Telodendria/Cytoplasm
Telodendria/Cytoplasm
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base: Telodendria:49acb754982fb14c7db80725a2e45886a77f8514
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Telodendria:master
Telodendria:v0.4.1
Telodendria:v0.4.0
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compare: Telodendria:dcbb488f7df8dae9dbaa3a06b580aaf49c6117c0
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Telodendria:v0.4.0

10 commits
49acb75498 ... dcbb488f7d

Author SHA1 Message Date
Jordan Bancino
dcbb488f7d Add install and uninstall recipes. 2023-10-02 16:02:51 -04:00
Jordan Bancino
8395a05807 Clean up Makefile generation to make so it isn't so repetitive. 2023-09-28 23:21:31 -04:00
Jordan Bancino
f16a9f4c6d Add print-libs for use in other scripts. 2023-09-28 19:53:57 -04:00
Jordan Bancino
983fabcd2a Replace Cytoplasm's make.sh with configure script and Makefile. 2023-09-28 19:27:50 -04:00
Jordan Bancino
7e21b2bfce Format source code and apply license. 2023-09-28 19:16:45 -04:00
Jordan Bancino
ffc91b9114 Use int instead of char in EvalExpr. 
Closes #5
 2023-09-25 15:58:43 -04:00
LoaD Accumulator
9c4c3fc899 Fixes issue #33 related to a memory issue, and format some code. (#35) 
Fixes #33.

Co-authored-by: LoaD Accumulator <lda@freetards.xyz>
Reviewed-on: Telodendria/telodendria#35
Co-authored-by: LoaD Accumulator <lda@noreply.git.telodendria.io>
Co-committed-by: LoaD Accumulator <lda@noreply.git.telodendria.io>
 2023-09-11 10:57:16 -04:00
array-in-a-matrix
a19ebea78f replaced .cvsignore with .gitignore 2023-09-06 11:45:44 -04:00
Jordan Bancino
d643cc876b Convert Cytoplasm README to markdown. 2023-09-05 22:10:33 -04:00
Jordan Bancino
8e8342528f Apply #72 2023-09-04 13:30:22 +00:00
15 changed files with 449 additions and 525 deletions
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.cvsignore
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build
out
*-leaked.txt

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# Cytoplasm .gitignore
build
out
*-leaked.txt
*.orig
Makefile

