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INSTALL.md

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QUICK GUIDE

On Linux distros, the following commands will build and install uftrace from source.

$ sudo misc/install-deps.sh    # optional for advanced features
$ ./configure                  # --prefix can be used to change install dir
$ make
$ sudo make install

For more information, please see below.

GETTING THE SOURCE

The latest version of uftrace is available at Github.

https://github.com/namhyung/uftrace

DEPENDENCY

The uftrace is written in C and tried to minimize external dependencies. Currently, uftrace can be built without any external libraries. But in order to use more advanced features, it'd be better to install them like below.

Firstly, please make sure pkg-config is installed on the system to properly detect the dependencies of uftrace. Otherwise, some packages may not be detected even if they are already installed, causing some features of uftrace to be disabled.

Historically, uftrace depended on the libelf from elfutils project for ELF file manipulation. While it's not mandatory anymore, we recommend you to install it for better handling of ELF binaries. Also libdw library is recommended to be installed in order to process DWARF debug information. The libdw itself depends on the libelf, so you can just install libdw.

On debian based systems (like Ubuntu), libdw-dev package will provide the required libraries/files.

$ sudo apt-get install libdw-dev

On redhat based systems (like Fedora, RHEL), it'll be elfutils-devel.

$ sudo dnf install elfutils-devel

uftrace also uses libstdc++ library to demangle C++ symbols in full detail. But it's not mandatory as uftrace has its own demangler for shorter symbol name (it omits arguments, templates and so on).

The ncursesw library is used to implement text user interface (TUI) on console. The ncurses(w) library provides terminal handling routines which uftrace tui command is built on top of. As it improves user experience of trace data analysis, you should consider installing it if you do things like uftrace graph or uftrace report frequently.

Also uftrace needs pandoc to build man pages from the markdown document.

BUILD

To build uftrace, you need to install basic software development tools first - like gcc and make. And you also need to install dependent packages. Please see DEPENDENCY section for more details.

Once you have installed the required software(s), you need to run configure to set the install directory and other features. It installs the uftrace under /usr/local by default. If you want install it to some other location, you can set the prefix variable (see below).

$ ./configure --prefix=/usr

It will show the prefix directory and detected features like:

uftrace detected system features:
...         prefix: /usr
...         libelf: [ on  ] - more flexible ELF data handling
...          libdw: [ on  ] - DWARF debug info support
...      libpython: [ on  ] - python scripting support
...      libluajit: [ OFF ] - luajit scripting support
...    libncursesw: [ on  ] - TUI support
...   cxa_demangle: [ on  ] - full demangler support with libstdc++
...     perf_event: [ on  ] - perf (PMU) event support
...       schedule: [ on  ] - scheduler event support
...       capstone: [ on  ] - full dynamic tracing support
...      libunwind: [ OFF ] - stacktrace support (optional for debugging)

Then you can run make to build the source.

$ make

It builds uftrace, placing the resulting binaries in the current directory. This is good for testing, but you'll want to install it for normal use.

$ sudo make install

The output of the build looks like linux kernel style, and users can see the original build command lines with V=1 (like kernel).

$ make V=1

CONFIGURATION

The uftrace implements its own version of configure script to save user preferences. The config file (named .config) is created, if it doesn't exist, at build time with default options. User can set custom installation directories or build directory with this script.

$ ./configure --help
Usage: ./configure [<options>]

  --help                print this message
  --prefix=<DIR>        set install root dir as <DIR>        (default: /usr/local)
  --bindir=<DIR>        set executable install dir as <DIR>  (default: ${prefix}/bin)
  --libdir=<DIR>        set library install dir as <DIR>     (default: ${prefix}/lib)
  --mandir=<DIR>        set manual doc install dir as <DIR>  (default: ${prefix}/share/man)
  --objdir=<DIR>        set build dir as <DIR>               (default: ${PWD})
  --sysconfdir=<DIR>    override the etc dir as <DIR>

  --with-elfutils=<DIR> search for elfutils in <DIR>/include and <DIR>/lib

  --without-libelf      build without libelf (and libdw)     (even if found on the system)
  --without-libdw       build without libdw                  (even if found on the system)
  --without-libstdc++   build without libstdc++              (even if found on the system)
  --without-libpython   build without libpython              (even if found on the system)
  --without-libluajit   build without libluajit              (even if found on the system)
  --without-libncurses  build without libncursesw            (even if found on the system)
  --without-capstone    build without libcapstone            (even if found on the system)
  --without-perf        build without perf event             (even if available)
  --without-schedule    build without scheduler event        (even if available)

  --arch=<ARCH>         set target architecture              (default: system default arch)
                        e.g. x86_64, aarch64, i386, or arm
  --cross-compile=<CROSS_COMPILE>
                        Specify the compiler prefix during compilation
                        e.g. CC is overridden by $(CROSS_COMPILE)gcc
  --cflags=<CFLAGS>     pass extra C compiler flags
  --ldflags=<LDFLAGS>   pass extra linker flags

  -p                    preserve old setting

  Some influential environment variables:
    ARCH                Target architecture    e.g. x86_64, aarch64, i386, or arm
    CROSS_COMPILE       Specify the compiler prefix during compilation
                        e.g. CC is overridden by $(CROSS_COMPILE)gcc
    CFLAGS              C compiler flags
    LDFLAGS             linker flags

Also you can set the target architecture and compiler options like CC, CFLAGS.

It's also possible to disable some features that depend on external libraries or system behaviors. For example --without-libpython option will disable scripting feature - uftrace script command will still exist but won't work.

For cross compilation, you may want to setup the toolchain to something like below:

$ export CROSS_COMPILE=/path/to/cross/toolchain/arm-unknown-linux-gnueabihf-
$ ARCH=arm CFLAGS='--sysroot /path/to/sysroot' ./configure
    or
$ ./configure --arch=arm --cflags='--sysroot /path/to/sysroot' \
      --cross-compile=/path/to/cross/toolchain/arm-unknown-linux-gnueabihf-

This assumes you already installed the cross-built libelf on the sysroot directory. Otherwise, you can also build it from source (please see below) or use it on a different path using --with-elfutils=<PATH>.

BUILD WITH ELFUTILS (libelf)

It may be useful to manually compile libelf/libdw for uftrace build if the target system doesn't have them installed. misc/install-elfutils.sh provides a way to download and build libelf and libdw, which are libraries in elfutils.

The below is the way to compile uftrace together with libelf/libdw.

$ export CROSS_COMPILE=arm-linux-gnueabi-
$ export ARCH=arm
$ export CFLAGS="-march=armv7-a"
$ ./misc/install-elfutils.sh --prefix=/path/to/install
$ ./configure --prefix=/path/to/install --with-elfutils=/path/to/install

$ make
$ make install

misc/install-elfutils.sh downloads and builds elfutils and installs both libelf and libdw to prefix directory. The installed libelf and libdw can be found using --with-elfutils in the configure script.