Maintaining Autosetup in the SQLite Tree
========================================================================
This document provides some tips and reminders for the SQLite
developers regarding using and maintaining the [Autosetup][]-based
build infrastructure. It is not an [Autosetup][] reference.
**Table of Contents**:
- [Autosetup API Reference](#apiref)
- [API Tips](#apitips)
- [Ensuring TCL Compatibility](#tclcompat)
- [Design Conventions](#conventions)
- Symbolic Names of Feature Flags
- Do Not Update Global Shared State
- [Updating Autosetup](#updating)
- ***[Patching Autosetup for Project-local changes](#patching)***
- [Branch-specific Customization](#branch-customization)
------------------------------------------------------------------------
Autosetup API Reference
========================================================================
The Autosetup API is quite extensive and can be read either in
the [files in the `autosetup` dir](/dir/autosetup) or using:
>
```
$ ./configure --reference | less
```
That will include any docs from any TCL files in the `./autosetup` dir
which contain certain (simple) markup defined by autosetup.
This project's own configuration-related TCL code is spread across the
following files:
- [proj.tcl][]: project-agnostic utility code for autosetup-driven
projects. This file is designed to be shared between this project,
other projects managed under the SQLite/Hwaci umbrella
(e.g. Fossil), and personal projects of SQLite's developers. It is
essentially an amalgamation of a decade's worth of autosetup-related
utility code.
- [sqlite-config.tcl][]: utility code which is too project-specific
for `proj.tcl`. We split this out of `auto.def` so that it can be
used by both `auto.def` and...
- [auto.def][]: the primary driver for the `./configure` process.
When we talk about "the configure script," we're technically
referring to this file, though it actually contains very little
of the TCL code.
- [autoconf/auto.def][]: the main driver script for the "autoconf"
bundle's configure script. It is essentially a slightly trimmed-down
version of the main `auto.def` file. The `autoconf` dir was ported
from the Autotools to Autosetup in the 3.49.0 dev cycle but retains
the "autoconf" name to minimize downstream disruption.
Autosetup API Tips
========================================================================
This section briefly covers only APIs which are frequently useful in
day-to-day maintenance and might not be immediately recognized as such
from a casual perusal of the relevant TCL files. The complete docs of
those with `proj-` prefix can be found in [proj.tcl][] and those with
an `sqlite-` prefix are in [sqlite-config.tcl][]. The others are part
of Autosetup's core packages and are scattered around [the TCL files
in ./autosetup](/dir/autosetup).
In (mostly) alphabetical order:
- **`file-isexec filename`**\
Should be used in place of `[file executable]`, as it will also
check for `${filename}.exe` on Windows platforms. However, on such
platforms it also assumes that _any_ existing file is executable.
- **`get-env VAR ?default?`**\
Will fetch an "environment variable" from the first of either: (1) a
KEY=VALUE passed to the configure script or (2) the system's
environment variables. Not to be confused with `getenv`, which only
does the latter and is rarely, if ever, useful in this tree.
- **`proj-get-env VAR ?default?`**\
Works like `get-env` but will, if that function finds no match,
look for a file named `./.env-$VAR` and, if found, return its
trimmed contents. This can be used, e.g., to set a developer's
local preferences for the default `CFLAGS`.\
Tip: adding `-O0` to `.env-CFLAGS` reduces rebuild times
considerably at the cost of performance in `make devtest` and the
like.
- **`proj-fatal msg`**\
Emits `$msg` to stderr and exits with non-zero. Its differences from
autosetup's `user-error` are purely cosmetic.
- **`proj-if-opt-truthy flag thenScript ?elseScript?`**\
Evals `thenScript` if the given `--flag` is truthy, else it
evals the optional `elseScript`.
- **`proj-indented-notice ?-error? ?-notice? msg`**\
Breaks its `msg` argument into lines, trims them, and emits them
with consistent indentation. Exactly how it emits depends on the
flags passed to it (or not), as covered in its docs. This will stick
out starkly from normal output and is intended to be used only for
important notices.
- **`proj-opt-truthy flag`**\
Returns 1 if `--flag`'s value is "truthy," i.e. one of (1, on,
enabled, yes, true).
