sqlite/auto.def

1176 lines
41 KiB
Modula-2
Raw Normal View History

#/usr/bin/tclsh
# ^^^ help out editors which guess this file's content type.
#
# This is the main autosetup-compatible configure script for the
# SQLite project.
#
# This script should be kept compatible with JimTCL, a copy of which
# is included in this source tree as ./autosetup/jimsh0.c. The number
# of incompatibilities between canonical TCL and JimTCL is very low
# and alternative formulations of incompatible constructs have, so
# far, been easy to find.
#
# JimTCL: https://jim.tcl.tk
#
use cc cc-db cc-shared cc-lib hwaci-common pkg-config
# Are we cross-compiling?
set cross_compiling [hwaci-is-cross-compiling]
if {0
&& !$cross_compiling
&& "nope" eq [get-env CC_FOR_BUILD "nope"]
&& [get-define CC] ne [get-define CC_FOR_BUILD]} {
# Arguable/debatable...
#
# When _not_ cross-compiling and CC_FOR_BUILD is _not_ explcitely
# specified, force CC_FOR_BUILD to be the same as CC, so that:
#
# ./configure CC=clang
#
# will use CC_FOR_BUILD=clang, instead of cc, for building in-tree
# tools. This is based off of an email discussion and is thought to
# be likely to cause less confusion than seeing 'cc' invocations
# will when the user passes CC=clang.
#
# Sidebar: if we do this before the cc package is installed, it gets
# reverted by that package. Ergo, the cc package init will tell the
# user "Build C compiler...cc" shortly before we tell them:
msg-result "Re-defining CC_FOR_BUILD to CC=[get-define CC]. To avoid this, explicitly pass CC_FOR_BUILD=..."
define CC_FOR_BUILD [get-define CC]
