* [Tarantool-patches] [PATCH v2 1/2] build: fix OpenSSL linking problems on FreeBSD
2019-10-26 1:01 [Tarantool-patches] [PATCH v2 0/2] Fix build problems on FreeBSD and Mac OS Alexander Turenko
@ 2019-10-26 1:01 ` Alexander Turenko
2019-10-26 1:01 ` [Tarantool-patches] [PATCH v2 2/2] build: pass path to toolchain for luajit and curl Alexander Turenko
2019-10-28 7:16 ` [Tarantool-patches] [PATCH v2 0/2] Fix build problems on FreeBSD and Mac OS Kirill Yukhin
2 siblings, 0 replies; 4+ messages in thread
From: Alexander Turenko @ 2019-10-26 1:01 UTC (permalink / raw)
To: Igor Munkin; +Cc: tarantool-patches, tarantool-patches
FreeBSD has OpenSSL as part of the base system: libraries are located in
/usr/lib, headers are in /usr/include. However a user may install the
library into /usr/local/{lib,include} from ports / pkg. In this case
tarantool did choose /usr/local version, while libcurl will pick up a
base system library. This is fixed by passing --with-ssl option with an
argument (/usr/local or /usr if custom -DOPENSSL_ROOT_DIR=<...> is not
passed).
Now the behaviour is the following. If -DOPENSSL_ROOT_DIR=<...> is
passed, then try to use OpenSSL from it. Otherwise find the library in
/usr/local and then in /usr. This is right as for tarantool's crypto
module as well as for libcurl submodule.
There is a flaw here: a user is unable to choose a base system library
if a ports / pkg version of OpenSSL is installed. The reason here is
that tarantool's crypto module depends on other libraries and
-I/usr/local/include may be added to build options. I have no good
solution for that, so `cmake . -DOPENSSL_ROOT_DIR=/usr` will give a
warning on FreeBSD and `gmake` likely will fail if libraries are of
different versions (see cmake/os.cmake comments for more information).
See also a [discussion][1] in FreeBSD community about all those /usr and
/usr/local problems.
There were two other problems that may fail tarantool build on FreeBSD:
they are fixed in this commit and described below.
First, libcurl's configure script chooses GCC by default if it exists
(say, installed from ports / pkg). It is unexpected behaviour when
tarantool sources itself are built with clang. Now it is fixed by
passing a compiler explicitly to the libcurl's configure script: the
library will use base system clang by default or one that a user pass to
tarantool's cmake.
Side note: GCC has /usr/local/include in its default headers search
paths; libcurl's configure script chooses GCC as a compiler and OpenSSL
from a base system by default (when CC and --with-ssl=<...> are not set)
that leads to OpenSSL header / library mismatch. It is the primary
reason of the build fail that was fixed in
1f2338bd809585b0b38fe07fd9f80c31747374c2 ('build: FreeBSD packages
installation'). It is not much relevant anymore, because we don't try to
link with a base system OpenSSL if /usr/local one exists (however if it
is asked explicitly with -DOPENSSL_ROOT_DIR=<...> we'll do, but will
give a warning). Anyway, it is important to know such details if we'll
change build scripts in a future.
Second, backtraces are not supported on FreeBSD, but were enabled if
libunwind headers is found. This leads to an error on cmake stage,
because of inability to find a right library (this is a bug). Now we
disable backtraces on FreeBSD by default even if libunwind is found. See
When CC is passed to libcurl's configure script, the new problem opens
on Mac OS. CMake chooses XCode toolchain by default (at least on a
particular system where I tried it), which requires -isysroot=<SDK_PATH>
option to be passed to a preprocessor and a compiler in order to find
system headers. See [2] for more information.
[1]: https://wiki.freebsd.org/WarnerLosh/UsrLocal
[2]: https://developer.apple.com/documentation/xcode_release_notes/xcode_10_release_notes#3035623
Follows up #4490.
---
cmake/BuildLibCURL.cmake | 30 +++++++++++++++++++++++-------
cmake/compiler.cmake | 4 +++-
cmake/os.cmake | 35 +++++++++++++++++++++++++++++++++++
3 files changed, 61 insertions(+), 8 deletions(-)
diff --git a/cmake/BuildLibCURL.cmake b/cmake/BuildLibCURL.cmake
index 866b3c49e..dc1b40750 100644
--- a/cmake/BuildLibCURL.cmake
+++ b/cmake/BuildLibCURL.cmake
@@ -14,13 +14,23 @@ macro(curl_build)
message(FATAL_ERROR "Unable to find zlib")
endif()
- # Set curl option to find OpenSSL library.
- if ("${OPENSSL_ROOT_DIR}" STREQUAL "")
- # Linux / FreeBSD.
- set(LIBCURL_OPENSSL_OPT "--with-ssl")
- else()
- # Mac OS.
