode, Module, Filename}) -> Key
Called when the key is needed for module Module in the file named Filename. Mode is the type of crypto algorithm; currently, the only possible value is des3_cbc. The call is to fail (raise an exception) if no key is available.
CryptoKeyFun(clear) -> term()
Called before the fun is unregistered. Here any cleaning up can be done. The return value is not important, but is passed back to the caller of clear_crypto_key_fun/0 as part of its return value.
diff_dirs(Dir1, Dir2) -> ok | {error, beam_lib, Reason}
Types:
Compares the BEAM files in two directories as cmp_dirs/2, but the names of files that exist in only one directory or are different are presented on standard output.
format_error(Reason) -> io_lib:chars()
Types:
For a specified error returned by any function in this module, this function returns a descriptive string of the error in English. For file errors, function file:format_error(Posix) is to be called.
info(Beam) -> [InfoPair] | {error, beam_lib, info_rsn()}
Types:
Returns a list containing some information about a BEAM file as tuples {Item, Info}:
md5(Beam) -> {ok, {module(), MD5}} | {error, beam_lib, chnk_rsn()}
Types:
Calculates an MD5 redundancy check for the code of the module (compilation date and other attributes are not included).
strip(Beam1) ->
{ok, {module(), Beam2}} | {error, beam_lib, info_rsn()}
Types:
Removes all chunks from a BEAM file except those used by the loader. In particular, the debug information (chunk debug_info and abstract_code) is removed.
strip(Beam1, AdditionalChunks) ->
{ok, {module(), Beam2}} | {error, beam_lib, info_rsn()}
Types:
Removes all chunks from a BEAM file except those used by the loader or mentioned in AdditionalChunks. In particular, the debug information (chunk debug_info and abstract_code) is removed.
strip_files(Files) ->
{ok, [{module(), Beam}]} |
{error, beam_lib, info_rsn()}
Types:
Removes all chunks except those used by the loader from BEAM files. In particular, the debug information (chunk debug_info and abstract_code) is removed. The returned list contains one element for each specified filename, in the same order as in Files.
strip_files(Files, AdditionalChunks) ->
{ok, [{module(), Beam}]} |
{error, beam_lib, info_rsn()}
Types:
Removes all chunks except those used by the loader or mentioned in AdditionalChunks. In particular, the debug information (chunk debug_info and abstract_code) is removed. The returned list contains one element for each specified filename, in the same order as in Files.
strip_release(Dir) ->
{ok, [{module(), file:filename()}]} |
{error, beam_lib, Reason}
Types:
Removes all chunks except those used by the loader from the BEAM files of a release. Dir is to be the installation root directory. For example, the current OTP release can be stripped with the call beam_lib:strip_release(code:root_dir()).
strip_release(Dir, AdditionalChunks) ->
{ok, [{module(), file:filename()}]} |
{error, beam_lib, Reason}
Types:
Removes all chunks except those used by the loader or mentioned in AdditionalChunks. Dir is to be the installation root directory. For example, the current OTP release can be stripped with the call beam_lib:strip_release(code:root_dir()).
version(Beam) ->
{ok, {module(), [Version :: term()]}} |
{error, beam_lib, chnk_rsn()}
Types:
Returns the module version or versions. A version is defined by module attribute -vsn(Vsn). If this attribute is not specified, the version defaults to the checksum of the module. Notice that if version Vsn is not a list, it is made into one, that is {ok,{Module,[Vsn]}} is returned. If there are many -vsn module attributes, the result is the concatenated list of versions.
Examples:
1> beam_lib:version(a). % -vsn(1). {ok,{a,[1]}} 2> beam_lib:version(b). % -vsn([1]). {ok,{b,[1]}} 3> beam_lib:version(c). % -vsn([1]). -vsn(2). {ok,{c,[1,2]}} 4> beam_lib:version(d). % no -vsn attribute {ok,{d,[275613208176997377698094100858909383631]}}
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