}
# $DUMP_DEFINES_TXT is the file emitted by --dump-defines, intended
# only for build debugging and not part of the public build interface.
set DUMP_DEFINES_TXT ./config.defines.txt
# $DUMP_DEFINES_JSON is the autosetup counterpart of the historical
# "DEFS" var which was generated by the autotools in the pre-processed
# autotools builds (but not in the canonical tree). This is used by at
# least one high-profile client to extract build config info for use
# in compiling a scripting-language binding, so its name should not be
# arbitrarily changed.
#
# 2024-10-26: generation of this file is disabled (via an empty file
# name) until/unless someone voices a specific interest in it. The
# original motivating use case is handled fine by sqlite_cfg.h.
set DUMP_DEFINES_JSON ""; #./config.defines.json
########################################################################
# Regarding flag compatibility with the historical autotool configure
# script:
#
# A very long story made short, autosetup's --flag handling has
# some behaviors which make it impossible to implement 100% identical
# flags compared to the historical autotools build. The differences
# are documented here:
#
# 1) --debug is used by autosetup itself, so we have to rename it to
# --with-debug. We cannot use --enable-debug because that is, for
# autosetup, and alias for --debug=1.
#
# 2) In autosetup, all flags starting with (--enable, --disable) are
# forced to be booleans and receive special handling in how they're
# resolved. Because of that we have to rename:
#
# 2.1) --enable-tempstore[=no] to --with-tempstore[=no].
#
########################################################################
# A gentle introduction to flags handling in autosetup
#
# Reference: https://msteveb.github.io/autosetup/developer/
#
# All configure flags must be described in an 'options' call, which
# must appear very early on in this script. The general syntax is:
#
# FLAG => {Help text}
#
# Where FLAG can have any of the following formats:
#
# boolopt => "a boolean option which defaults to disabled"
# boolopt2=1 => "a boolean option which defaults to enabled"
# stringopt: => "an option which takes an argument, e.g. --stringopt=value"
# stringopt2:=value => "an option where the argument is optional and defaults to 'value'"
# optalias booltopt3 => "a boolean with a hidden alias. --optalias is not shown in --help"
#
# Autosetup does no small amount of specialized handling for flags,
# especially booleans. Each bool-type --FLAG implicitly gets
# --enable-FLAG and --disable-FLAG forms, and explicitly adding flags
# with those prefixes will force them to be boolean flags. e.g. we
# define a flag "readline", which will be interpreted in one of two
# ways, depending on how it's invoked and how its default is defined:
#
# --enable-readline ==> boolean true
# --disable-readline ==> boolean false
#
# Trying to pass --readline or --readline=1 or --readline=0 will
# result in an "unrecognized option" error, despite the the options
# call listing the flag as "readline".
#
# The behavior described above can lead lead to some confusion when
# writing help text. For example:
#
# options { json=1 {Disable JSON functions} }
#
# The reason the help text says "disable" is because a boolean option
# defaulting to true is, in the --help text, rendered as:
#
# --disable-json Disable JSON functions
#
# Whereas a bool flag which defaults to false will instead render as:
#
# --enable-FLAG
#
# Non-boolean flags, in contrast, use the names specifically given to
# them in the 'options' invocation. e.g. "with-tcl" is the --with-tcl
# flag. Autosetup may, however, choose to automatically alter the help
# text, as demonstrated here:
#
# options {
# readline=1 => {Disable readline support}
# with-readline-lib: => {Readline library}
# with-readline-inc: => {Readline include paths}
# }
#
# $ ./configure --help | grep readline
# --disable-readline disable readline support
# --with-readline-lib specify readline library
# --with-readline-inc specify readline include paths
#
# Note that it prefixed and lower-case the help message. Whether
# that's a feature or a bug can be debated.
#
# Fetching values for flags:
#
# booleans: use one of:
# - [opt-bool FLAG] is autosetup's built-in command for this, but we
# have some convenience variants:
# - [hwaci-opt-truthy FLAG]
# - [hwaci-opt-if-truthy FLAG {THEN} {ELSE}]
#
# Non-boolean (i.e. string) flags:
# - [opt-val FLAG ?default?]
#
########################################################################
set flags {
with-debug:=1 => {Enable debug build flags}
with-tclsh:PATH => {Full pathname of tclsh to use}
with-tcl:DIR => {Directory containing tclConfig.sh}
tcl=1 => {Disable components which require TCL-dev}
test-status => {Enable status of tests}
threadsafe=1 => {Disable mutexing}
with-tempstore:=no => {Use an in-ram database for temporary tables: never,no,yes,always}
editline=0 => {BSD editline support}
readline=1 => {Disable readline support}
largefile=1 => {Disable large file support}
shared=1 => {Disable build of shared libary}
static=1 => {Disable build of static library}
# --with-readline-lib is a legacy name, now a backwards-compatible
# alias for --with-readline-ldflags.
with-readline-lib:
with-readline-ldflags:LDFLAGS
=> {Readline LDFLAGS, e.g. -lreadline -lncurses}
# --with-readline-inc is a legacy name, now a backwards-compatible
# alias for --with-readline-ldflags.
with-readline-inc:
with-readline-cflags:CFLAGS
=> {Readline CFLAGS, e.g. -I/path/to/includes}
with-readline-header:PATH
=> {Full path to readline.h, from which --with-readline-cflags will be derived}
with-linenoise:DIR => {Source directory for linenoise.c and linenoise.h}
with-icu-ldflags:LDFLAGS => {Enable SQLITE_ENABLE_ICU and add the given linker flags for the ICU libraries}
icu-collations=0 => {Enable SQLITE_ENABLE_ICU_COLLATIONS. Requires --with-icu-ldflags=...}
amalgamation=1 => {Disable the amalgamation and instead build all files separately}
load-extension=1 => {Disable loading of external extensions}
math=1 => {Disable math functions}
json=1 => {Disable JSON functions}
all => {Enable FTS4, FTS5, Geopoly, RTree, Sessions}
memsys5 => {Enable MEMSYS5}
memsys3 => {Enable MEMSYS3}
fts3 => {Enable the FTS3 extension}
fts4 => {Enable the FTS4 extension}
fts5 => {Enable the FTS5 extension}
update-limit => {Enable the UPDATE/DELETE LIMIT clause}
geopoly => {Enable the GEOPOLY extension}
rtree => {Enable the RTREE extension}
session => {Enable the SESSION extension}
gcov=0 => {Enable coverage testing using gcov}
linemacros => {Enable #line macros in the amalgamation.}
with-wasi-sdk:=/opt/wasi-sdk
=> {Top-most dir of the wasi-sdk for a WASI build}
with-emsdk:DIR => {Top-most dir of the Emscripten SDK installation}
dump-defines=0 => {Dump autosetup defines to $DUMP_DEFINES_TXT (for build debugging)}
}
if {"" ne $DUMP_DEFINES_JSON} {
lappend flags \
defines-json-include-lowercase=0 \
=> {Include lower-case defines (primarily system paths) in $DUMP_DEFINES_JSON}
}
options [subst $flags]
unset flags
#
# Carry values from hidden --flag aliases over to their canonical flag
# forms.
#
foreach {hidden => canonical} {
with-readline-inc => with-readline-cflags
with-readline-lib => with-readline-ldflags
} {
hwaci-xfer-opt-alias $hidden $canonical
}
set srcdir $::autosetup(srcdir)
set top_srcdir [get-define abs_top_srcdir]
set PACKAGE_VERSION [readfile $srcdir/VERSION]
define PACKAGE_NAME "sqlite"
define PACKAGE_URL {https://sqlite.org}
define PACKAGE_VERSION $PACKAGE_VERSION
define PACKAGE_STRING "[get-define PACKAGE_NAME] $PACKAGE_VERSION"
define PACKAGE_BUGREPORT [get-define PACKAGE_URL]/forum
msg-result "srcdir = $srcdir"
msg-result "top_srcdir = $top_srcdir"
msg-result "VERSION = $PACKAGE_VERSION"
define-append SQLITE_AUTOREMAKE cd '$srcdir' && '$top_srcdir/configure'
#{*}$::autosetup(argv) breaks with --flag='val with spaces', so...
foreach arg $::autosetup(argv) {
define-append SQLITE_AUTOREMAKE '$arg'
}
set outOfTreeBuild 0
if {![file exists sqlite3.pc.in]} {
msg-result "This appears to be an out-of-tree build."
