Also make sure that steps are in same order as in build-package.sh
10 KiB
Build Documentation
This document is intended to describe how to build a package.
Flow of a Build
Basics
Package build flow is controlled by script build-package.sh and is split into the following stages:
-
Read
packages/$PKG/build.sh
to obtain package metadata (e.g. version, description, dependencies), URLs for source code and steps to build package. -
Extract the archives with source code into
$HOME/.termux-build/$PKG/src
. This step is not performed whenTERMUX_PKG_SKIP_SRC_EXTRACT
is set. -
Build package for the host. This step is performed only when
TERMUX_PKG_HOSTBUILD
is set. -
Set up a standalone Android NDK toolchain and patch NDK sysroot from patches located in ndk-patches directory. This step performed only one time per each architecture.
-
Search for patches in
packages/$TERMUX_PKG_NAME/*.patch
and apply them. -
Build the package under directory
$HOME/.termux-build/$PKG/build
. IfTERMUX_PKG_BUILD_IN_SRC
is set, then build will be done in directory$HOME/.termux-build/$PKG/src
. -
Install built stuff into
$TERMUX_PREFIX
. -
Find modified files in
$TERMUX_PREFIX
and extract them into$HOME/.termux-build/$PKG/massage
. -
Perform "massage" on files in
$HOME/.termux-build/$PKG/massage
. For example, split files between subpackages. -
Create a debian archive file that is ready for distribution.
Details Table
Order | Function Name | Overridable | Description |
---|---|---|---|
0.1 | termux_error_exit |
no | Stop script and output error. |
0.2 | termux_download |
no | Utility function to download any file. |
0.3 | termux_setup_golang |
no | Setup Go Build environment. |
0.4 | termux_setup_rust |
no | Setup Cargo Build. |
0.5 | termux_setup_ninja |
no | Setup Ninja make system. |
0.6 | termux_setup_meson |
no | Setup Meson configure system. |
0.7 | termux_setup_cmake |
no | Setup CMake configure system. |
1 | termux_step_handle_arguments |
no | Handle command line arguments. |
2 | termux_step_setup_variables |
no | Setup essential variables like directory locations and flags. |
3 | termux_step_handle_buildarch |
no | Determines architecture to build for. |
4 | termux_step_get_repo_files |
no | Install dependencies if -i option supplied. |
4.1 | termux_download_deb |
no | Download packages for installation |
5 | termux_step_start_build |
no | Setup directories and files required. Read build.sh for variables. |
6 | termux_step_extract_package |
yes | Download source package. |
7 | termux_step_post_extract_package |
yes | Hook to run commands before host builds. |
8 | termux_step_handle_host_build |
yes | Determine whether a host build is required. |
8.1 | termux_step_host_build |
yes | Conduct a host build. |
9 | termux_step_setup_toolchain |
no | Setup C Toolchain from Android NDK. |
10 | termux_step_patch_package |
no | Patch all *.patch files as specified in the package directory. |
11 | termux_step_replace_guess_scripts |
no | Replace config.sub and config.guess scripts. |
12 | termux_step_pre_configure |
yes | Hook to run commands before configures. |
13 | termux_step_configure |
yes | Determine the configure method. |
13.1 | termux_step_configure_autotools |
no | Run configure by GNU Autotools. |
13.2 | termux_step_configure_cmake |
no | Run cmake . |
13.3 | termux_step_configure_meson |
no | Run meson . |
14 | termux_step_post_configure |
yes | Hook to run commands before make. |
15 | termux_step_make |
yes | Make the package. |
16 | termux_step_make_install |
yes | Install the package. |
17 | termux_step_post_make_install |
yes | Hook before extraction. |
18 | termux_step_extract_into_massagedir |
no with make_install |
Extracts installed files. |
19 | termux_step_massage |
no | Remove unusable files and creates subpackages. |
20 | termux_step_post_massage |
yes | Final hook before packaging. |
21 | termux_step_create_datatar |
no | Archive package files. |
22 | termux_step_create_debfile |
no | Create package. |
22.1 | termux_step_create_debscripts |
yes | Create additional Debian package files. |
23 | termux_step_compare_debfiles |
no | Compare packages if -i option is specified. |
24 | termux_step_finish_build |
no | Notification of finish. |
Order specifies function sequence. 0 order specifies utility functions.
Suborder specifies a function triggered by the main function. Functions with different suborders are not executed simultaneously.