- **`proj-opt-was-provided FLAG`**\
Returns 1 if `--FLAG` was explicitly provided to configure,
else 0. This distinction can be used to determine, e.g., whether
`--with-readline` was provided or whether we're searching for
readline by default. In the former case, failure to find it should
be treated as fatal, where in the latter case it's not.\
Unlike most functions which deal with `--flags`, this one does not
validate that `$FLAG` is a registered flag so will not fail fatally
if `$FLAG` is not registered as an Autosetup option.
- **`proj-val-truthy value`**\
Returns 1 if `$value` is "truthy," See `proj-opt-truthy` for the definition
of "truthy."
- **`proj-warn msg`**\
Emits `$msg` to stderr. Closely-related is autosetup's `user-notice`
(described below).
- **`sqlite-add-feature-flag ?-shell? FLAG...`**\
Adds the given feature flag to the CFLAGS which are specific to
building libsqlite3. It's intended to be passed one or more
`-DSQLITE_ENABLE_...`, or similar, flags. If the `-shell` flag is
used then it also passes its arguments to
`sqlite-add-shell-opt`. This is a no-op if `FLAG` is not provided or
is empty.
- **`sqlite-add-shell-opt FLAG...`**\
The shell-specific counterpart of `sqlite-add-feature-flag` which
only adds the given flag(s) to the CLI-shell-specific CFLAGS.
- **`sqlite-configure BUILD-NAME {script}`**\
This is where all configure `--flags` are defined for all known
build modes ("canonical" or "autoconf"). After processing all flags,
this function runs `$script`, which contains the build-mode-specific
configuration bits, and then runs any finalization bits which are
common to all build modes. The `auto.def` files are intended to contain
exactly two commands:
`use sqlite-config; sqlite-configure BUILD-NAME {script}`
- **`user-notice msg`**\
Queues `$msg` to be sent to stderr, but does not emit it until
either `show-notices` is called or the next time autosetup would
output something (it internally calls `show-notices`). This can be
used to generate warnings between a "checking for..." message and
its resulting "yes/no/whatever" message in such a way as to not
spoil the layout of such messages.
Ensuring TCL Compatibility
========================================================================
One of the significant benefits of using Autosetup is that (A) this
project uses many TCL scripts in the build process and (B) Autosetup
comes with a TCL interpreter named [JimTCL][].
It is important that any TCL files used by the configure process and
makefiles remain compatible with both [JimTCL][] and the canonical
TCL. Though JimTCL has outstanding compatibility with canonical TCL,
it does have a few corners with incompatibilities, e.g. regular
expressions. If a script runs in JimTCL without using any
JimTCL-specific features, then it's a certainty that it will run in
canonical TCL as well. The opposite, however, is not _always_ the
case.
When [`./configure`](/file/configure) is run, it goes through a
bootstrapping process to find a suitable TCL with which to run the
autosetup framework. The first step involves [finding or building a
TCL shell](/file/autosetup/autosetup-find-tclsh). That will first
search for an available `tclsh` (under several common names,
e.g. `tclsh8.6`) before falling back to compiling the copy of
`jimsh0.c` included in the source tree. i.e. it will prefer to use a
system-installed TCL for running the configure script. Once it finds
(or builds) a TCL shell, it then runs [a sanity test to ensure that
the shell is suitable](/file/autosetup/autosetup-test-tclsh) before
using it to run the main autosetup app.
There are two simple ways to ensure that running of the configure
process uses JimTCL instead of the canonical `tclsh`, and either
approach provides equally high assurances about configure script
compatibility across TCL implementations:
1. Build on a system with no `tclsh` installed in the `$PATH`. In that
case, the configure process will fall back to building the in-tree
copy of JimTCL.
2. Manually build `./jimsh0` in the top of the checkout with:\
`cc -o jimsh0 autosetup/jimsh0.c`\
With that in place, the configure script will prefer to use that
before looking for a system-level `tclsh`. Be aware, though, that
`make distclean` will remove that file.
**Note that `./jimsh0` is distinctly different from the `./jimsh`**
which gets built for code-generation purposes. The latter requires
non-default build flags to enable features which are
platform-dependent, most notably to make its `[file normalize]` work.