set outOfTreeBuild 1
}
cc-check-tools ld ar
########################################################################
# The build process allows for using a cross-compiler. But the default
# action is to target the same platform that we are running on. The
# configure script needs to discover the following properties of the
# build and target systems:
#
# srcdir
#
# The is the name of the directory that contains the
# "configure" shell script. All source files are
# located relative to this directory.
#
# bindir
#
# The name of the directory where executables should be
# written by the "install" target of the makefile.
#
# program_prefix
#
# Add this prefix to the names of all executables that run
# on the target machine. Default: ""
#
# ENABLE_SHARED
#
# True if shared libraries should be generated.
#
# BUILD_CC
#
# The name of a command that is used to convert C
# source files into executables that run on the build
# platform.
#
# BUILD_CFLAGS
#
# Switches that the build compiler needs in order to construct
# command-line programs.
#
# BUILD_LIBS
#
# Libraries that the build compiler needs in order to construct
# command-line programs.
#
# TCL_*
#
# Lots of values are read in from the tclConfig.sh script,
# if that script is available. This values are used for
# constructing and installing the TCL extension.
#
# TARGET_READLINE_LIBS
#
# This is the library directives passed to the target linker
# that cause the executable to link against the readline library.
# This might be a switch like "-lreadline" or pathnames of library
# file like "../../src/libreadline.a".
#
# TARGET_READLINE_INC
#
# This variables define the directory that contain header
# files for the readline library. If the compiler is able
# to find <readline.h> on its own, then this can be blank.
#
# OPT_FEATURE_FLAGS = -DSQLITE_OMIT/ENABLE flags.
define OPT_FEATURE_FLAGS {}
define OPT_SHELL {}; # CFLAGS for the sqlite3 CLI app
# Adds $args, if not empty, to OPT_FEATURE_FLAGS.
proc add-feature-flag {args} {
if {"" ne $args} {
define-append OPT_FEATURE_FLAGS {*}$args
}
}
# add-feature-flag -DSQLITE_JUST_TESTING=3
# Adds $args, if not empty, to OPT_SHELL.
proc add-shell-opt {args} {
if {"" ne $args} {
define-append OPT_SHELL {*}$args
}
}
hwaci-file-extensions
if {".exe" eq [get-define TARGET_EXEEXT]} {
define SQLITE_OS_UNIX 0
define SQLITE_OS_WIN 1
# todo? add -DSQLITE_OS_WIN=1 to CFLAGS?
} else {
define SQLITE_OS_UNIX 1
define SQLITE_OS_WIN 0
# todo? add -DSQLITE_OS_UNIX=1 to CFLAGS?
}
#########
# Programs needed
if {"" eq [hwaci-bin-define install]} {
hwaci-warn "Cannot find install binary, so 'make install' will not work."
# Reminder: we historically have ./install-sh in the source tree.
# Can we not simply use that?
#
# define BIN_INSTALL "$top_srcdir/install-sh"
#
# Nope: it MOVES its source files over the target, which breaks the
# installation in some cases, e.g. when libtclsqlite3.so is built in
# response to 'make install' and libsqlite3.a is moved before
# libtclsqlite3.so is linked. It's easy to hack to use cp instead
# of mv (simply replace the instcmd=... bit) but that won't retain
# the source timestamp and permissions unless we use cp's -p flag,
# which may not be portable enough.
}
########################################################################
# We differentiate between two C compilers: the one used for binaries
# which are to run on the build system (BUILD_CC, a.k.a. BCC) and the
# one used for compiling binaries for the target system (CC,
# a.k.a. TCC). Normally they're the same, but they will differ when
# cross-compiling.
define BUILD_CC [get-define CC_FOR_BUILD]
define BUILD_CFLAGS [get-env BUILD_CFLAGS {-g}]
########################################################################
# Handle --with-wasi-sdk=DIR
#
# This must be early because it may change the toolchain and disable
# several config options.
proc sqlite-check-wasi-sdk {} {
set wasiSdkDir [opt-val with-wasi-sdk] ; # ??? [lindex [opt-val with-wasi-sdk] end]
define HAVE_WASI_SDK 0
#puts "x wasiSdkDir=$wasiSdkDir foo=[lindex [opt-val with-wasi-sdk] end]"
if {$wasiSdkDir eq ""} {
return 0
} elseif {$::cross_compiling} {
hwaci-fatal "Cannot combine --with-wasi-sdk with cross-compilation"
}
msg-result "Checking WASI SDK directory \[$wasiSdkDir]... "
#puts "prefix = [prefix $wasiSdkDir/bin {clang ld}]"
hwaci-affirm-files-exist -v {*}[prefix "$wasiSdkDir/bin/" {clang wasm-ld}]
msg-result "Using wasi-sdk clang, disabling: tcl, CLI shell, DLL, loadable extensions, threading"
define HAVE_WASI_SDK 1
define WASI_SDK_DIR $wasiSdkDir
hwaci-opt-set load-extension 0 ;# ==> --disable-load-extension
hwaci-opt-set threadsafe 0 ;# ==> --threadsafe=0
hwaci-opt-set tcl 0 ;# ==> --disable-tcl
hwaci-opt-set shared 0 ;# ==> --disable-shared
set cross_compiling 1
# Changing --host and --target have no effect here except to possibly
# cause confusion. autoconf has finished processing them by this
# point.
#
# host_alias=wasm32-wasi
# target=wasm32-wasi
#
# Merely changing CC and LD to the wasi-sdk's is enough to get
# sqlite3.o building in WASM format.
# XXX CC="${wasiSdkDir}/bin/clang"
# XXX LD="${wasiSdkDir}/bin/wasm-ld"
# XXX RANLIB="${wasiSdkDir}/bin/llvm-ranlib"
define CC "${wasiSdkDir}/bin/clang"
define LD "${wasiSdkDir}/bin/wasm-ld"
#define STRIP "${wasiSdkDir}/bin/strip"
return 1
}; # sqlite-check-wasi-sdk
sqlite-check-wasi-sdk
#
# Enable large file support (if special flags are necessary)
define HAVE_LFS 0
if {[opt-bool largefile]} {
cc-check-lfs
}
#
# Check for needed/wanted data types
cc-with {-includes stdint.h} \
{cc-check-types int8_t int16_t int32_t int64_t intptr_t \
uint8_t uint16_t uint32_t uint64_t uintptr_t}
#
# Check for needed/wanted functions
cc-check-functions gmtime_r isnan localtime_r localtime_s \
malloc_usable_size strchrnul usleep utime pread pread64 pwrite pwrite64
hwaci-check-function-in-lib fdatasync rt
define LDFLAGS_FDATASYNC [get-define lib_fdatasync]
undefine lib_fdatasync
#
# Check for needed/wanted headers
cc-check-includes \
sys/types.h sys/stat.h dlfcn.h unistd.h \
stdlib.h malloc.h memory.h \
string.h strings.h \
inttypes.h
# These are optional for JimTCL but necessary if we want to use it for
# code generation:
cc-check-includes dirent.h sys/time.h
if {[cc-check-includes zlib.h] && [hwaci-check-function-in-lib deflate z]} {
# TODO: port over the more sophisticated zlib search from the fossil auto.def
define HAVE_ZLIB 1; # "-DSQLITE_HAVE_ZLIB=1"
define LDFLAGS_ZLIB -lz
# Note that -DSQLITE_HAVE_ZLIB=1 is handled separately from the
# other feature flags in the autotools build. Do we need to emulate
# that?
add-shell-opt -DSQLITE_HAVE_ZLIB=1
} else {
define HAVE_ZLIB 0
define LDFLAGS_ZLIB ""