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# Cytoplasm (libcytoplasm)
Cytoplasm is a general-purpose C library and runtime stub for creating high-level (particularly networked and multi-threaded) C applications. It allows applications to take advantage of the speed, flexibility, and simplicity of the C programming language, while providing helpful code to perform various complex tasks. Cytoplasm provides high-level data structures, a basic logging facility, an HTTP client and server, and more.
Cytoplasm aims not to only do one thing well, but to do many things good enough. The primary target of Cytoplasm is simple, yet higher level C applications that have to perform relatively complex tasks, but don't want to pull in a large number of dependencies.
Cytoplasm is extremely opinionated on the way programs using it are written. It strives to create a comprehensive and tightly-integrated programming environment, while also maintaining C programming correctness. It doesn't do any macro magic or make C look like anything other than C. It is written entirely in C89, and depends only on a POSIX environment. This differentiates it from other general-purpose libraries that often require modern compilers and non-standard language and environment features. Cytoplasm is intended to be extremely portable and simple, while still providing some of the functionality expected in higher-level programming languages in a platform-agnostic manner. In the case of TLS, Cytoplasm wraps low-level TLS libraries to offer a single, unified interface to TLS so that programs do not have to care about the underlying implementation.
Cytoplasm is probably not suitable for embedded programming. It makes liberal use of the heap, and while data structures are designed to conserve memory where possible and practical, minimal memory usage is not really a design goal for Cytoplasm, although Cytoplasm takes care not to use any more memory than it absolutely needs. Cytoplasm also wraps a few standard libraries with additional logic and checking. While this ensures better runtime safetly, this inevitably adds a little overhead.
Originally a part of Telodendria (https://telodendria.io), a Matrix homeserver written in C, Cytoplasm was split off into its own project due to the desire of some Telodendria developers to use Telodendria's code in other projects. Cytoplasm is still a Telodendria project, and is maintained along side of Telodendria itself, even living in the same CVS module, but it is designed specifically to be distributed and used totally independent of Telodendria.
The name "Cytoplasm" was chosen for a few reasons. It plays off the precedent set up by the Matrix organization in naming projects after the parts of a neuron. It also speaks to the function of Cytoplasm. The cytoplasm of a cell is the supporting material. It is what gives the cell its shape, and it facilitates the movement of materials to the other cell parts. Likewise, Cytoplasm aims to provide a support mechanism for C applications that have to perform complex tasks.
Cytoplasm also starts with a C, which I think is a nice touch for C libraries. It's also fun to say and unique enough that searching for "libcytoplasm" should bring you to this project and not some other one.
## Building
If your operating system or software distribution provides a pre-built package of Cytoplasm, you should prefer to use that instead of building it from source.
Cytoplasm aims to have zero dependencies beyond what is mandated by POSIX. You only need the standard math and pthread libraries to build it. TLS support can optionally be enabled by setting the TLS_IMPL environment variable. The supported TLS implementations are as follows:
- OpenSSL
- LibreSSL
If TLS support is not enabled, all APIs that use it should fall back to non-TLS behavior in a sensible manner. For example, if TLS support is not enabled, then the HTTP client API will simply return an error if a TLS connection is requested. Cytoplasm uses a custom build script instead of Make, for the sake of portability. To build everything, just run the script:
$ sh make.sh
This will produce the following out/ directory:
```
out/
lib/
libcytoplasm.so - The Cytoplasm shared library.
libcytoplasm.a - The Cytoplasm static library.
cytoplasm.o - The Cytoplasm runtime stub.
bin/
hdoc - The documentation generator tool.
man/ - All Cytoplasm API documentation.
```
## Usage
Cytoplasm provides the typical .so and .a files, which can be used to link programs with it in the usual way. However, Cytoplasm also provides a minimal runtime environment that is intended to be used with the library. As such, it also provides a runtime stub, which is intended to be linked in with programs using Cytoplasm. This stub is responsible for setting up and tearing down some Cytoplasm APIs. While it isn't required by any means, it makes Cytoplasm a lot easier to use for programmers by abstracting out all of the common logic that most programs will want to use.
Here is the canonical Hello World written with Cytoplasm:
```c
#include <Log.h>
int Main(void)
{
Log(LOG_INFO, "Hello World!");
return 0;
}
```
If this file is Hello.c, then you can compile it by doing something like this:
$ cc -o hello Hello.c cytoplasm.o -lcytoplasm
This command assumes that the runtime stub resides in the current working directory, and that libcytoplasm.so is in your library path. If you're using the version of Cytoplasm installed by your operating system or software distribution, consult the documentation for the location of the runtime stub. It may be located in /usr/local/libexec or some other similar location. If you've built Cytoplasm from source and wish to link to it from there, you may wish to do something like this:
$ export CYTOPLASM=/path/to/Cytoplasm/out/lib
$ cc -o hello Hello.c "${CYTOPLASM}/cytoplasm.o" \
"-L${CYTOPLASM}" -lcytoplasm
As you may have noticed, C programs using Cytoplasm's runtime stub don't write the main() function. Instead, they use Main(). The main() function is provided by the runtime stub. The full form of Main() expected by the stub is as follows:
```c
int Main(Array *args, HashMap *env);
```
The first argument is a Cytoplasm array of the command line arguments, and the second is a Cytoplasm hash map of environment variables. Most linkers will let programs omit the env argument, or both arguments if you don't need either. The return value of Main() is returned to the operating system.
Note that both arguments to Main may be treated like any other array or hash map. However, do not invoke ArrayFree() or HashMapFree() on the passed pointers, because memory is cleaned up after Main() returns.