This means, for example, that the configure script and its utility
APIs must not use `[file normalize]`, but autosetup provides a
TCL-only implementation of `[file-normalize]` (note the dash) for
portable use in the configure script. Contrariwise, code-generation
scripts invoked via `make` may use `[file normalize]`, as they'll use
`./jimsh` or `tclsh` instead of `./jimsh0`.
Known TCL Incompatibilities
------------------------------------------------------------------------
A summary of known incompatibilities in JimTCL
- **CRNL line endings**: prior to 2025-02-05 `fconfigure -translation ...`
was a no-op in JimTCL, and it emits CRNL line endings by default on
Windows. Since then, it supports `-translation binary`, which is
close enough to `-translation lf` for our purposes. When working
with files using the `open` command, it is important to use mode
`"rb"` or `"wb"`, as appropriate, so that the output does not get
CRNL-mangled on Windows.
- **`file copy`** does not support multiple source files. See
[](/info/61f18c96183867fe) for a workaround.
- **Regular expressions**:
- Patterns treat `\nnn` octal values as back-references (which it
does not support). Those can be reformulated as demonstrated in
[](/info/aeac23359bb681c0).
- `regsub` does not support the `\y` flag. A workaround is demonstrated
in [](/info/c2e5dd791cce3ec4).
Design Conventions
========================================================================
This section describes the motivations for the most glaring of the
build's design decisions, in particular how they deviate from
historical, or even widely-conventional, practices.
Symbolic Names of Feature Flags
------------------------------------------------------------------------
Historically, the project's makefile has exclusively used
`UPPER_UNDERSCORE` form for makefile variables. This build, however,
primarily uses `X.y` format, where `X` is often a category label,
e.g. `CFLAGS`, and `y` is the specific instance of that category,
e.g. `CFLAGS.readline`.
When the configure script exports flags for consumption by filtered
files, e.g. [Makefile.in][] and the generated
`sqlite_cfg.h`, it does so in the more conventional `X_Y` form because
those flags get exported as as C `#define`s to `sqlite_cfg.h`, where
dots are not permitted.
The `X.y` convention is used in the makefiles primarily because the
person who did the initial port finds that considerably easier on the
eyes and fingers. In practice, the `X_Y` form of such exports is used
exactly once in [Makefile.in][], where it's translated from `@X_Y@`
into into `X.y` form for consumption by [Makefile.in][] and
[main.mk][]. For example:
>
```
LDFLAGS.shobj = @SHOBJ_LDFLAGS@
LDFLAGS.zlib = @LDFLAGS_ZLIB@
LDFLAGS.math = @LDFLAGS_MATH@
```
(That first one is defined by autosetup, and thus applies "LDFLAGS" as
the suffix rather than the prefix. Which is more legible is a matter
of taste, for which there is no accounting.)
Do Not Update Global Shared State
------------------------------------------------------------------------
In both the legacy Autotools-driven build and common Autosetup usage,
feature tests performed by the configure script may amend global flags
such as `LIBS`, `LDFLAGS`, and `CFLAGS`[^as-cflags]. That's
appropriate for a makefile which builds a single deliverable, but less
so for makefiles which produce multiple deliverables. Drawbacks of
that approach include:
- It's unlikely that every single deliverable will require the same
core set of those flags.
- It can be difficult to determine the origin of any given change to
that global state because those changes are hidden behind voodoo
performed outside the immediate visibility of the configure script's
maintainer.
- It can force the maintainers of the configure script to place tests
in a specific order so that the resulting flags get applied at
the correct time and/or in the correct order.\
(A real-life example: before the approach described below was taken
to collecting build-time flags, the test for `-rpath` had to come
_after_ the test for zlib because the results of the `-rpath` test
implicitly modified global state which broke the zlib feature
test. Because the feature tests no longer (intentionally) modify
shared global state, that is not an issue.)
In this build, cases where feature tests modify global state in such a
way that it may impact later feature tests are either (A) very
intentionally defined to do so (e.g. the `--with-wasi-sdk` flag has
invasive side-effects) or (B) are oversights (i.e. bugs).