}
#
# Determine proper rpath-handling flags.
#
hwaci-check-rpath
hwaci-define-if-opt-truthy shared ENABLE_SHARED \
"Build shared library?"
if {![hwaci-define-if-opt-truthy static ENABLE_STATIC \
"Build static library?"]} {
hwaci-warn "static lib build may be implicitly re-activated by other components, e.g. libtclsqlite3."
}
hwaci-define-if-opt-truthy amalgamation USE_AMALGAMATION \
"Use amalgamation for builds?"
hwaci-define-if-opt-truthy gcov USE_GCOV "Use gcov?"
hwaci-define-if-opt-truthy test-status TSTRNNR_OPTS \
"test-runner flags:" {--status} {}
hwaci-define-if-opt-truthy linemacros AMALGAMATION_LINE_MACROS \
"Use #line macros in the amalgamation:"
msg-checking "Debug build? "
hwaci-if-opt-truthy with-debug {
define SQLITE_DEBUG 1
define TARGET_DEBUG {-g -DSQLITE_DEBUG=1 -DSQLITE_ENABLE_SELECTTRACE -DSQLITE_ENABLE_WHERETRACE -O0 -Wall}
msg-result yes
} {
define TARGET_DEBUG {-DNDEBUG}
msg-result no
}
########################################################################
# TCL...
#
# sqlite-check-tcl performs most of the --with-tcl and --with-tclsh
# handling. Some related bits and pieces are performed before and
# after that function is called.
#
# Important [define]'d vars:
#
# - HAVE_TCL indicates whether we have a tclsh suitable for building
# the TCL SQLite extension and, by extension, the testing
# infrastructure. This must only be 1 for environments where
# tclConfig.sh can be found.
#
# - TCLSH_CMD is the path to the canonical tclsh or "". It never
# refers to jimtcl.
#
# - TCL_CONFIG_SH is the path to tclConfig.sh or "".
#
# - TCLLIBDIR is the dir to which libtclsqlite3 gets installed.
#
# - TCLLIB_RPATH = the -rpath flag specific to libtclsqlite3, which
# will usually differ from the rpath used by the rest of the lib.
#
# - BTCLSH = the path to the tcl interpreter used for in-tree code
# generation. It may be jimtcl or the canonical tclsh but may not
# be empty - this tree requires TCL to generated numerous
# components.
#
define TCLSH_CMD {exit 1}
define HAVE_TCL [opt-bool tcl]
proc sqlite-check-tcl {} {
# TODO: document the steps this is taking.
if {![opt-bool tcl]} {
msg-result "TCL disabled via --disable-tcl"
define HAVE_TCL 0
return
}
global top_srcdir
msg-result "Checking for a suitable tcl... "
set optTcl [hwaci-opt-truthy tcl]
set use_tcl $optTcl
set with_tclsh [opt-val with-tclsh]
set with_tcl [opt-val with-tcl]
#puts "sqlite-check-tcl: use_tcl ${use_tcl}"
#puts "sqlite-check-tcl: with_tclsh=${with_tclsh}"
#puts "sqlite-check-tcl: with_tcl=$with_tcl"
if {"" eq $with_tclsh && "" eq $with_tcl} {
set with_tclsh [hwaci-first-bin-of tclsh9.0 tclsh8.6 tclsh]
}
#puts "sqlite-check-tcl: with_tclsh=${with_tclsh}"
if {"" ne $with_tclsh} {
if {![file isfile $with_tclsh]} {
hwaci-fatal "TCL shell $with_tclsh is not a file"
} elseif {![file-isexec $with_tclsh]} {
hwaci-fatal "TCL shell $with_tclsh is not executable"
} else {
define TCLSH_CMD $with_tclsh
msg-result "Using tclsh: $with_tclsh"
}
if {$use_tcl} {
if {[catch {exec $with_tclsh $top_srcdir/tool/find_tclconfig.tcl} result] == 0} {
set with_tcl $result
}
if {"" ne $with_tcl && [file isdir $with_tcl]} {
msg-result "$with_tclsh recommends the tclConfig.sh from $with_tcl"
} else {
hwaci-warn "$with_tclsh is unable to recommand a tclConfig.sh"
set use_tcl 0
}
}
}
set cfg ""
set tclSubdirs {tcl9.0 tcl8.6 lib}
while {1} {
if {$use_tcl} {
if {"" ne $with_tcl} {
if {[file readable "${with_tcl}/tclConfig.sh"]} {
set cfg "${with_tcl}/tclConfig.sh"
} else {
foreach i $tclSubdirs {
if {[file readable "${with_tcl}/$i/tclConfig.sh"]} {
set cfg "${with_tcl}/$i/tclConfig.sh"
break
}
}
}
if {"" eq $cfg} {
hwaci-fatal "No tclConfig.sh found under ${with_tcl}"
}
} else {
# If we have not yet found a tclConfig.sh file, look in $libdir which is
# set automatically by autosetup or by the --prefix command-line option.
# See https://sqlite.org/forum/forumpost/e04e693439a22457
set libdir [get-define libdir]
if {[file readable "${libdir}/tclConfig.sh"]} {
set cfg "${libdir}/tclConfig.sh"
} else {
foreach i $tclSubdirs {
if {[file readable "${libdir}/$i/tclConfig.sh"]} {
set cfg "${libdir}/$i/tclConfig.sh"
break
}
}
}
if {![file readable $cfg]} {
hwaci-indented-notice {
WARNING: Cannot find a usable tclConfig.sh file. Use
--with-tcl=DIR to specify a directory where tclConfig.sh
can be found. SQLite does not use TCL internally, but TCL
is required for testing.
