calog/Makefile

497 lines
24 KiB
Makefile

# Build and test the calog broker core and engine adapters.
#
# Layout:
# src/ project source; one subdir per script language
# (src/lua, src/mybasic, src/squirrel); core + actor live in src/
# tests/ test programs
# vendor/ third-party engine sources, built from source (lua, mybasic,
# squirrel-src) -- no system engine packages, so the build is
# reproducible
# obj/ all object files (ours and the vendored engines)
# bin/ all binaries
#
# Core is strict (-Wconversion/-Wsign-conversion) + ASan/UBSan; adapters drop the
# two conversion warnings (engine headers use wide macros). Vendored engines build
# relaxed and un-sanitized but link into the sanitized binaries so cross-boundary
# heap misuse is still caught. -MMD/-MP generate header dependencies automatically.
CC = gcc
CXX = g++
STRICT = -Wall -Wextra -Werror -Wconversion -Wsign-conversion
WARN = -Wall -Wextra -Werror
SAN = -fsanitize=address,undefined
DEP = -MMD -MP
COREFLAGS = -std=c11 $(STRICT) $(DEP) -g -O1 $(SAN)
ADPFLAGS = -std=c11 $(WARN) $(DEP) -g -O1 $(SAN)
LDFLAGS = $(SAN)
# Our headers: src/ plus the per-language subdirs. VPATH lets the object rules find
# a source by name without spelling out its directory.
INC = -Isrc -Isrc/lua -Isrc/mybasic -Isrc/squirrel -Isrc/js -Isrc/berry -Isrc/s7 -Isrc/wren -Ilibs
VPATH = src:src/lua:src/mybasic:src/squirrel:src/js:src/berry:src/s7:src/wren:libs:tests
CORE = obj/value.o obj/broker.o
# --- vendored my-basic (C) ---
MBDIR = vendor/mybasic
MBINC = -I$(MBDIR)
MBFLAGS = -std=gnu11 -w -g -O1 -DMB_DOUBLE_FLOAT
# --- vendored Lua 5.4.6 (C) ---
# The platform define is chosen from uname, the way upstream Lua's own Makefile
# does, so the build is correct on Linux / macOS / other POSIX without hand-editing.
# LUA_USE_LINUX and _MACOSX enable dlopen-based package loading (loadlib.c); on
# Linux that needs -ldl. The standalone interpreter (lua.c, the only file that uses
# readline) is not built, so there is no readline dependency. The library is every
# src/*.c except the two standalone mains (lua.c, luac.c).
LUADIR = vendor/lua
LUAINC = -I$(LUADIR)/src
# Check $(OS) first -- Windows sets OS=Windows_NT in the environment (make inherits
# it) and has no `uname`, so probing uname there yields an empty string that would
# wrongly select POSIX. Only fall back to `uname` on Unix. (The rest of the project
# is Unix-only anyway -- pthreads, sanitizers, setarch -- so the Windows branch just
# keeps the Lua define correct, it does not by itself make a Windows build work.)
ifeq ($(OS),Windows_NT)
LUAPLAT =
LUAPLATLIBS =
else
UNAMES := $(shell uname -s)
ifeq ($(UNAMES),Linux)
LUAPLAT = -DLUA_USE_LINUX
LUAPLATLIBS = -ldl
else ifeq ($(UNAMES),Darwin)
LUAPLAT = -DLUA_USE_MACOSX
LUAPLATLIBS =
else
LUAPLAT = -DLUA_USE_POSIX
LUAPLATLIBS =
endif
endif
LUAFLAGS = -std=c99 -w -g -O2 $(LUAPLAT)
LUASRC = $(filter-out $(LUADIR)/src/lua.c $(LUADIR)/src/luac.c, $(wildcard $(LUADIR)/src/*.c))
LUAOBJ = $(patsubst $(LUADIR)/src/%.c,obj/%.o,$(LUASRC))