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Cytoplasm (libcytoplasm)
========================================================================
Cytoplasm is a general-purpose C library and runtime stub for
creating high-level (particularly networked and multi-threaded) C
applications. It allows applications to take advantage of the speed,
flexibility, and simplicity of the C programming language, while
providing helpful code to perform various complex tasks. Cytoplasm
provides high-level data structures, a basic logging facility, an
HTTP client and server, and more.
Cytoplasm aims not to only do one thing well, but to do many things
good enough. The primary target of Cytoplasm is simple, yet higher
level C applications that have to perform relatively complex tasks,
but don't want to pull in a large number of dependencies.
Cytoplasm is extremely opinionated on the way programs using it are
written. It strives to create a comprehensive and tightly-integrated
programming environment, while also maintaining C programming
correctness. It doesn't do any macro magic or make C look like
anything other than C. It is written entirely in C89, and depends
only on a POSIX environment. This differentiates it from other
general-purpose libraries that often require modern compilers and
non-standard language and environment features. Cytoplasm is intended
to be extremely portable and simple, while still providing some of
the functionality expected in higher-level programming languages
in a platform-agnostic manner. In the case of TLS, Cytoplasm wraps
low-level TLS libraries to offer a single, unified interface to TLS
so that programs do not have to care about the underlying
implementation.
Cytoplasm is probably not suitable for embedded programming. It makes
liberal use of the heap, and while data structures are designed to
conserve memory where possible and practical, minimal memory usage
is not really a design goal for Cytoplasm, although Cytoplasm takes
care not to use any more memory than it absolutely needs. Cytoplasm
also wraps a few standard libraries with additional logic and
checking. While this ensures better runtime safetly, this inevitably
adds a little overhead.
Originally a part of Telodendria (https://telodendria.io), a Matrix
homeserver written in C, Cytoplasm was split off into its own project
due to the desire of some Telodendria developers to use Telodendria's
code in other projects. Cytoplasm is still a Telodendria project,
and is maintained along side of Telodendria itself, even living in
the same CVS module, but it is designed specifically to be distributed
and used totally independent of Telodendria.
The name "Cytoplasm" was chosen for a few reasons. It plays off the
precedent set up by the Matrix organization in naming projects after
the parts of a neuron. It also speaks to the function of Cytoplasm.
The cytoplasm of a cell is the supporting material. It is what gives
the cell its shape, and it facilitates the movement of materials
to the other cell parts. Likewise, Cytoplasm aims to provide a
support mechanism for C applications that have to perform complex
tasks.
Cytoplasm also starts with a C, which I think is a nice touch for C
libraries. It's also fun to say and unique enough that searching for
"libcytoplasm" should bring you to this project and not some other
one.
Building
------------------------------------------------------------------------
If your operating system or software distribution provides a pre-built
package of Cytoplasm, you should prefer to use that instead of
building it from source.
Cytoplasm aims to have zero dependencies beyond what is mandated
by POSIX. You only need the standard math and pthread libraries to
build it. TLS support can optionally be enabled by setting the
TLS_IMPL environment variable. The supported TLS implementations
are as follows:
* OpenSSL
* LibreSSL
If TLS support is not enabled, all APIs that use it should fall
back to non-TLS behavior in a sensible manner. For example, if TLS
support is not enabled, then the HTTP client API will simply return
an error if a TLS connection is requested.
Cytoplasm uses a custom build script instead of Make, for the sake
of portability. To build everything, just run the script:
$ sh make.sh
This will produce the following out/ directory:
out/
lib/
libcytoplasm.so - The Cytoplasm shared library.
libcytoplasm.a - The Cytoplasm static library.
cytoplasm.o - The Cytoplasm runtime stub.
bin/
hdoc - The documentation generator tool.
man/ - All Cytoplasm API documentation.
Usage
------------------------------------------------------------------------
Cytoplasm provides the typical .so and .a files, which can be used
to link programs with it in the usual way. However, Cytoplasm also
provides a minimal runtime environment that is intended to be used
with the library. As such, it also provides a runtime stub, which
is intended to be linked in with programs using Cytoplasm. This
stub is responsible for setting up and tearing down some Cytoplasm
APIs. While it isn't required by any means, it makes Cytoplasm a
lot easier to use for programmers by abstracting out all of the
common logic that most programs will want to use.
Here is the canonical Hello World written with Cytoplasm:
#include <Log.h>
int Main(void)
{
Log(LOG_INFO, "Hello World!");
return 0;
}
If this file is Hello.c, then you can compile it by doing something
like this:
$ cc -o hello Hello.c cytoplasm.o -lcytoplasm
This command assumes that the runtime stub resides in the current
working directory, and that libcytoplasm.so is in your library path.
If you're using the version of Cytoplasm installed by your operating
system or software distribution, consult the documentation for the
location of the runtime stub. It may be located in
/usr/local/libexec or some other similar location. If you've built
Cytoplasm from source and wish to link to it from there, you may wish
to do something like this:
$ export CYTOPLASM=/path/to/Cytoplasm/out/lib
$ cc -o hello Hello.c "${CYTOPLASM}/cytoplasm.o" \
"-L${CYTOPLASM}" -lcytoplasm
As you may have noticed, C programs using Cytoplasm's runtime stub
don't write the main() function. Instead, they use Main(). The main()
function is provided by the runtime stub. The full form of Main()
expected by the stub is as follows:
int Main(Array *args, HashMap *env);
The first argument is a Cytoplasm array of the command line
arguments, and the second is a Cytoplasm hash map of environment
variables. Most linkers will let programs omit the env argument,
or both arguments if you don't need either. The return value of
Main() is returned to the operating system.
Note that both arguments to Main may be treated like any other
array or hash map. However, do not invoke ArrayFree() or HashMapFree()
on the passed pointers, because memory is cleaned up after Main()
returns.