}
break
}
}
msg-result "Using tclConfig.sh: $cfg"
} elseif {!$optTcl} {
hwaci-warn "Unable to run tests because of --disable-tcl"
} else {
hwaci-warn "Unable to run tests because no tclConfig.sh file could be located"
}
break
}
define TCL_CONFIG_SH $cfg
# The historical configure.ac sources tclConfig.sh so that it can
# use the several TCL_... env vars. We obviously cannot do that from
# TCL, so we apply a level of indirection which sources that script
# then emits the pieces we're interested in as TCL code. If the
# config is not available, this emits empty-string entries for the
# various options we're interested in.
eval [exec "${top_srcdir}/tool/tclConfigShToTcl.sh" "[get-define TCL_CONFIG_SH]"]
if {"" eq $with_tclsh} {
set with_tclsh [get-define TCL_EXEC_PREFIX]/bin/tclsh[get-define TCL_VERSION]
if {![file-isexec $with_tclsh]} {
set with_tclsh2 [get-define TCL_EXEC_PREFIX]/bin/tclsh
if {![file-isexec $with_tclsh2]} {
hwaci-warn "Cannot find a usable tclsh (tried: $with_tclsh $with_tclsh2)"
} else {
set with_tclsh $with_tclsh2
}
}
}
define TCLSH_CMD $with_tclsh
if {$use_tcl} {
# Set up the TCLLIBDIR and TCLLIB_RPATH
set tcllibdir [get-env TCLLIBDIR ""]
if {"" eq $tcllibdir} {
if {[catch {exec echo "puts stdout \$auto_path" | "$with_tclsh"} result] == 0} {
foreach i $result {
if {[file isdir $i]} {
set tcllibdir $i
break
}
}
} else {
hwaci-warn "Cannot determine TCLLIBDIR"
}
}
set tclrpath ""
if {"" ne $tcllibdir} {
set tcllibdir "${tcllibdir}/sqlite3"
set rp [get-define SH_LINKRPATH]
set tclrpath [string map [list "%s" $tcllibdir] $rp]
# Reminder: tclConfig.sh has TCL_LD_SEARCH_FLAGS to set the
# rpath but (A) it includes an unexpand var ref to
# ${LIB_RUNTIME_DIR}, which must be set in the makefile and (B)
# that flag is inherently compiler-dependent so it's not as
# portable as tclConfig.sh assumes. We'll instead use the rpath
# flag which autosetup determines for the current compiler.
}
define TCLLIBDIR $tcllibdir
define TCLLIB_RPATH $tclrpath
#hwaci-fatal "TCLLIB_RPATH = [get-define TCLLIB_RPATH]"
} else {
define TCLLIBDIR ""
define TCLLIB_RPATH ""
}
if {[file exists $with_tclsh]} {
msg-result "Using tclsh: $with_tclsh"
define HAVE_TCL 1
} else {
hwaci-warn "Cannot find a usable tclsh, so cannot run tests."
}
}; # sqlite-check-tcl
sqlite-check-tcl
########################################################################
# Check which TCL to use as a code generator. Prefer jimsh simply
# because we have it in-tree (it's part of autosetup).
#
# Building jimsh0.c with -DJIM_COMPAT changes certain behavior to be
# compatible with canonical TCL. Specifically: jim's [expr] only
# accepts one arg unless JIM_COMPAT is defined. As of 2024-10-23,
# jimsh0.c defines JIM_COMPAT automatically (prior to that it intended
# to but a typo of JIM_TCL_COMPAT made it a no-op).
define CFLAGS_JIMSH {}
msg-result "Which TCL to use for code generation... "
set cgtcl [opt-val with-tclsh jimsh]
if {"jimsh" ne $cgtcl} {
# When --with-tclsh=X is used, use that for all TCL purposes,
# including in-tree code generation, per developer request.
define BTCLSH "\$(TCLSH_CMD)"
} else {
if {[cc-check-functions realpath]} {
define-append CFLAGS_JIMSH -DHAVE_REALPATH
define BTCLSH "\$(JIMSH)"
} elseif {[cc-check-functions _fullpath]} {
# _fullpath() is a Windows API
define-append CFLAGS_JIMSH -DHAVE__FULLPATH
define BTCLSH "\$(JIMSH)"
} elseif {[file exists [get-define TCLSH_CMD]]} {
set cgtcl [get-define TCLSH_CMD]
define BTCLSH "\$(TCLSH_CMD)"
} else {
# One last-ditch effort to find TCLSH_CMD: use info from
# tclConfig.sh to try to find a tclsh
if {"" eq [get-define TCLSH_CMD]} {
set tpre [get-define TCL_EXEC_PREFIX]
if {"" ne $tpre} {
set tv [get-define TCL_VERSION]
if {[file-isexec "${tpre}/bin/tclsh${tv}"]} {
define TCLSH_CMD "${tpre}/bin/tclsh${tv}"
} elseif {[file-isexec "${tpre}/bin/tclsh"]} {
define TCLSH_CMD "${tpre}/bin/tclsh"
}
unset tv
}
unset tpre
}
set cgtcl [get-define TCLSH_CMD]
if {![file exists $cgtcl]} {
hwaci-fatal "Cannot find a tclsh to use for code generation."