LUALIBS = $(LUAPLATLIBS) -lm
# --- vendored Squirrel 3.2 (C++) ---
# -D_SQ64 -DSQUSEDOUBLE so SQInteger/SQFloat are 64-bit int / double; the adapter
# MUST share those defines so the ABI (object layout) matches the VM.
SQDIR = vendor/squirrel-src
SQDEF = -D_SQ64 -DSQUSEDOUBLE
SQINC = -I$(SQDIR)/include
SQXXFLAGS = -std=c++11 -w -g -O1 $(SQDEF) $(SQINC) -I$(SQDIR)/squirrel
SQSRC = $(wildcard $(SQDIR)/squirrel/*.cpp)
SQOBJ = $(patsubst $(SQDIR)/squirrel/%.cpp,obj/%.o,$(SQSRC))
# --- vendored QuickJS-ng (C, JavaScript, ES2023+). The core library is these four
# .c files (cutils is header-only now). Needs -D_GNU_SOURCE: cutils.h uses
# clock_gettime(CLOCK_MONOTONIC). ---
QJSDIR = vendor/quickjs
QJSINC = -I$(QJSDIR)
QJSFLAGS = -std=c11 -w -g -O1 -D_GNU_SOURCE
QJSOBJ = obj/quickjs.o obj/libregexp.o obj/libunicode.o obj/dtoa.o
# --- vendored Berry (C). The library is every src/*.c; its build needs the coc-
# generated headers under generate/ (regenerate with tools/coc from upstream) and
# berry_conf.h. BE_INTGER_TYPE=2 in berry_conf.h gives 64-bit ints. ---
# The library is every src/*.c plus the OS port (default/be_port.c) and the built-in
# module/class tables (default/be_modtab.c); the standalone REPL (default/berry.c) is
# omitted. src/ and default/ file names do not collide, so objects use $(notdir ...).
BERRYDIR = vendor/berry
BERRYINC = -I$(BERRYDIR)/src -I$(BERRYDIR)
BERRYFLAGS = -std=c99 -w -g -O1
BERRYSRC = $(wildcard $(BERRYDIR)/src/*.c) $(BERRYDIR)/default/be_port.c $(BERRYDIR)/default/be_modtab.c
BERRYOBJ = $(foreach f,$(BERRYSRC),obj/$(notdir $(f:.c=)).o)
# --- vendored s7 Scheme (C, single file). Needs -D_GNU_SOURCE (struct timezone) and,
# at link, -ldl (its optional C loader uses dlopen) + -lm. mus-config.h is our minimal
# feature config; s7 int is 64-bit and strings are binary-safe. ---
S7DIR = vendor/s7
S7INC = -I$(S7DIR)
S7FLAGS = -std=c99 -w -g -O1 -D_GNU_SOURCE
S7OBJ = obj/s7.o
S7LIBS = -ldl -lm
# --- vendored Wren (C, amalgamated single file wren.c + wren.h; regenerate via
# util/generate_amalgamation.py from upstream). Links -lm. ---
WRENDIR = vendor/wren
WRENINC = -I$(WRENDIR)
WRENFLAGS = -std=c99 -w -g -O1
WRENOBJ = obj/wren.o
WRENLIBS = -lm
# --- vendored SQLite (C amalgamation, single file). THREADSAFE=1 (serialized) because
# the DB natives run inline on many context threads. Links -lm -lpthread. ---
SQLITEDIR = vendor/sqlite
SQLITEINC = -I$(SQLITEDIR)
SQLITEFLAGS = -std=c11 -w -g -O2 -DSQLITE_THREADSAFE=1 -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_FTS5 -DSQLITE_OMIT_LOAD_EXTENSION