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#!/usr/bin/env sh
#
# Argument Parsing
#
echo "Build Configuration"
echo "-------------------"
BUILD="build"
OUT="out"
SRC="src"
INCLUDE="src/include"
TOOLS="tools"
CFLAGS="-Wall -Wextra -pedantic -std=c89 -O3 -pipe -D_DEFAULT_SOURCE -I${INCLUDE}"
LIBS="-lm -pthread"
# Set default args for all platforms
SCRIPT_ARGS="--lib-rtstub=RtStub --prefix=/usr/local --enable-ld-extra --lib-name=Cytoplasm --lib-version=0.4.0 --static $@"
# Set platform specific args
case "$(uname)" in
OpenBSD)
SCRIPT_ARGS="--with-libressl $SCRIPT_ARGS"
;;
*)
SCRIPT_ARGS="--with-openssl $SCRIPT_ARGS"
;;
esac
echo "Processing options..."
echo "Ran with arguments: $SCRIPT_ARGS"
# Process all arguments
for arg in $SCRIPT_ARGS; do
case "$arg" in
--with-openssl)
TLS_IMPL="OPENSSL"
TLS_LIBS="-lcrypto -lssl"
;;
--with-libressl)
TLS_IMPL="LIBRESSL"
TLS_LIBS="-ltls -lcrypto -lssl"
;;
--disable-tls)
TLS_LIBS=""
;;
--prefix=*)
PREFIX=$(echo "$arg" | cut -d '=' -f 2-)
;;
--enable-ld-extra)
LD_EXTRA="-flto -fdata-sections -ffunction-sections -s -Wl,-gc-sections"
;;
--disable-ld-extra)
LD_EXTRA=""
;;
--lib-name=*)
LIB_NAME=$(echo "$arg" | cut -d '=' -f 2-)
;;
--lib-version=*)
LIB_VERSION=$(echo "$arg" | cut -d '=' -f 2-)
;;
--enable-debug)
DEBUG="-O0 -g"
echo "Notice: --enable-debug implies --disable-ld-extra and --no-static."
echo "You must explicitly provide --enable-ld-extra and/or --static after"
echo "specifying --enable-debug if you wish to enable these features in debug mode."
LD_EXTRA=""
STATIC=""
;;
--disable-debug)
DEBUG=""
;;
--lib-rtstub=*)
STUB=$(echo "$arg" | cut -d '=' -f 2-)
;;
--static)
STATIC="-static -Wl,-static"
;;
--no-static)
STATIC=""
;;
*)
echo "Invalid argument: $1"
exit 1
;;
esac
done
if [ -n "$TLS_IMPL" ]; then
CFLAGS="${CFLAGS} -DTLS_IMPL=${TLS_IMPL}"
LIBS="${LIBS} ${TLS_LIBS}"
fi
CFLAGS="${CFLAGS} '-DLIB_NAME=\"${LIB_NAME}\"' '-DLIB_VERSION=\"${LIB_VERSION}\"' ${DEBUG}"
LDFLAGS="${LIBS} ${LD_EXTRA}"
#
# Makefile generation
#
collect() {
from="$1"
orig_ext="$2"
new_ext="$3"
prefix="$4"
exec="$5"
find "${from}" -name "*${orig_ext}" -type f | while IFS= read -r src; do
src=$(echo "$src" | sed -e "s|^${from}||g")
obj=$(echo "$src" | sed -e "s|${orig_ext}\$|${new_ext}|g")
obj="${prefix}${obj}"
src="${from}${src}"
"${exec}" "${src}" "${obj}"
done
}
print_src() {
printf '%s ' "$1"
}
print_obj() {
printf '%s ' "$2"
}
compile_obj() {
src="$1"
obj="$2"
cc -I${INCLUDE} -MM -MT "${obj}" "${src}"
echo "${TAB}@mkdir -p $(dirname ${obj})"
echo "${TAB}\$(CC) \$(CFLAGS) -fPIC -c -o \"${obj}\" \"${src}\""
}
compile_bin() {
src="$1"
out="$2"
echo "${out}: ${OUT}/lib/lib${LIB_NAME}.a ${OUT}/lib/lib${LIB_NAME}.so ${OUT}/lib/${LIB_NAME}.o ${src}"
echo "${TAB}@mkdir -p ${OUT}/bin"