- set(LIBCURL_OPENSSL_OPT "--with-ssl=${OPENSSL_ROOT_DIR}")
+ # Use the same OpenSSL library for libcurl as is used for
+ # tarantool itself.
+ get_filename_component(FOUND_OPENSSL_ROOT_DIR ${OPENSSL_INCLUDE_DIR} DIRECTORY)
+ set(LIBCURL_OPENSSL_OPT "--with-ssl=${FOUND_OPENSSL_ROOT_DIR}")
+
+ # Pass -isysroot=<SDK_PATH> option on Mac OS to a preprocessor
+ # and a C compiler to find header files installed with an SDK.
+ #
+ # The idea here is to don't pass all compiler/linker options
+ # that is set for tarantool, but only a subset that is
+ # necessary for choosen toolchain, and let curl's configure
+ # script set options that are appropriate for libcurl.
+ set(LIBCURL_CPPFLAGS "")
+ set(LIBCURL_CFLAGS "")
+ if (TARGET_OS_DARWIN AND NOT "${CMAKE_OSX_SYSROOT}" STREQUAL "")
+ set(LIBCURL_CPPFLAGS "${LIBCURL_CPPFLAGS} ${CMAKE_C_SYSROOT_FLAG} ${CMAKE_OSX_SYSROOT}")
+ set(LIBCURL_CFLAGS "${LIBCURL_CFLAGS} ${CMAKE_C_SYSROOT_FLAG} ${CMAKE_OSX_SYSROOT}")
endif()
include(ExternalProject)
@@ -35,6 +45,9 @@ macro(curl_build)
CONFIGURE_COMMAND
cd <SOURCE_DIR> && ./buildconf &&
cd <BINARY_DIR> && <SOURCE_DIR>/configure
+ CC=${CMAKE_C_COMPILER}
+ CPPFLAGS=${LIBCURL_CPPFLAGS}
+ CFLAGS=${LIBCURL_CFLAGS}
--prefix <INSTALL_DIR>
--enable-static
--enable-shared
@@ -112,6 +125,9 @@ macro(curl_build)
set(CURL_LIBRARIES ${CURL_LIBRARIES} rt)
endif()
+ unset(LIBCURL_CPPFLAGS)
+ unset(LIBCURL_CFLAGS)
+ unset(FOUND_OPENSSL_ROOT_DIR)
unset(LIBCURL_INSTALL_DIR)
unset(LIBCURL_BINARY_DIR)
unset(LIBCURL_SOURCE_DIR)
diff --git a/cmake/compiler.cmake b/cmake/compiler.cmake
index 887485c80..c9ad2b092 100644
--- a/cmake/compiler.cmake
+++ b/cmake/compiler.cmake
@@ -128,8 +128,10 @@ else()
endif()
find_library(UNWIND_LIBRARY PATH_SUFFIXES system NAMES ${UNWIND_LIB_NAME})
+# Disabled backtraces support on FreeBSD by default, because of
+# gh-4278.
set(ENABLE_BACKTRACE_DEFAULT OFF)
-if (UNWIND_LIBRARY AND HAVE_LIBUNWIND_H)
+if (NOT TARGET_OS_FREEBSD AND UNWIND_LIBRARY AND HAVE_LIBUNWIND_H)
set(ENABLE_BACKTRACE_DEFAULT ON)
endif()
diff --git a/cmake/os.cmake b/cmake/os.cmake
index ea581108b..0ed554b9b 100644
--- a/cmake/os.cmake
+++ b/cmake/os.cmake
@@ -22,6 +22,41 @@ elseif (${CMAKE_SYSTEM_NAME} STREQUAL "kFreeBSD")
elseif (${CMAKE_SYSTEM_NAME} STREQUAL "FreeBSD")
set(TARGET_OS_FREEBSD 1)
find_package_message(PLATFORM "Building for FreeBSD" "${CMAKE_SYSTEM_NAME}")
+
+ # FreeBSD has OpenSSL library installed in /usr as part of a
+ # base system. A user may install OpenSSL from ports / pkg to
+ # /usr/local. It is tricky to use the library from /usr in the
+ # case, because a compilation unit can also depend on
+ # libraries from /usr/local. When -I/usr/local/include is
+ # passed to a compiler it will find openssl/ssl.h from
+ # /usr/local/include first.
+ #
+ # In theory we can create a directory on the build stage and
+ # fill it with symlinks to choosen headers. However this way
+ # does not look as usual way to pick libraries to build
+ # against. I suspect that this is common problem on FreeBSD
+ # and we should wait for some general resolution from FreeBSD
+ # developers rather then work it around.
+ #
+ # Verify that /usr is not set as a directory to pick OpenSSL
+ # library and header files, because it is likely that a user
+ # set it to use the library from a base system, while the
+ # library is also installed into /usr/local.