SQLITEOBJ = obj/sqlite3.o
SQLITELIBS = -lm -lpthread
# --- vendored ENet (reliable UDP; all sources except win32.c) for calogNet's ENet backend.
ENETDIR = vendor/enet
ENETINC = -I$(ENETDIR)/include
ENETFLAGS = -std=c11 -w -g -O2 -D_GNU_SOURCE -DHAS_FCNTL=1 -DHAS_POLL=1 -DHAS_GETADDRINFO=1 -DHAS_GETNAMEINFO=1 -DHAS_GETHOSTBYNAME_R=1 -DHAS_GETHOSTBYADDR_R=1 -DHAS_INET_PTON=1 -DHAS_INET_NTOP=1 -DHAS_MSGHDR_FLAGS=1 -DHAS_SOCKLEN_T=1
ENETNAMES = callbacks compress host list packet peer protocol unix
ENETOBJ = $(foreach n,$(ENETNAMES),obj/enet_$(n).o)
BINS = bin/testBroker bin/testLua bin/testMyBasic bin/testPolyglot bin/testActor \
bin/testEngineLua bin/testEngineMyBasic bin/testSquirrel bin/testEngineSquirrel bin/testJs bin/testEngineJs \
bin/testEngineBerry bin/testEngineS7 bin/testEngineWren bin/testLoad bin/testDb bin/testNet bin/testTask bin/testExport bin/embed
all: $(BINS)
# ---- object rules, grouped by flag set (sources resolved via VPATH) ----
# strict C, no threads
STRICTOBJ = obj/broker.o obj/value.o obj/luaEngine.o obj/squirrelEngine.o obj/jsEngine.o obj/berryEngine.o obj/s7Engine.o obj/wrenEngine.o obj/testBroker.o
$(STRICTOBJ): obj/%.o: %.c | obj
$(CC) $(COREFLAGS) $(INC) -c -o $@ $<
# strict C, threaded
THREADOBJ = obj/context.o obj/mybasicEngine.o obj/testActor.o obj/testEngineLua.o obj/testEngineSquirrel.o obj/testEngineJs.o obj/testEngineMyBasic.o obj/testEngineBerry.o obj/testEngineS7.o obj/testEngineWren.o obj/calogHandle.o obj/testDb.o obj/testNet.o obj/testTask.o obj/calogExport.o obj/testExport.o
$(THREADOBJ): obj/%.o: %.c | obj
$(CC) $(COREFLAGS) $(INC) -pthread -c -o $@ $<
# relaxed C + Lua headers
LUAADP = obj/luaAdapter.o obj/testLua.o
$(LUAADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(LUAINC) -c -o $@ $<
# relaxed C + my-basic headers
MBADP = obj/mybasicAdapter.o obj/testMyBasic.o
$(MBADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(MBINC) -DMB_DOUBLE_FLOAT -c -o $@ $<
# relaxed C + Squirrel headers
SQADP = obj/squirrelAdapter.o obj/testSquirrel.o
$(SQADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(SQDEF) $(SQINC) -c -o $@ $<
# relaxed C + QuickJS headers
JSADP = obj/jsAdapter.o obj/testJs.o
$(JSADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(QJSINC) -c -o $@ $<
# relaxed C + Berry headers
BERRYADP = obj/berryAdapter.o
$(BERRYADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(BERRYINC) -c -o $@ $<
# relaxed C + s7 headers
S7ADP = obj/s7Adapter.o
$(S7ADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(S7INC) -c -o $@ $<
# relaxed C + Wren headers
WRENADP = obj/wrenAdapter.o
$(WRENADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(WRENINC) -c -o $@ $<