echo "${TAB}\$(CC) \$(CFLAGS) -o \"${out}\" \"${src}\" ${OUT}/lib/${LIB_NAME}.o -L${OUT}/lib \$(LDFLAGS) -l${LIB_NAME} ${STATIC}"
}
compile_doc() {
src="$1"
out="$2"
echo "${out}: ${OUT}/bin/hdoc ${src}"
echo "${TAB}@mkdir -p ${OUT}/man/man3"
echo "${TAB}${OUT}/bin/hdoc -D \"Os=${LIB_NAME}\" -i \"${src}\" -o \"${out}\""
}
install_out() {
src="$1"
out="$2"
echo "${TAB}install -D \"$src\" \"$out\""
}
install_man() {
src="${OUT}/man/man3/${LIB_NAME}-$(basename $1 .h).3"
out="$2"
echo "${TAB}install -D \"$src\" \"$out\""
}
uninstall_out() {
src="$1"
out="$2"
echo "${TAB}rm \"$out\""
}
echo "Generating Makefile..."
OBJS=$(collect ${SRC}/ .c .o ${BUILD}/ print_obj)
TAB=$(printf '\t')
cat << EOF > Makefile
.POSIX:
# Generated by '$0' on $(date).
# This file should generally not be manually edited.
PREFIX = ${PREFIX}
CFLAGS = ${CFLAGS}
LDFLAGS = ${LDFLAGS}
all: ${LIB_NAME} docs tools
docs: $(collect ${INCLUDE}/ .h .3 ${OUT}/man/man3/${LIB_NAME}- print_obj)
tools: $(collect ${TOOLS}/ .c '' ${OUT}/bin/ print_obj)
print-libs:
${TAB}@echo ${LIBS}
format:
${TAB}find . -name '*.c' | while IFS= read -r src; do \\
${TAB} if indent "\$\$src"; then \\
${TAB} rm \$\$(basename "\$\$src").BAK; \\
${TAB} fi \\
${TAB}done
license:
${TAB}find . -name '*.[ch]' | while IFS= read -r src; do \\
${TAB} srcHeader=\$\$(grep -n -m 1 '^ \*/' "\$\$src" | cut -d ':' -f 1); \\
${TAB} head -n\$\$srcHeader \$\$src | \\
${TAB} diff -u -p - "LICENSE.txt" | \\
${TAB} patch "\$\$src" | grep -v "^Hmm"; \\
${TAB}done
${LIB_NAME}: ${OUT}/lib/${LIB_NAME}.o ${OUT}/lib/lib${LIB_NAME}.a ${OUT}/lib/lib${LIB_NAME}.so
install: ${LIB_NAME}
${TAB}install -D ${OUT}/lib/${LIB_NAME}.o \$(PREFIX)/lib/${LIB_NAME}.o
${TAB}install -D ${OUT}/lib/lib${LIB_NAME}.a \$(PREFIX)/lib/lib${LIB_NAME}.a
${TAB}install -D ${OUT}/lib/lib${LIB_NAME}.so \$(PREFIX)/lib/lib${LIB_NAME}.so
$(collect ${INCLUDE}/ '' '' \$\(PREFIX\)/include/${LIB_NAME}/ install_out)
$(collect ${INCLUDE}/ .h .3 \$\(PREFIX\)/man/man3/${LIB_NAME}- install_man)
uninstall:
${TAB}rm -r \$(PREFIX)/lib/${LIB_NAME}.*
${TAB}rm -r \$(PREFIX)/lib/lib${LIB_NAME}.*
${TAB}rm -r \$(PREFIX)/include/${LIB_NAME}
${TAB}rm -r \$(PREFIX)/man/man3/${LIB_NAME}-*
clean:
${TAB}rm -r "${BUILD}" "${OUT}"
${OUT}/lib/${LIB_NAME}.o: ${BUILD}/${STUB}.o
${TAB}@mkdir -p ${OUT}/lib
${TAB}cp ${BUILD}/${STUB}.o ${OUT}/lib/${LIB_NAME}.o
${OUT}/lib/lib${LIB_NAME}.a: ${OBJS}
${TAB}@mkdir -p ${OUT}/lib
${TAB}\$(AR) rcs ${OUT}/lib/lib${LIB_NAME}.a ${OBJS}
${OUT}/lib/lib${LIB_NAME}.so: ${OBJS}
${TAB}@mkdir -p ${OUT}/lib
${TAB}\$(CC) -shared -o ${OUT}/lib/lib${LIB_NAME}.so ${OBJS} ${LDFLAGS}
$(collect ${SRC}/ .c .o ${BUILD}/ compile_obj)
$(collect ${TOOLS}/ .c '' ${OUT}/bin/ compile_bin)
$(collect ${INCLUDE}/ .h .3 ${OUT}/man/man3/${LIB_NAME}- compile_doc)
EOF
echo "Done. Run 'make' to build ${LIB_NAME}."