+ #
+ # It is possible however that a user is aware of the problem,
+ # but want to use -DOPENSSL_ROOT_DIR=<...> CMake option to
+ # choose OpenSSL from /usr anyway. We should not fail the
+ # build and block this ability. Say, a user may know that
+ # there are no OpenSSL libraries in /usr/local, but finds it
+ # convenient to set the CMake option explicitly due to some
+ # external reason.
+ get_filename_component(REAL_OPENSSL_ROOT_DIR "${OPENSSL_ROOT_DIR}"
+ REALPATH BASE_DIR "${CMAKE_BINARY_DIR}")
+ if ("${REAL_OPENSSL_ROOT_DIR}" STREQUAL "/usr")
+ message(WARNING "Using OPENSSL_ROOT_DIR on FreeBSD to choose base "
+ "system libraries is not supported")
+ endif()
+ unset(REAL_OPENSSL_ROOT_DIR)
elseif (${CMAKE_SYSTEM_NAME} STREQUAL "NetBSD")
set(TARGET_OS_NETBSD 1)
find_package_message(PLATFORM "Building for NetBSD" "${CMAKE_SYSTEM_NAME}")
--
2.22.0
^ permalink raw reply [flat|nested] 4+ messages in thread
* [Tarantool-patches] [PATCH v2 2/2] build: pass path to toolchain for luajit and curl
2019-10-26 1:01 [Tarantool-patches] [PATCH v2 0/2] Fix build problems on FreeBSD and Mac OS Alexander Turenko
2019-10-26 1:01 ` [Tarantool-patches] [PATCH v2 1/2] build: fix OpenSSL linking problems on FreeBSD Alexander Turenko
@ 2019-10-26 1:01 ` Alexander Turenko
2019-10-28 7:16 ` [Tarantool-patches] [PATCH v2 0/2] Fix build problems on FreeBSD and Mac OS Kirill Yukhin
2 siblings, 0 replies; 4+ messages in thread
From: Alexander Turenko @ 2019-10-26 1:01 UTC (permalink / raw)
To: Igor Munkin; +Cc: tarantool-patches, tarantool-patches
This allows to overcome problems when CMake chooses one toolchain to
build tarantool, but a library (libluajit.a or libcurl.a) is built using
another (incompatible) toolchain.
Fixes #4587.
---
cmake/BuildLibCURL.cmake | 12 ++++++++++++
cmake/luajit.cmake | 12 ++++++++++++
2 files changed, 24 insertions(+)
diff --git a/cmake/BuildLibCURL.cmake b/cmake/BuildLibCURL.cmake
index dc1b40750..12062ec8b 100644
--- a/cmake/BuildLibCURL.cmake
+++ b/cmake/BuildLibCURL.cmake
@@ -45,9 +45,21 @@ macro(curl_build)
CONFIGURE_COMMAND
cd <SOURCE_DIR> && ./buildconf &&
cd <BINARY_DIR> && <SOURCE_DIR>/configure
+ # Pass the same toolchain as is used to build
+ # tarantool itself, because they can be
+ # incompatible.
CC=${CMAKE_C_COMPILER}
+ LD=${CMAKE_LINKER}
+ AR=${CMAKE_AR}
+ RANLIB=${CMAKE_RANLIB}
+ NM=${CMAKE_NM}
+ STRIP=${CMAKE_STRIP}
+
+ # Pass -isysroot=<SDK_PATH> option on Mac OS, see
+ # above.
CPPFLAGS=${LIBCURL_CPPFLAGS}
CFLAGS=${LIBCURL_CFLAGS}
+
--prefix <INSTALL_DIR>
--enable-static
--enable-shared
diff --git a/cmake/luajit.cmake b/cmake/luajit.cmake
index eca2bf36b..10df633d5 100644
--- a/cmake/luajit.cmake
+++ b/cmake/luajit.cmake
@@ -223,12 +223,24 @@ macro(luajit_build)
foreach(def ${defs})
set(luajit_xcflags ${luajit_xcflags} -D${def})
endforeach()
+
+ # Pass the same toolchain that is used for building of
+ # tarantool itself, because tools from different toolchains
+ # can be incompatible. A compiler and a linker are already set
+ # above.
+ set (luajit_ld ${CMAKE_LINKER})
+ set (luajit_ar ${CMAKE_AR} rcus)
+ set (luajit_strip ${CMAKE_STRIP})
+
set (luajit_buildoptions
BUILDMODE=static
HOST_CC="${luajit_hostcc}"
TARGET_CC="${luajit_cc}"
TARGET_CFLAGS="${luajit_cflags}"
+ TARGET_LD="${luajit_ld}"
TARGET_LDFLAGS="${luajit_ldflags}"
+ TARGET_AR="${luajit_ar}"
+ TARGET_STRIP="${luajit_strip}"
TARGET_SYS="${CMAKE_SYSTEM_NAME}"
CCOPT="${luajit_ccopt}"
CCDEBUG="${luajit_ccdebug}"
--
2.22.0
^ permalink raw reply [flat|nested] 4+ messages in thread