}
define BTCLSH "\$(TCLSH_CMD)"
}
}
msg-result "TCL for code generation: $cgtcl"
unset cgtcl
#define CFLAGS_JIMSH {-DJUST_TESTING}
# /TCL
########################################################################
########################################################################
# Thread safety?
msg-checking "Support threadsafe operation? "
hwaci-if-opt-truthy threadsafe {
msg-result yes
add-feature-flag -DSQLITE_THREADSAFE=1
if {![hwaci-check-function-in-lib pthread_create pthread]
|| ![hwaci-check-function-in-lib pthread_mutexattr_init pthread]} {
user-error "Missing required pthread bits"
}
define LDFLAGS_PTHREAD [get-define lib_pthread_create]
undefine lib_pthread_create
} {
msg-result no
add-feature-flag -DSQLITE_THREADSAFE=0
define LDFLAGS_PTHREAD ""
}
########################################################################
# Do we want temporary databases in memory?
#
if {1} {
set ts [opt-val with-tempstore no]
set tsn 1
msg-checking "Use an in-ram database for temporary tables? "
switch -- $ts {
never { set tsn 0 }
no { set tsn 1 }
yes { set tsn 2 }
always { set tsn 3 }
default {
user-error "Invalid with-tempstore value \[$ts]. Use one of: never, no, yes, always"
}
}
msg-result $ts
define TEMP_STORE $tsn
unset ts tsn
}
########################################################################
# sqlite-check-line-editing jumps through proverbial hoops to try to
# find a working line-editing library, setting:
#
# - HAVE_READLINE to 0 or 1
# - HAVE_LINENOISE to 0 or 1
# - HAVE_EDITLINE to 0 or 1
#
# Only one of ^^^ those will be set to 1.
#
# - LDFLAGS_READLINE = linker flags or empty string
#
# - CFLAGS_READLINE = compilation flags for clients or empty string
#
# Note that LDFLAGS_READLINE and CFLAGS_READLINE may refer to
# linenoise or editline, not necessarily libreadline.
#
# Returns a string describing which line-editing approach to use, or
# "none" if no option is available.
proc sqlite-check-line-editing {} {
define HAVE_READLINE 0
define HAVE_LINENOISE 0
define HAVE_EDITLINE 0
define LDFLAGS_READLINE ""
define CFLAGS_READLINE ""
set check [opt-val with-linenoise]
if {"" ne $check} {
# Use linenoise...
set dirLn $check
if {![file isdir $dirLn]} {
hwaci-fatal "--with-linenoise value is not a directory"
} elseif {![file exists $dirLn/linenoise.c] } {
hwaci-fatal "Cannot find linenoise.c in $dirLn"
} elseif {![file exists $dirLn/linenoise.h] } {
hwaci-fatal "Cannot find linenoise.h in $dirLn"
}
user-notice "Using linenoise from $dirLn"
define CFLAGS_READLINE "-I$dirLn $dirLn/linenoise.c"
define HAVE_LINENOISE 1
add-shell-opt -DHAVE_LINENOISE=1
return "linenoise"
} elseif {[opt-bool editline]} {
# --enable-editline. The problem is finding a system which has it
# available to test on. The man pages for it on OpenBSD do not
# match how shell.c uses it. OpenBSD has a lib named libedit but
# no headers to go with it. The legacy configure script looked for
# readline() in libedit (and libedit.a indeed has the
# readline/history functions used by shell.c) but shell.c expects
# to find <editline/readline.h> when HAVE_EDITLINE=1, and that
# file is nowhere to be found.
#
# However, a workaround which works on the available systems is:
#
# --with-readline-ldflags=-ledit
#
# And then let it detect readline.h. We "could" re-map
# --enable-editline to do exactly that but it seems likely to
# break on systems for which which HAVE_EDITLINE=1 previously
# worked.
hwaci-indented-notice {
WARNING: the --enable-editline flag is not supported due to
non-availability of systems which have it in a form which the
sqlite3 CLI shell expects to see. On some systems this can be
worked around by passing --with-readline-ldflags=-ledit instead of
--enable-editline, which will attempt to use the readline.h
supplied by libreadline but link against -ledit.
}
return "none"
} elseif {![opt-bool readline]} {
user-notice "Readline support explicitly disabled with --disable-readline"
return "none"
}
# Transform with-readline-header=X to with-readline-cflags=-I...
set v [opt-val with-readline-header]
hwaci-opt-set with-readline-header ""
if {"" ne $v} {
if {"auto" eq $v} {
hwaci-opt-set with-readline-cflags auto
} else {
set v [file dirname $v]
if {[string match */*line $v]} {
# Special case: if the path includes .../*line/readline.h", set
# the -I to one dir up from that because our sources include
# <readline/readline.h> or <editline/readline.h>. Reminder: if
# auto.def is being run by jimsh0 then [file normalize] will not
# work!
set v [file dirname $v]
}
hwaci-opt-set with-readline-cflags "-I$v"
}
}
# Look for readline.h
set rlInc [opt-val with-readline-cflags auto]
if {"auto" eq $rlInc} {
set rlInc ""
if {!$::cross_compiling} {
# ^^^ this check is derived from the legacy configure script
set rlInc [hwaci-search-for-header-dir readline.h \
-dirs {/usr /usr/local /usr/local/readline /usr/contrib /mingw} \
-subdirs {include/readline include}]
# ^^^ The -dirs and -subdirs lists are from the legacy configure script
if {"" ne $rlInc} {
if {[string match */*line $rlInc]} {
# See notes above for --with-readline-header
set rlInc [file dirname $rlInc]
}
set rlInc "-I${rlInc}"