# DB library adapter: relaxed C + SQLite headers, sqlite backend compiled in
DBADP = obj/calogDb.o
$(DBADP): obj/%.o: %.c | obj
$(CC) $(ADPFLAGS) $(INC) $(SQLITEINC) -DCALOG_WITH_SQLITE -c -o $@ $<
# network library: strict C + ENet headers, ENet backend compiled in (self-contained, so
# always enabled -- unlike the DB clients, ENet needs no server)
NETADP = obj/calogNet.o
$(NETADP): obj/%.o: %.c | obj
$(CC) $(COREFLAGS) $(INC) $(ENETINC) -DCALOG_WITH_ENET -pthread -c -o $@ $<
# task library: strict C with every engine name compiled in (it references each engine
# vtable under its CALOG_WITH_* guard), so a task-using binary links all engine archives.
ENGINEDEFS = -DCALOG_WITH_LUA -DCALOG_WITH_JS -DCALOG_WITH_SQUIRREL -DCALOG_WITH_MYBASIC -DCALOG_WITH_BERRY -DCALOG_WITH_S7 -DCALOG_WITH_WREN
TASKADP = obj/calogTask.o
$(TASKADP): obj/%.o: %.c | obj
$(CC) $(COREFLAGS) $(INC) $(ENGINEDEFS) -pthread -c -o $@ $<
# polyglot test pulls in both Lua and my-basic
obj/testPolyglot.o: testPolyglot.c | obj
$(CC) $(ADPFLAGS) $(INC) $(LUAINC) $(MBINC) -DMB_DOUBLE_FLOAT -c -o $@ $<
# ---- vendored engine objects (also land in obj/) ----
obj/myBasic.o: $(MBDIR)/myBasic.c | obj
$(CC) $(MBFLAGS) -c -o $@ $<
obj/%.o: $(LUADIR)/src/%.c | obj
$(CC) $(LUAFLAGS) -c -o $@ $<
obj/%.o: $(SQDIR)/squirrel/%.cpp | obj
$(CXX) $(SQXXFLAGS) -c -o $@ $<
obj/%.o: $(QJSDIR)/%.c | obj
$(CC) $(QJSFLAGS) $(QJSINC) -c -o $@ $<
obj/%.o: $(BERRYDIR)/src/%.c | obj
$(CC) $(BERRYFLAGS) $(BERRYINC) -c -o $@ $<
obj/%.o: $(BERRYDIR)/default/%.c | obj
$(CC) $(BERRYFLAGS) $(BERRYINC) -c -o $@ $<
obj/s7.o: $(S7DIR)/s7.c | obj
$(CC) $(S7FLAGS) $(S7INC) -c -o $@ $<
obj/wren.o: $(WRENDIR)/wren.c | obj
$(CC) $(WRENFLAGS) $(WRENINC) -c -o $@ $<
obj/sqlite3.o: $(SQLITEDIR)/sqlite3.c | obj
$(CC) $(SQLITEFLAGS) $(SQLITEINC) -c -o $@ $<
obj/enet_%.o: $(ENETDIR)/%.c | obj
$(CC) $(ENETFLAGS) $(ENETINC) -c -o $@ $<
# ---- library archives ----
# libcalog.a is calog itself (core + actor + every engine adapter/binding). The
# vendored engines are separate archives; a host links libcalog.a plus whichever
# engine archives it uses -- unused adapters, and their engine deps, stay unlinked
# (static members are pulled only when referenced). See examples/embed.c.
CALOGLIB = obj/value.o obj/broker.o obj/context.o \
obj/luaAdapter.o obj/luaEngine.o obj/jsAdapter.o obj/jsEngine.o \
obj/squirrelAdapter.o obj/squirrelEngine.o obj/mybasicAdapter.o obj/mybasicEngine.o \
obj/berryAdapter.o obj/berryEngine.o obj/s7Adapter.o obj/s7Engine.o obj/wrenAdapter.o obj/wrenEngine.o
lib/libcalog.a: $(CALOGLIB) | lib
ar rcs $@ $^
lib/liblua.a: $(LUAOBJ) | lib
ar rcs $@ $^
lib/libquickjs.a: $(QJSOBJ) | lib
ar rcs $@ $^
lib/libsquirrel.a: $(SQOBJ) | lib
ar rcs $@ $^
lib/libmybasic.a: obj/myBasic.o | lib
ar rcs $@ $^
lib/libberry.a: $(BERRYOBJ) | lib
ar rcs $@ $^
lib/libs7.a: $(S7OBJ) | lib
ar rcs $@ $^
lib/libwren.a: $(WRENOBJ) | lib
ar rcs $@ $^
lib/libsqlite3.a: $(SQLITEOBJ) | lib
ar rcs $@ $^
lib/libenet.a: $(ENETOBJ) | lib
ar rcs $@ $^
# ---- binaries (link libcalog.a + the vendored engine archives they use) ----
bin/testBroker: obj/testBroker.o lib/libcalog.a | bin
$(CC) $(LDFLAGS) -o $@ $^
bin/testActor: obj/testActor.o lib/libcalog.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^
bin/testLua: obj/testLua.o lib/libcalog.a lib/liblua.a | bin
$(CC) $(LDFLAGS) -o $@ $^ $(LUALIBS)
bin/testEngineLua: obj/testEngineLua.o lib/libcalog.a lib/liblua.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(LUALIBS)
