# This is libdwarf README[.md]

Updated 20 August 2023

ci runs builds on Linux, Freebsd, msys2, and MacOS
using configure,cmake, and meson.

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    Version 0.7.1 in development
    Version 0.7.0 Released 20 May      2023
    Version 0.6.0 Released 20 February 2023
    Version 0.5.0 Released 22 November 2022.

## NOTE on linking against libdwarf.a

If you are not using one of the three build systems
provided and are linking code against a static 
library libdwarf.a You must arrange to  define the
macro LIBDWARF_STATIC in compiling your code that 
does a #include "libdwarf.h".

## REQUIREMENTS from a libdwarf<name>.tar.xz

Mentioning some that might not be automatically
in your base OS release. Restricting attention
here to just building libdwarf and dwarfdump. 

Nothing in the project requires or references
elf.h, libelf.h, or libelf as of 29 June 2023,
version 0.7.1.


If the objects you work with do not have
section content compressed
with zlib(libz) or libzstd
neither those libraries nor their header files
are required for building/using 
libdwarf/dwarfdump.

    Ubuntu: 
    sudo apt install pkgconf zlib1g zlib1g-dev libzstd1
    # Use of libzstd1 is new in 0.4.3
    # zlib1g zlib1g-dev libzstd1 are all optional but
    # are required to read any DWARF data in compressed
    # sections.
    optional add: cmake meson ninja doxygen 

    FreeBSD:
    pkg install bash python3 gmake binutils pkgconf lzlib zstd 
    # libzstd is likely in /usr/local/lib and zstd.h
    # in /usr/local/include and the compiler will not look there
    # by default. All will still build fine without it and
    # without lzib too, though compressed DWARF sections
    # may not be readable.
    # lzlib zstd all optional, but needed to read compressed
    # DWARF sections. 
    optional add: cmake meson ninja doxygen

    Ensure that all the needed programs are in $PATH,
    including python3.  

## BUILDING from a libdwarf<name>.tar.xz

This is always recommended as it's not necessary
to have GNU autotools installed.
These examples show doing a build in a directory
different than the source as that is generally
recommended practice. 

### GNU configure/autotools build

Note: if you get a build failure that mentions
something about test/ and missing .Po object files
add --disable-dependency-tracking to the configure
command.
    
    rm -rf /tmp/build
    mkdir /tmp/build
    cd /tmp
    tar xf <path to>/libdwarf-0.4.2.tar.xz
    cd  /tmp/build
    /tmp/libdwarf-0.4.2/configure
    make
    make check

### cmake build

README.cmake has details on the available cmake options.

We suggest that you will find meson a more satisfactory
tool.

### meson build

    meson 0.45.1  on Ubuntu 18.04 fails.
    meson 0.55.2  on Ubuntu 20.04 works.
    meson 0.60.3  on Freebsd 12.2 and Freebsd 13.0 works.

See README.cmake for the mingw64 msys2 packages to install
and the command(s) to do that in msys2.
The tools listed there are also for msys2 meson and
autotools/configure.

The msys2 meson ninja install not only installs libdwarf-0.dll
and dwarfdump.exe it updates the executables in
the build tree linking to that dll so all such
executables in the build tree work too.

For example (all build environments):

    meson /tmp/libdwarf-0.4.2
    ninja
    ninja install
    ninja test

For a faster build, adding additional checks:

    export CFLAGS="-g -pipe"
    export CXXFLAGS="-g -pipe"
    meson /tmp/libdwarf-0.4.2 -Ddwarfexample=true 
    ninja -j8
    ninja install
    ninja test

## BUILDING on linux from a git clone with configure/autotools

Ignore this section if using meson (or cmake).

This is not recommended as it requires you have
GNU autotools and pkg-config installed.
Here we assume the source is in  a directory named
/path/to/code

For example, on Ubuntu 20.04
```
    sudo apt-get install autoconf libtool pkg-config
```

Note: if you get a build failure that mentions
something about test/ and missing .Po object files
add --disable-dependency-tracking to the configure
command.

Using the source/build directories from above as examples,
do :

    # Standard Linux Build
    cd /path/to/code
    sh autogen.sh
    cd /tmp/build
    /path/to/code/configure
    make
    make check

## BUILDING on MacOS from a git clone configure
    /bin/bash -c "$(curl -fsSL https://raw.githubusercontent.com/Homebrew/install/HEAD/install.sh)"
    brew install autoconf automake libtool
    # Then use the  Standard Linux Build lines above.

### Options to meson on Linux/Unix 

For the basic configuration options list , do:
    meson configure /path/to/code

To set options and show the resulting actual options:

    # Here  just setting one option.
    meson setup  -Ddwarfexample=true  .  /home/davea/dwarf/code 
    meson configure .

The meson configure output is very wide (just letting you know).

### Options to configure/autotools on Linux/Unix 

For the full options list , do:

    /path/to/code/configure --help

By default configure compiles and uses libdwarf.a.
With `--enable-shared` appended to the configure step,
both libdwarf.a and libdwarf.so
are built and the runtimes built will reference libdwarf.so.