}
}
}
# If readline.h was found/specified, look for libreadline...
set rlLib ""
if {"" ne $rlInc} {
set rlLib [opt-val with-readline-ldflags]
if {"" eq $rlLib || "auto" eq $rlLib} {
set rlLib ""
set libTerm ""
if {[hwaci-check-function-in-lib tgetent {readline ncurses curses termcap}]} {
# ^^^ that libs list comes from the legacy configure script ^^^
set libTerm [get-define lib_tgetent]
undefine lib_tgetent
}
if {"readline" eq $libTerm} {
set rlLib $libTerm
} elseif {[hwaci-check-function-in-lib readline readline $libTerm]} {
set rlLib [get-define lib_readline]
lappend rlLib $libTerm
undefine lib_readline
}
}
}
if {"" ne $rlLib} {
set rlLib [join $rlLib]
set rlInc [join $rlInc]
define LDFLAGS_READLINE $rlLib
define CFLAGS_READLINE $rlInc
define HAVE_READLINE 1
add-shell-opt -DHAVE_READLINE=1
user-notice "Using readline flags: $rlInc $rlLib"
# Now check whether rl_completion_matches() has a signature we can use.
# cctest is producing unexpected test output when using:
# -includes {stdio.h readline/readline.h}
# so we have to use -source instead and write the whole test app inline
if {[cctest \
-cflags $rlInc -libs $rlLib -nooutput 1 -source {
#include <stdio.h>
#include <readline/readline.h>
static char * rcg(const char *z, int i){return 0;}
int main(void) {
char ** x = rl_completion_matches("one", rcg);
return 0;
}
}]} {
user-notice "Readline completion enabled"
} else {
user-notice "WARNING: readline completion disabled due to rl_completion_matches() signature mismatch"
add-shell-opt -DSQLITE_OMIT_READLINE_COMPLETION
}
return "readline"
}
return "none"
}; # sqlite-check-line-editing
msg-result "Line-editing support for the sqlite3 shell: [sqlite-check-line-editing]"
hwaci-if-opt-truthy load-extension {
if {[hwaci-check-function-in-lib dlopen dl]} {
define LDFLAGS_DLOPEN [get-define lib_dlopen]
undefine lib_dlopen
} else {
user-error "dlopen() not found. Use --disable-load-extension to bypass this check."
}
} {
define LDFLAGS_DLOPEN ""
add-feature-flag {-DSQLITE_OMIT_LOAD_EXTENSION=1}
msg-result "Disabling loadable extensions."
}
hwaci-if-opt-truthy math {
if {![hwaci-check-function-in-lib ceil m]} {
user-error "Cannot find libm functions. Use --disable-math to bypass this."
}
define LDFLAGS_MATH [get-define lib_ceil]
undefine lib_ceil
add-feature-flag {-DSQLITE_ENABLE_MATH_FUNCTIONS}
msg-result "Enabling math SQL functions [get-define LDFLAGS_MATH]"
} {
define LDFLAGS_MATH ""
msg-result "Disabling math SQL functions"
}
define cross_compiling ${cross_compiling}
########################################################################
# Emscripten SDK for building the web-based wasm components.
#
set emccsh $srcdir/tool/emcc.sh
if {![get-define HAVE_WASI_SDK] && [hwaci-check-emsdk]} {
define EMCC_WRAPPER $emccsh
hwaci-make-from-dot-in $emccsh
catch {exec chmod u+x $emccsh}
} else {
define EMCC_WRAPPER ""
file delete -force $emccsh
}
unset emccsh
########################################################################
# ICU
if {"" ne [define LDFLAGS_ICU [join [opt-val with-icu-ldflags ""]]]} {
# Flags sets seen in the wild for ICU:
# {-licui18n -licuuc -licudata} {-licui18n -licuuc}
add-feature-flag -DSQLITE_ENABLE_ICU
add-shell-opt -DSQLITE_ENABLE_ICU
msg-result "Enabling ICU support with libs: [get-define LDFLAGS_ICU]"
if {[opt-bool icu-collations]} {
msg-result "Enabling ICU collations."
add-feature-flag -DSQLITE_ENABLE_ICU_COLLATIONS
}
} elseif {[opt-bool icu-collations]} {
hwaci-warn "ignoring --enable-icu-collations because --with-icu-ldflags was not specified"
}
########################################################################
# Check for log(3) in libm and die with an error if it is not
# found. $why should be the feature name which requires that function
# (it's used only in error messages). defines LDFLAGS_MATH to the
# required linker flags (which may be empty even if the math APIs are
# found, depending on the OS).
proc affirm-have-math {why} {
if {![hwaci-check-function-in-lib log m]} {
user-error "Missing math APIs for $why"
}
define LDFLAGS_MATH [get-define lib_log ""]
undefine lib_log
}
########################################################################
# Handle various SQLITE_ENABLE_... feature flags.
foreach {boolFlag featureFlag ifSetEvalThis} {
all {} {
hwaci-opt-set fts4
hwaci-opt-set fts5
hwaci-opt-set geopoly
hwaci-opt-set rtree
hwaci-opt-set session
}
fts4 -DSQLITE_ENABLE_FTS4 {affirm-have-math fts4}
fts5 -DSQLITE_ENABLE_FTS5 {affirm-have-math fts5}
geopoly -DSQLITE_ENABLE_GEOPOLY {hwaci-opt-set rtree}
rtree -DSQLITE_ENABLE_RTREE {}
session {-DSQLITE_ENABLE_SESSION -DSQLITE_ENABLE_PREUPDATE_HOOK} {}
update-limit -DSQLITE_ENABLE_UPDATE_DELETE_LIMIT {}
memsys5 -DSQLITE_ENABLE_MEMSYS5 {}
memsys3 {} {
if {[opt-bool memsys5]} {
hwaci-warn "not enabling memsys3 because memsys5 is enabled."