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@ -1,3 +1,26 @@
/*
* Copyright (C) 2022-2023 Jordan Bancino <@jordan:bancino.net>
*
* Permission is hereby granted, free of charge, to any person
* obtaining a copy of this software and associated documentation files
* (the "Software"), to deal in the Software without restriction,
* including without limitation the rights to use, copy, modify, merge,
* publish, distribute, sublicense, and/or sell copies of the Software,
* and to permit persons to whom the Software is furnished to do so,
* subject to the following conditions:
*
* The above copyright notice and this permission notice shall be
* included in all copies or portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS
* BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
* ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <Array.h>
#include <HashMap.h>

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#!/usr/bin/env sh
addprefix() {
prefix="$1"
shift
for thing in "$@"; do
echo "${prefix}${thing}"
done
unset prefix
unset thing
}
: "${NAME:=Cytoplasm}"
: "${LIB_NAME:=$(echo ${NAME} | tr '[A-Z]' '[a-z]')}"
: "${VERSION:=0.4.0}"
: "${CVS_TAG:=${NAME}-$(echo ${VERSION} | sed 's/\./_/g')}"
: "${SRC:=src}"
: "${TOOLS:=tools}"
: "${EXAMPLES:=examples}"
: "${BUILD:=build}"
: "${OUT:=out}"
: "${STUB:=RtStub}"
: "${LICENSE:=LICENSE.txt}"
: "${CC:=cc}"
: "${AR:=ar}"
: "${DEFINES:=-D_DEFAULT_SOURCE -DLIB_NAME=\"${NAME}\" -DLIB_VERSION=\"${VERSION}\"}"
: "${INCLUDE:=${SRC}/include}"
: "${CFLAGS:=-Wall -Wextra -pedantic -std=c89 -O3 -pipe}"
: "${LD_EXTRA:=-flto -fdata-sections -ffunction-sections -s -Wl,-gc-sections}"
: "${LDFLAGS:=-lm -pthread}"
if [ "${DEBUG}" = "1" ]; then
CFLAGS="${CFLAGS} -O0 -g"
LD_EXTRA=""
fi
if [ -n "${TLS_IMPL}" ]; then
case "${TLS_IMPL}" in
"LIBRESSL")
TLS_LIBS="-ltls -lcrypto -lssl"
;;
"OPENSSL")
TLS_LIBS="-lcrypto -lssl"
;;
*)
echo "Unrecognized TLS implementation: ${TLS_IMPL}"
echo "Consult Tls.h for supported implementations."
echo "Note that the TLS_ prefix is omitted in TLS_IMPL."
exit 1
;;
esac
DEFINES="${DEFINES} -DTLS_IMPL=TLS_${TLS_IMPL}"
LDFLAGS="${LDFLAGS} ${TLS_LIBS}"
fi
CFLAGS="${CFLAGS} ${DEFINES} $(addprefix -I$(pwd)/ ${INCLUDE})"
LDFLAGS="${LDFLAGS} ${LD_EXTRA}"
# Check the modificiation time of a file. This is used to do
# incremental builds; we only want to rebuild files that have
# have changed.
mod_time() {
if [ -n "$1" ] && [ -f "$1" ]; then
case "$(uname)" in
Linux | CYGWIN_NT* | Haiku)
stat -c %Y "$1"
;;
*BSD | DragonFly | Minix)
stat -f %m "$1"
;;
*)
# Platform unknown, force rebuilding the whole
# project every time.
echo "0"
;;
esac
else
echo "0"
fi
}
# Substitute shell variables in a stream with their actual value
# in this shell.
setsubst() {
SED="/tmp/sed-$RANDOM.txt"
(
set | while IFS='=' read -r var val; do
val=$(echo "$val" | cut -d "'" -f 2- | rev | cut -d "'" -f 2- | rev)
echo "s|\\\${$var}|$val|g"
done
echo "s|\\\${[a-zA-Z_]*}||g"
echo "s|'''|'|g"
) >"$SED"
sed -f "$SED" $@
rm "$SED"
}
recipe_docs() {
export LD_LIBRARY_PATH="${OUT}/lib"
mkdir -p "${OUT}/man/man3"
for header in $(find ${INCLUDE} -name '*.h'); do
basename=$(basename "$header")
man=$(echo "${OUT}/man/man3/$basename" | sed -e 's/\.h$/\.3/')
if [ $(mod_time "$header") -ge $(mod_time "$man") ]; then
echo "DOC $basename"
if ! "${OUT}/bin/hdoc" -D "Os=${NAME}" -i "$header" -o "$man"; then
rm "$man"
exit 1
fi
fi
done
if which makewhatis 2>&1 > /dev/null; then
makewhatis "${OUT}/man"
fi
}
recipe_libs() {
echo "-lm -pthread ${TLS_LIBS}"
}
recipe_build() {
mkdir -p "${BUILD}" "${OUT}/bin" "${OUT}/lib"
cd "${SRC}"
echo "CC = ${CC}"
echo "CFLAGS = ${CFLAGS}"
echo "LDFLAGS = ${LDFLAGS}"
echo
do_rebuild=0
objs=""
for src in $(find . -name '*.c' | cut -d '/' -f 2-); do
obj=$(echo "${BUILD}/$src" | sed -e 's/\.c$/\.o/')
if [ $(basename "$obj" .o) != "${STUB}" ]; then
objs="$objs $obj"
fi