If you get a build failure that mentions
something about test/ and missing .Po object files
add --disable-dependency-tracking to the configure
command. With that option do not assume you can
alter source files and have make rebuild all
necessary.

See:
https://www.gnu.org/savannah-checkouts/gnu/automake/history/automake-history.html#Dependency-Tracking-Evolution

With 

    --enable-shared --disable-static

appended to the configure command
libdwarf.so is built and used.  libdwarf.a is not built.

Other options of possible interest:

    --enable-wall to turn on compiler diagnostics 
    --enable-dwarfexample to compile the example programs.

    configure -h     shows the options available.  

Sanity checking:

gcc has some checks that can be done at runtime.
-fsanitize=undefined is turned on by --enable-sanitize

### Options to meson on Windows (Msys2)

All libdwarf builds are automatically shared object (dll)
builds as of 0.7.1. 

With

    --default-library static

on the meson command line
one can build libdwarf as an archive and dwarfdump and the
programs built will use the static library.

The default is shared and can be explicitly
chosen by:

    --default-library shared

Has the same meson setup reporting as on Linux (above).

### Options to configure on Windows (Msys2)

All libdwarf builds are automatically shared object (dll)
builds. No static libdwarf.a can be built.
If you need static libdwarf.a use meson or cmake.

Has the same meson setup reporting as on Linux (above).

### Distributing via configure/autotools

When ready to create a new source distribution do
a build and then

    make distcheck

# INCOMPATIBILITIES. Changes to interfaces

### Comparing libdwarf-0.7.1 to libdwarf-0.7.0
The default build (with meson) is shared-library.
to build with static (archive) libdwarf
add 

    --default-library static 

to the meson command line (applies to meson
builds in Linux,Macos, and Windows-mingw).

On Windows-mingw one can build static libdwarf
when using cmake or meson (configure will
not allow a static libdwarf to be built
on Windows).

See Options to meson on Windows (Msys2) above.

### Comparing libdwarf-0.7.0 to libdwarf-0.6.0
struct Dwarf\_Obj\_Access\_Methods\_a\_s  changed
for extended ELF so the library can handle section count values
larger than 16bits.
dwarf\_dnames\_abbrev\_by\_code() and 
dwarf\_dnames\_abbrev\_form\_by\_index()
were removed from the API, better alternatives
already existed.

### Comparing libdwarf-0.6.0 to libdwarf-0.5.0
The dealloc required by dwarf\_offset\_list()
was wrong, use dwarf\_dealloc(dbg, offsetlistptr, DW_DLA_UARRAY).
The function dwarf\_dietype\_offset() has a revised
argument list so it can work correctly with DWARF4.
dwarf\_get\_pubtypes() and similar changed
to eliminate messy code duplication.
Fixed memory leaks and treatment of DW\_FORM\_strx3
and DW\_FORM\_addrx3.

### Comparing libdwarf-0.5.0 to libdwarf-0.4.2
dwarf\_get\_globals() is compatible but it now
returns data from .debug\_names in addition
to .debug\_pubnames (either or both
could be in an object file).
New function dwarf\_global\_tag\_number()
makes the data from .debug\_names a bit
more useful (if a library user wants it).
Three new functions were added to enable
printing of the .debug_addr section
independent of other sections
and the new dwarfdump option --print-debug-addr
prints that section.

### Comparing libdwarf-0.4.2 to libdwarf-0.4.1
No incompatibilities.

### Comparing libdwarf-0.4.1 to libdwarf-0.4.0
Added a new function dwarf\_suppress\_debuglink\_crc()
which speeds up gnu debuglink (only use it if
you are sure the debuglink name-check alone is sufficient).

### Comparing libdwarf-0.4.0 to libdwarf-0.3.4
A few  dealloc() functions changed name to have
a consistent pattern for all such.
Access to the DWARF5 .debug\_names section
is now fully implemented. 

See the <strong>Recent Changes</strong> section in
libdwarf.pdf (in the release).

[dwhtml]: https://www.prevanders.net/libdwarfdoc/index.html
[dwpdf]: https://www.prevanders.net/libdwarf.pdf

Or see the latest online html version [dwhtml] for the details..
Or see (via download) the latest pdf html version [dwpdf].

Notice the table of contents at the right edge of the html page.

## Reading DWARF from memory 

If one has DWARF bytes in memory or in a
kind of file system libdwarf cannot understand
one should use 

    dwarf_object_init_b()
    ...call libdwarf functions...
    dwarf_object_finish()

and create source to provide
functions and data for the three struct
types:

    struct Dwarf_Obj_Access_Interface_a_s
    struct Dwarf_Obj_Access_Methods_a_s
    struct Dwarf_Obj_Access_Section_a_s

These functions and structs now seem complete
(unlike the earlier libdwarf versions), hence
the name and content changes.

For a worked out example of reading DWARF direct from memory
with no file system involved
see

    src/bin/dwarfexample/jitreader.c

and see the html [dwhtml] (www.prevanders.net/libdwarfdoc/index.html).

The latest pdf is [dwpdf] (www.prevanders.net/libdwarf.pdf) 

David Anderson.