# DB library test: calog + the DB library + vendored SQLite, driven from Lua.
bin/testDb: obj/testDb.o obj/calogDb.o obj/calogHandle.o lib/libcalog.a lib/liblua.a lib/libsqlite3.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(LUALIBS) $(SQLITELIBS)
# network library test: calog + the network library + vendored ENet, driven from Lua
# (TCP/UDP/ENet loopback).
bin/testNet: obj/testNet.o $(NETADP) obj/calogHandle.o lib/libcalog.a lib/liblua.a lib/libenet.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(LUALIBS)
# --- optional Postgres + MySQL DB-client tests. They pull in the vendored client archives
# + OpenSSL (PG archives need a link group), and their live round-trips need a running
# server, so they are opt-in and NOT part of `make test`. Build both with `make db-clients`,
# then run each with a connection string (see tests/testDbPg.c and tests/testDbMysql.c). ---
PGINC = -Ivendor/postgres/src/interfaces/libpq -Ivendor/postgres/src/include
PGARCHIVES = vendor/postgres/src/interfaces/libpq/libpq.a vendor/postgres/src/common/libpgcommon_shlib.a vendor/postgres/src/port/libpgport_shlib.a
MYSQLINC = -Ivendor/mariadb/include -Ivendor/mariadb/build/include
MYSQLARCH = vendor/mariadb/build/libmariadb/libmariadbclient.a
SSLARCH = vendor/openssl/libssl.a vendor/openssl/libcrypto.a
DBCLIENTOBJ = obj/testDbPg.o obj/testDbMysql.o
obj/calogDbFull.o: libs/calogDb.c | obj
$(CC) $(ADPFLAGS) $(INC) $(SQLITEINC) $(PGINC) $(MYSQLINC) -DCALOG_WITH_SQLITE -DCALOG_WITH_PG -DCALOG_WITH_MYSQL -c -o $@ $<
$(DBCLIENTOBJ): obj/%.o: %.c | obj
$(CC) $(COREFLAGS) $(INC) -pthread -c -o $@ $<
bin/testDbPg: obj/testDbPg.o obj/calogDbFull.o obj/calogHandle.o lib/libcalog.a lib/liblua.a lib/libsqlite3.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -Wl,--start-group $(PGARCHIVES) -Wl,--end-group $(MYSQLARCH) $(SSLARCH) $(LUALIBS) $(SQLITELIBS)
bin/testDbMysql: obj/testDbMysql.o obj/calogDbFull.o obj/calogHandle.o lib/libcalog.a lib/liblua.a lib/libsqlite3.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -Wl,--start-group $(PGARCHIVES) -Wl,--end-group $(MYSQLARCH) $(SSLARCH) $(LUALIBS) $(SQLITELIBS)
.PHONY: db-clients
db-clients: bin/testDbPg bin/testDbMysql
bin/testMyBasic: obj/testMyBasic.o lib/libcalog.a lib/libmybasic.a | bin
$(CC) $(LDFLAGS) -o $@ $^ -lm
bin/testEngineMyBasic: obj/testEngineMyBasic.o lib/libcalog.a lib/libmybasic.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -lm
bin/testPolyglot: obj/testPolyglot.o lib/libcalog.a lib/liblua.a lib/libmybasic.a | bin
$(CC) $(LDFLAGS) -o $@ $^ $(LUALIBS)
bin/testSquirrel: obj/testSquirrel.o lib/libcalog.a lib/libsquirrel.a | bin
$(CC) $(LDFLAGS) -o $@ $^ -lstdc++ -lm
bin/testEngineSquirrel: obj/testEngineSquirrel.o lib/libcalog.a lib/libsquirrel.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -lstdc++ -lm
bin/testJs: obj/testJs.o lib/libcalog.a lib/libquickjs.a | bin
$(CC) $(LDFLAGS) -o $@ $^ -lm
bin/testEngineJs: obj/testEngineJs.o lib/libcalog.a lib/libquickjs.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -lm
bin/testEngineBerry: obj/testEngineBerry.o lib/libcalog.a lib/libberry.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -lm
bin/testEngineS7: obj/testEngineS7.o lib/libcalog.a lib/libs7.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(S7LIBS)
bin/testEngineWren: obj/testEngineWren.o lib/libcalog.a lib/libwren.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(WRENLIBS)