if [ $(mod_time "$src") -ge $(mod_time "../$obj") ]; then
echo "CC $(basename $obj)"
obj_dir=$(dirname "../$obj")
mkdir -p "$obj_dir"
if ! $CC $CFLAGS -fPIC -c -o "../$obj" "$src"; then
exit 1
fi
do_rebuild=1
fi
done
cd ..
if [ $do_rebuild -eq 1 ] || [ ! -f "${OUT}/lib/lib${LIB_NAME}.a" ]; then
echo "AR lib${LIB_NAME}.a"
if ! $AR rcs "${OUT}/lib/lib${LIB_NAME}.a" $objs; then
exit 1
fi
fi
if [ $do_rebuild -eq 1 ] || [ ! -f "${OUT}/lib/lib${LIB_NAME}.so" ]; then
echo "LD lib${LIB_NAME}.so"
if ! $CC -shared -o "${OUT}/lib/lib${LIB_NAME}.so" $objs ${LDFLAGS}; then
exit 1
fi
fi
cp "${BUILD}/${STUB}.o" "${OUT}/lib/${LIB_NAME}.o"
for src in $(find "${TOOLS}" -name '*.c'); do
out=$(basename "$src" .c)
out="${OUT}/bin/$out"
if [ $(mod_time "$src") -ge $(mod_time "$out") ] || [ $do_rebuild -eq 1 ]; then
echo "CC $(basename $out)"
mkdir -p "$(dirname $out)"
if ! $CC $CFLAGS -o "$out" "$src" "${OUT}/lib/${LIB_NAME}.o" "-L${OUT}/lib" "-l${LIB_NAME}" ${LDFLAGS}; then
exit 1
fi
fi
done
recipe_docs
}
recipe_examples() {
for src in $(find "${EXAMPLES}" -name '*.c'); do
out=$(basename "$src" .c)
out="${OUT}/bin/$out"
if [ $(mod_time "$src") -ge $(mod_time "$out") ]; then
echo "CC $(basename $out)"
mkdir -p "$(dirname $out)"
if ! $CC $CFLAGS -o "$out" "$src" "${OUT}/lib/${LIB_NAME}.o" "-L${OUT}/lib" "-l${LIB_NAME}" ${LDFLAGS}; then
exit 1
fi
fi
done
}
recipe_clean() {
rm -r "${BUILD}" "${OUT}"
}
# Update copyright comments in sources and header files.
recipe_license() {
find . -name '*.[ch]' | while IFS= read -r src; do
if [ -t 1 ]; then
printf "LICENSE %s%*c\r" $(basename "$src") "16" " "
fi
srcHeader=$(grep -n -m 1 '^ \*/' "$src" | cut -d ':' -f 1)
head "-n$srcHeader" "$src" |
diff -u -p - "${LICENSE}" |
patch "$src" | grep -v "^Hmm"
done
if [ -t 1 ]; then
printf "%*c\n" "50" " "
fi
}
# Format source code files by running indent(1) on them.
recipe_format() {
find . -name '*.c' | while IFS= read -r src; do
if [ -t 1 ]; then
printf "FMT %s%*c\r" $(basename "$src") "16" " "
fi
if indent "$src"; then
rm $(basename "$src").BAK
fi
done
if [ -t 1 ]; then
printf "%*c\n" "50" " "
fi
}
# Generate a release tarball, checksum and sign it, and push it to
# the web root.
recipe_release() {
# Tag the release at this point in time.
cvs tag "$CVS_TAG"
mkdir -p "${OUT}/release"
cd "${OUT}/release"
# Generate the release tarball.
cvs export "-r$CVS_TAG" "${NAME}"
mv "${NAME}" "${NAME}-v${VERSION}"
tar -czf "${NAME}-v${VERSION}.tar.gz" "${NAME}-v${VERSION}"
rm -r "${NAME}-v${VERSION}"
# Checksum the release tarball.
sha256 "${NAME}-v${VERSION}.tar.gz" > "${NAME}-v${VERSION}.tar.gz.sha256"
# Sign the release tarball.
if [ ! -z "${SIGNIFY_SECRET}" ]; then
signify -S -s "${SIGNIFY_SECRET}" \
-m "${NAME}-v${VERSION}.tar.gz" \
-x "${NAME}-v${VERSION}.tar.gz.sig"
else
echo "Warning: SIGNIFY_SECRET not net."
echo "The built tarball will not be signed."
fi
}
recipe_patch() {
# If the user has not set their MXID, try to deduce one from
# their system.
if [ -z "$MXID" ]; then
MXID="@${USER}:$(hostname)"
fi
# If the user has not set their EDITOR, use a safe default.
# (vi should be available on any POSIX system)
if [ -z "$EDITOR" ]; then
EDITOR=vi
fi
NORMALIZED_MXID=$(echo "$MXID" | sed -e 's/@//g' -e 's/:/-/g')
PATCH_FILE="${NORMALIZED_MXID}_$(date +%s).patch"
# Generate the actual patch file
# Here we write some nice headers, and then do a cvs diff.
(
printf 'From: "%s" <%s>\n' "$DISPLAY_NAME" "$MXID"
echo "Date: $(date)"
echo "Subject: "
echo
cvs -q diff -uNp $PATCHSET | grep -v '^\? '
) >"$PATCH_FILE"
"$EDITOR" "$PATCH_FILE"
echo "$PATCH_FILE"
}
recipe_diff() {
tmp_patch="/tmp/${NAME}-$(date +%s).patch"
cvs -q diff -uNp $PATCHSET >"$tmp_patch"
if [ -z "$PAGER" ]; then
PAGER="less -F"
fi
$PAGER "$tmp_patch"
rm "$tmp_patch"
}
# Execute the user-specified recipes.
for recipe in $@; do
recipe_$recipe
done
# If no recipe was provided, run a build.
if [ -z "$1" ]; then
recipe_build
fi