expr 0
} else {
add-feature-flag -DSQLITE_ENABLE_MEMSYS3
}
}
} {
hwaci-if-opt-truthy $boolFlag {
add-feature-flag $featureFlag
if {0 != [eval $ifSetEvalThis] && "all" ne $boolFlag} {
msg-result "Enabling $boolFlag"
}
} {
msg-result "Not enabling $boolFlag"
}
}
########################################################################
# Invert the above loop's logic for some explicit SQLITE_OMIT_...
# cases. If config option $boolFlag is set, [add-feature-flag
# $featureFlag], where $featureFlag is intended to be
# -DSQLITE_OMIT_...
foreach {boolFlag featureFlag} {
json -DSQLITE_OMIT_JSON
} {
if {[hwaci-opt-truthy $boolFlag]} {
msg-result "Enabling $boolFlag"
} else {
add-feature-flag $featureFlag
msg-result "Disabling $boolFlag"
}
}
#########################################################################
# Show the final feature flag sets:
set oFF [get-define OPT_FEATURE_FLAGS]
if {"" ne $oFF} {
define OPT_FEATURE_FLAGS [lsort -unique $oFF]
msg-result "Library feature flags: [get-define OPT_FEATURE_FLAGS]"
}
set oFF [get-define OPT_SHELL]
if {"" ne $oFF} {
define OPT_SHELL [lsort -unique $oFF]
msg-result "Shell options: [get-define OPT_SHELL]"
}
unset oFF
########################################################################
# Maybe extend JimTCL a bit. As of this writing (2024-09-27) it only
# needs (-DHAVE_REALPATH or -DHAVE__FULLPATH) and -DHAVE_DIRENT_H to
# be compatible with our code generators. It can, however, be slightly
# extended via easy-to-detect features, should we need them.
if {0 && "" ne [get-define CFLAGS_JIMSH]} {
foreach jimFunc {opendir fsync isascii} {
if {[cc-check-functions $jimFunc]} {
define-append CFLAGS_JIMSH -DHAVE_[string toupper $jimFunc]
}
}
#These are hard-coded into jimsh0.c, so we must not -D them:
#foreach jimDef {HAVE_UNISTD_H HAVE_DIRENT_H} {
# if {[is-defined $jimDef]} {
# define-append CFLAGS_JIMSH -D$jimDef
# }
#}
define-append CFLAGS_JIMSH -DHAVE_LONG_LONG; # SQLite relies on long long, so we know it's available
}; # JimTCL
########################################################################
# Generate the output files.
#
# Potential TODO (unclear): in sqlite3.pc.in, do we need to include
# any CFLAGS_READLINE, CFLAGS_ZLIB, etc in its "Cflags:" section?
hwaci-make-from-dot-in -touch Makefile sqlite3.pc
if {0} {
# Requires a hand-written sqlite_cfg.h.in...
hwaci-make-from-dot-in sqlite_cfg.h
# vs...
} else {
# Requires no input template...
make-config-header sqlite_cfg.h \
-bare {SIZEOF_* HAVE_DECL_*} \
-none {HAVE_CFLAG_* LDFLAGS_* SH_* SQLITE_AUTOREMAKE
TARGET_* USE_GCOV TCL_*} \
-auto {HAVE_* PACKAGE_*} \
-none *
hwaci-touch sqlite_cfg.h ; # help avoid frequent unnecessary @SQLITE_AUTOREMAKE@
}
#TODO hwaci-make-from-dot-in ext/wasm/GNUmakefile
if {"" ne $DUMP_DEFINES_JSON} {
########################################################################
# Dump config-defines.json...
# Demonstrate (mis?)handling of spaces in JSON-export array values:
# define-append OPT_FOO.list {"-DFOO=bar baz" -DBAR="baz barre"}
define OPT_FEATURE_FLAGS.list [get-define OPT_FEATURE_FLAGS]
define OPT_SHELL.list [get-define OPT_SHELL]
set dumpDefsOpt {
-bare {SIZEOF_* HAVE_DECL_*}
-none {HAVE_CFLAG_* LDFLAGS_* SH_* SQLITE_AUTOREMAKE TARGET_* USE_GCOV TCL_*}
-array {*.list}
-auto {OPT_* PACKAGE_* HAVE_*}
}
if {[opt-bool defines-json-include-lowercase]} {
lappend dumpDefsOpt -none {lib_*} ; # remnants from hwaci-check-function-in-lib and friends
lappend dumpDefsOpt -auto {[a-z]*}
}
lappend dumpDefsOpt -none *
hwaci-dump-defs-json $DUMP_DEFINES_JSON {*}$dumpDefsOpt
undefine OPT_FEATURE_FLAGS.list
undefine OPT_SHELL.list
}
########################################################################
# Some build-dev/debug-only output
hwaci-if-opt-truthy dump-defines {
global DUMP_DEFINES_TXT
msg-result "--dump-defines is creating $DUMP_DEFINES_TXT"
make-config-header $DUMP_DEFINES_TXT \
-bare {SQLITE_OS* SQLITE_DEBUG USE_*} \
-str {BIN_* CC LD AR LDFLAG* OPT_*} \
-auto {*}
# achtung: ^^^^ whichever SQLITE_OS_foo flag which is set to 0 will
# get _undefined_ here unless it's part of the -bare set.
if {0} {
foreach x [all-defines] {
puts "\t$x"
}
}
}
msg-result "Done! Now run make."