# example host: embeds calog + JS via calog.h only, linking the two archives.
obj/embed.o: examples/embed.c src/calog.h | obj
$(CC) $(COREFLAGS) -Isrc -pthread -c -o $@ $<
bin/embed: obj/embed.o lib/libcalog.a lib/libquickjs.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ -lm
# ---- fully-static build --------------------------------------------------------------
# A self-contained calog executable with NO shared-library dependencies at runtime. The
# calog objects are recompiled without sanitizers (ASan does not support -static) into
# obj/rel/; the vendored archives (lua/sqlite/enet) are already un-sanitized and reused.
# The example embeds Lua + the SQLite DB library + the network library. Build + run with
# `make static`. (Static glibc cannot resolve names or dlopen C modules -- see
# examples/staticDemo.c; the dlopen/getaddrinfo link warnings are expected and harmless
# for a binary that uses neither.)
RELFLAGS = -std=c11 $(WARN) $(DEP) -O2
RELOBJ = obj/rel/value.o obj/rel/broker.o obj/rel/context.o obj/rel/luaEngine.o obj/rel/luaAdapter.o obj/rel/calogHandle.o obj/rel/calogDb.o obj/rel/calogNet.o
obj/rel:
mkdir -p obj/rel
$(RELOBJ): obj/rel/%.o: %.c | obj/rel
$(CC) $(RELFLAGS) $(INC) $(LUAINC) $(SQLITEINC) $(ENETINC) -DCALOG_WITH_SQLITE -DCALOG_WITH_ENET -pthread -c -o $@ $<
obj/rel/staticDemo.o: examples/staticDemo.c src/calog.h libs/calogDb.h libs/calogNet.h | obj/rel
$(CC) $(RELFLAGS) $(INC) -pthread -c -o $@ $<
bin/calogStatic: obj/rel/staticDemo.o $(RELOBJ) lib/liblua.a lib/libsqlite3.a lib/libenet.a | bin
$(CC) -static -pthread -o $@ $^ $(LUALIBS) $(SQLITELIBS)
.PHONY: static
static: bin/calogStatic
@file bin/calogStatic | grep -q "statically linked" && echo "== bin/calogStatic is fully static ==" || { echo "== NOT statically linked! =="; exit 1; }
@echo "runtime shared-lib deps:"; ldd bin/calogStatic 2>&1 | sed 's/^/ /'