41
src/Array.c
View file

@ -317,12 +317,53 @@ ArrayUnique(Array * array, int (*compare) (void *, void *))
return ret;
}
/* Even though the following operations could be done using only the
* public Array API defined above, I opted for low-level struct
* manipulation because it allows much more efficient copying; we only
* allocate what we for sure need upfront, and don't have to
* re-allocate during the operation. */
Array *
ArrayReverse(Array * array)
{
Array *ret;
size_t i;
size_t size;
if (!array)
{
return NULL;
}
if (!array->size)
{
return ArrayCreate();
}
ret = Malloc(sizeof(Array));
size = array->size;
ret->size = size;
ret->allocated = size;
ret->entries = Malloc(sizeof(void *) * size);
if (!ret->entries)
{
Free(ret);
return NULL;
}
for (i = 0; i < size; i++)
{
ret->entries[i] = array->entries[size - i - 1];
}
return ret;
}
Array *
ArrayFromVarArgs(size_t n, va_list ap)
{

9
src/HttpRouter.c
View file

@ -196,7 +196,7 @@ HttpRouterRoute(HttpRouter * router, char *path, void *args, void **ret)
char *pathPart;
char *tmp;
HttpRouteFunc *exec = NULL;
Array *matches;
Array *matches = NULL;
size_t i;
int retval;
@ -254,14 +254,19 @@ HttpRouterRoute(HttpRouter * router, char *path, void *args, void **ret)
{
/* pmatch[0] is the whole string, not the first
* subexpression */
char *substr;
regmatch_t cpmatch;
for (i = 1; i < REG_MAX_SUB; i++)
{
cpmatch = pmatch[i];
substr = StrSubstr(pathPart, cpmatch.rm_so, cpmatch.rm_eo);
if (pmatch[i].rm_so == -1)
{
break;
}
ArrayAdd(matches, StrSubstr(pathPart, pmatch[i].rm_so, pmatch[i].rm_eo));
ArrayAdd(matches, substr);
}
}
}

4
src/Int64.c
View file

@ -67,12 +67,12 @@ Int64Str(Int64 x, int base, char *out, size_t len)
{
x = Int64Add(x, Int64Create(0, 1));
}
#if 0
#if 0
else if (Int64Eq(x, Int64Create(0x7FFFFFFF, 0xFFFFFFFF)))
{
x = Int64Sub(x, Int64Create(0, 1));
}
#endif
#endif
if (base != 2 && base != 8 && base != 16 && neg)
{

1
src/Str.c
View file

@ -147,7 +147,6 @@ StrSubstr(const char *inStr, size_t start, size_t end)
}
len = end - start;
outStr = Malloc(len + 1);
if (!outStr)
{

8
src/include/Array.h
View file

@ -151,6 +151,14 @@ extern void ArraySort(Array *, int (*) (void *, void *));
*/
extern Array *ArrayUnique(Array *, int (*) (void *, void *));
/**
* Reverses the order of all elements in the array into a new array on
* the heap, to be freed using
* .Fn ArrayFree .
*/
extern Array *ArrayReverse(Array *);
/**
* If possible, reduce the amount of memory allocated to this array
* by calling

2
tools/tp.c
View file

@ -527,7 +527,7 @@ end_loop:
size_t size;
size_t len;
char c;
int c;
Free(fileName);
if (!file)