This tree's [configure script][auto.def], [utility APIs][proj.tcl],
[Makefile.in][], and [main.mk][] therefore strive to separate the
results of any given feature test into its own well-defined
variables. For example:
- The linker flags for zlib are exported from the configure script as
`LDFLAGS_ZLIB`, which [Makefile.in][] and [main.mk][] then expose as
`LDFLAGS.zlib`.
- `CFLAGS_READLINE` (a.k.a. `CFLAGS.readline`) contains the `CFLAGS`
needed for including `libreadline`, `libedit`, or `linenoise`, and
`LDFLAGS_READLINE` (a.k.a. `LDFLAGS.readline`) is its link-time
counterpart.
It is then up to the Makefile to apply and order the flags however is
appropriate.
At the end of the configure script, the global `CFLAGS` _ideally_
holds only flags which are either relevant to all targets or, failing
that, will have no unintended side-effects on any targets. That said:
clients frequently pass custom `CFLAGS` to `./configure` or `make` to
set library-level feature toggles, e.g. `-DSQLITE_OMIT_FOO`, in which
case there is no practical way to avoid "polluting" the builds of
arbitrary makefile targets with those. _C'est la vie._
[^as-cflags]: But see this article for a detailed discussion of how
autosetup currently deals specifically with CFLAGS:
Updating Autosetup
========================================================================
Updating autosetup is, more often than not, painless. It requires having
a checked-out copy of [the autosetup git repository][autosetup-git]:
>
```
$ git clone https://github.com/msteveb/autosetup
$ cd autosetup
# Or, if it's already checked out:
$ git pull
```
Then, from the top-most directory of an SQLite checkout:
>
```
$ /path/to/autosetup-checkout/autosetup --install .
$ fossil status # show the modified files
```
Unless the upgrade made any incompatible changes (which is exceedingly
rare), that's all there is to it. After that's done, **apply a patch
for the change described in the following section**, test the
configure process, and check it in.
Patching Autosetup for Project-local Changes
------------------------------------------------------------------------
Autosetup reserves the flag name **`--debug`** for its own purposes,
and its own special handling of `--enable-...` flags makes `--debug`
an alias for `--enable-debug`. As this project has a long history of
using `--enable-debug`, we patch autosetup to use the name
`--autosetup-debug` in place of `--debug`. That requires (as of this
writing) four small edits in [](/file/autosetup/autosetup), as
demonstrated in [check-in 3296c8d3](/info/3296c8d3).
If autosetup is upgraded and this patch is _not_ applied the invoking
`./configure` will fail loudly because of the declaration of the
`debug` flag in `auto.def` - duplicated flags are not permitted.
Branch-specific Customization
========================================================================
Certain vendor-specific branches require slight configure script
customization. Rather than editing `sqlite-config.tcl` for this,
which frequently leads to merge conflicts, the following approach
is recommended:
In the vendor-specific branch, create a file named
`autosetup/sqlite-custom.tcl`.
That file should contain the following content...
If flag customization is required, add:
>
```
proc sqlite-custom-flags {} {
# If any existing --flags require different default values
# then call:
options-defaults {
flag-name new-default-value
...
}
# ^^^ That will replace the default value but will not update
# the --help text, which may lead to some confusion:
# https://github.com/msteveb/autosetup/issues/77
return {
{*} {
new-flag-name => {Help text}
...
}
}; #see below
}
```
That function must return either an empty string or a list in the form
used internally by `sqlite-config.tcl:sqlite-configure`.
Next, define:
>
```
proc sqlite-custom-handle-flags {} {
... do any custom flag handling here ...
}
```
That function, if defined, will be called relatively late in the
configure process, before any filtered files are generated but after
all other significant processing.
[Autosetup]: https://msteveb.github.io/autosetup/
[auto.def]: /file/auto.def
[autoconf/auto.def]: /file/autoconf/auto.def
[autosetup-git]: https://github.com/msteveb/autosetup
[proj.tcl]: /file/autosetup/proj.tcl
[sqlite-config.tcl]: /file/autosetup/sqlite-config.tcl
[Makefile.in]: /file/Makefile.in
[main.mk]: /file/main.mk
[JimTCL]: https://jim.tcl.tk