./bin/calogStatic
# load test: links every engine (compiled with all CALOG_WITH_* engine flags) so it
# exercises calogContextLoad + calogRegisterBuiltinEngines across all four languages --
# including my-basic under the actor model. Uses only calog.h (the extern engine vtables).
obj/testLoad.o: tests/testLoad.c src/calog.h | obj
$(CC) $(COREFLAGS) -Isrc -pthread -DCALOG_WITH_LUA -DCALOG_WITH_JS -DCALOG_WITH_SQUIRREL -DCALOG_WITH_MYBASIC -DCALOG_WITH_BERRY -DCALOG_WITH_S7 -DCALOG_WITH_WREN -c -o $@ $<
bin/testLoad: obj/testLoad.o lib/libcalog.a lib/liblua.a lib/libquickjs.a lib/libsquirrel.a lib/libmybasic.a lib/libberry.a lib/libs7.a lib/libwren.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(LUALIBS) -lstdc++ -lm
# task library test: the task lib names every engine, so (like testLoad) it links them all.
bin/testTask: obj/testTask.o $(TASKADP) obj/calogHandle.o lib/libcalog.a lib/liblua.a lib/libquickjs.a lib/libsquirrel.a lib/libmybasic.a lib/libberry.a lib/libs7.a lib/libwren.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(LUALIBS) -lstdc++ -lm
# export library test: publish from Lua, call by bare name from Lua + via callExport from JS.
bin/testExport: obj/testExport.o obj/calogExport.o lib/libcalog.a lib/liblua.a lib/libquickjs.a lib/libsquirrel.a lib/libs7.a | bin
$(CC) $(LDFLAGS) -pthread -o $@ $^ $(LUALIBS) -lstdc++ -ldl -lm
obj bin lib:
mkdir -p $@
test: all
./bin/testBroker && ./bin/testLua && ./bin/testMyBasic && ./bin/testPolyglot && \
./bin/testActor && ./bin/testEngineLua && ./bin/testEngineMyBasic && ./bin/testSquirrel && ./bin/testEngineSquirrel && \
./bin/testJs && ./bin/testEngineJs && ./bin/testEngineBerry && ./bin/testEngineS7 && ./bin/testEngineWren && ./bin/testLoad && ./bin/testDb && ./bin/testNet && ./bin/testTask && ./bin/testExport
# ThreadSanitizer build of the actor core and the Lua engine path (cannot combine
# with ASan). Recompiled from source under TSan; the vendored Lua objects are
# linked un-sanitized (each VM is single-threaded, so that is sound). Run under
# `setarch -R` (ASLR off): some kernels hand out more mmap randomization than TSan's
# shadow allocator tolerates, which aborts it before any test runs.
tsan: $(LUAOBJ) | bin
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) -o bin/testActorTsan \
tests/testActor.c src/context.c src/value.c src/broker.c
setarch -R ./bin/testActorTsan
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(LUAINC) -o bin/testEngineLuaTsan \
tests/testEngineLua.c src/lua/luaEngine.c src/lua/luaAdapter.c src/context.c src/value.c src/broker.c \
$(LUAOBJ) $(LUALIBS)
setarch -R ./bin/testEngineLuaTsan
# ThreadSanitizer build of the Squirrel engine path: the vendored VM is recompiled
# under TSan here (throwaway obj/*.tsan.o) so races are caught across the whole
# stack. Slower than `tsan`, so kept separate.
tsansq: $(SQSRC) | bin obj
for f in $(SQSRC); do $(CXX) $(SQXXFLAGS) -fsanitize=thread -c $$f -o obj/$$(basename $${f%.cpp}).tsan.o; done
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(SQDEF) $(SQINC) -o bin/testEngineSquirrelTsan \
tests/testEngineSquirrel.c src/squirrel/squirrelEngine.c src/squirrel/squirrelAdapter.c \
src/context.c src/value.c src/broker.c \
$(patsubst $(SQDIR)/squirrel/%.cpp,obj/%.tsan.o,$(SQSRC)) -lstdc++ -lm
setarch -R ./bin/testEngineSquirrelTsan
rm -f $(patsubst $(SQDIR)/squirrel/%.cpp,obj/%.tsan.o,$(SQSRC))