For more detailed descriptiom on each step, you can read build-package.sh
Normal Build Process
Remarks: Software Developers should provide build instructions either in README or INSTALL files. Otherwise good luck trying how to build 😂.
Follow the instructions until you get a working build. If a build succeeds after any step, skip the remaining steps.
-
Create a
build.sh
file using the sample package template. -
Create a
subpackage.sh
for each subpackage using the sample package template. -
Run
./build-package.sh $PKG
to see what errors are found. -
If any steps complain about an error line, first copy the file to another directory.
-
Edit the original file.
-
When tests succeed for the file, create a patch by
diff -u <original> <new> > packages/<pkg>/<filename>.patch
-
Repeat steps 4-6 for each error file.
-
If extra configuration or make arguments are needed, specify in
build.sh
as shown in sample package. -
(optional but appreciated) Test the package by yourself.
Common Porting Problems
-
Most programs expect that target is FHS compliant. They have hardcoded paths like
/etc
,/bin
,/usr/share
,/tmp
which are not available in Termux at standard locations but only in$TERMUX_PREFIX
. -
The Android bionic libc does not have iconv and gettext/libintl functionality built in. A
libandroid-support
package contains these and may be used by all packages. -
"error: z: no archive symbol table (run ranlib)" usually means that the build machine's libz is used instead of the one for cross-compilation due to the builder library -L path being setup incorrectly.
-
rindex(3) does not exist, but strrchr(3) is preferred anyway.
-
<sys/termios.h> does not exist, but <termios.h> is the standard location.
-
<sys/fcntl.h> does not exist, but <fcntl.h> is the standard location.
-
<sys/timeb.h> does not exist (removed in POSIX 2008), but ftime(3) can be replaced with gettimeofday(2).
-
<glob.h> does not exist, but is available through the
libandroid-glob
package. -
SYSV shared memory is not supported by the kernel. A
libandroid-shmem
package, which emulates SYSV shared memory on top of the ashmem shared memory system, is available. Use it withLDFLAGS+=" -landroid-shmem
. -
SYSV semaphores is not supported by the kernel. Use unnamed POSIX semaphores instead (named semaphores are unimplemented).
-
Starting from Android 8, a Seccomp was enabled for applications. Seccomp forbids usage of some system calls which results in crash with
Bad system call
errors. -
Starting from Android 8, programs cannot use
tcsetattr()
withTCSAFLUSH
parameter due to SELinux. UseTCSANOW
instead. -
Starting from Android 9, Seccomp began to block
setuid()
-related system calls. Since Termux is primarily for single-user non-root usage, setuid/setgid functionality is discouraged anyway.
dlopen() and RTLD_* flags
<dlfcn.h> declares
RTLD_NOW=0; RTLD_LAZY=1; RTLD_LOCAL=0; RTLD_GLOBAL=2; RTLD_NOLOAD=4; // 32-bit
RTLD_NOW=2; RTLD_LAZY=1; RTLD_LOCAL=0; RTLD_GLOBAL=0x00100; RTLD_NOLOAD=4; // 64-bit
These differs from glibc ones in that
-
They differ in value from glibc ones, so cannot be hardcoded in files (DLFCN.py in python does this)
-
They are missing some values (
RTLD_BINDING_MASK
, ...)
Android Dynamic Linker
The Android dynamic linker is located at /system/bin/linker
(32-bit) or /system/bin/linker64
(64-bit). Here are source links to different versions of the linker:
Some notes about the linker:
-
The linker warns about unused dynamic section entries with a
WARNING: linker: $BINARY: unused DT entry: type ${VALUE_OF_d_tag}
message. -
The supported types of dynamic section entries have increased over time.
-
The Termux build system uses termux-elf-cleaner to strip away unused ELF entries causing the above mentioned linker warnings.
-
Symbol versioning is supported only as of Android 6.0, so is stripped away.
-
DT_RPATH
, the list of directories where the linker should look for shared libraries is not supported, so is stripped away. -
DT_RUNPATH
, the same as above but looked at afterLD_LIBRARY_PATH
, is supported only from Android 7.0, so is stripped away. -
Symbol visibility when opening shared libraries using
dlopen()
works differently. On a normal linker, when an executable linking against a shared library libA dlopen():s another shared library libB, the symbols of libA are exposed to libB without libB needing to link against libA explicitly. This does not work with the Android linker, which can break plug-in systems where the main executable dlopen():s a plug-in which doesn't explicitly link against some shared libraries already linked to by the executable. See the relevant NDK issue for more information.