# ThreadSanitizer build of the JS engine path: the vendored QuickJS core is
# recompiled under TSan (throwaway objs) so races are caught across the whole stack.
tsanjs: | bin obj
for f in quickjs libregexp libunicode dtoa; do $(CC) $(QJSFLAGS) $(QJSINC) -fsanitize=thread -c $(QJSDIR)/$$f.c -o obj/$$f.tsan.o; done
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(QJSINC) -o bin/testEngineJsTsan \
tests/testEngineJs.c src/js/jsEngine.c src/js/jsAdapter.c src/context.c src/value.c src/broker.c \
obj/quickjs.tsan.o obj/libregexp.tsan.o obj/libunicode.tsan.o obj/dtoa.tsan.o -lm
setarch -R ./bin/testEngineJsTsan
rm -f obj/quickjs.tsan.o obj/libregexp.tsan.o obj/libunicode.tsan.o obj/dtoa.tsan.o
# ThreadSanitizer build of the my-basic engine path: the vendored interpreter is
# recompiled under TSan (throwaway obj) so the engine's serialization of my-basic's
# process-global state (mb_init singletons, the _mb_allocated counter) is verified
# across the whole stack -- it races without the engine lock.
tsanmb: | bin obj
$(CC) $(MBFLAGS) -fsanitize=thread -c $(MBDIR)/myBasic.c -o obj/myBasic.tsan.o
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(MBINC) -DMB_DOUBLE_FLOAT -o bin/testEngineMyBasicTsan \
tests/testEngineMyBasic.c src/mybasic/mybasicEngine.c src/mybasic/mybasicAdapter.c src/context.c src/value.c src/broker.c \
obj/myBasic.tsan.o -lm
setarch -R ./bin/testEngineMyBasicTsan
rm -f obj/myBasic.tsan.o
# ThreadSanitizer build of the Berry engine path: the vendored VM is recompiled under
# TSan (throwaway objs) so races are caught across the whole stack.
tsanberry: | bin obj
for f in $(BERRYSRC); do $(CC) $(BERRYFLAGS) $(BERRYINC) -fsanitize=thread -c $$f -o obj/$$(basename $${f%.c}).tsan.o; done
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(BERRYINC) -o bin/testEngineBerryTsan \
tests/testEngineBerry.c src/berry/berryEngine.c src/berry/berryAdapter.c src/context.c src/value.c src/broker.c \
$(foreach f,$(BERRYSRC),obj/$(notdir $(f:.c=)).tsan.o) -lm
setarch -R ./bin/testEngineBerryTsan
rm -f $(foreach f,$(BERRYSRC),obj/$(notdir $(f:.c=)).tsan.o)
# ThreadSanitizer build of the s7 engine path: the vendored interpreter is recompiled
# under TSan (throwaway obj) so races are caught across the whole stack.
tsans7: | bin obj
$(CC) $(S7FLAGS) $(S7INC) -fsanitize=thread -c $(S7DIR)/s7.c -o obj/s7.tsan.o
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(S7INC) -o bin/testEngineS7Tsan \
tests/testEngineS7.c src/s7/s7Engine.c src/s7/s7Adapter.c src/context.c src/value.c src/broker.c \
obj/s7.tsan.o $(S7LIBS)
setarch -R ./bin/testEngineS7Tsan
rm -f obj/s7.tsan.o
# ThreadSanitizer build of the Wren engine path: the vendored VM is recompiled under
# TSan (throwaway obj) so races are caught across the whole stack.
tsanwren: | bin obj
$(CC) $(WRENFLAGS) $(WRENINC) -fsanitize=thread -c $(WRENDIR)/wren.c -o obj/wren.tsan.o
$(CC) -std=c11 $(WARN) -g -O1 -fsanitize=thread -pthread $(INC) $(WRENINC) -o bin/testEngineWrenTsan \
tests/testEngineWren.c src/wren/wrenEngine.c src/wren/wrenAdapter.c src/context.c src/value.c src/broker.c \
obj/wren.tsan.o $(WRENLIBS)
setarch -R ./bin/testEngineWrenTsan
rm -f obj/wren.tsan.o
clean:
rm -rf obj bin lib
-include $(wildcard obj/*.d)
-include $(wildcard obj/rel/*.d)
.PHONY: all test tsan tsansq tsanjs tsanmb tsanberry tsans7 tsanwren clean