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emscripten.py
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# Copyright 2010 The Emscripten Authors. All rights reserved.
# Emscripten is available under two separate licenses, the MIT license and the
# University of Illinois/NCSA Open Source License. Both these licenses can be
# found in the LICENSE file.
"""A small wrapper script around the core JS compiler. This calls that
compiler with the settings given to it. It can also read data from C/C++
header files (so that the JS compiler can see the constants in those
headers, for the libc implementation in JS).
"""
from tools.toolchain_profiler import ToolchainProfiler
import os
import json
import subprocess
import time
import logging
import pprint
import shutil
from tools import building
from tools import cache
from tools import diagnostics
from tools import js_manipulation
from tools import shared
from tools import utils
from tools import gen_struct_info
from tools import webassembly
from tools import extract_metadata
from tools.utils import exit_with_error, path_from_root
from tools.shared import DEBUG, WINDOWS, asmjs_mangle
from tools.shared import treat_as_user_function, strip_prefix
from tools.settings import settings
logger = logging.getLogger('emscripten')
def compute_minimal_runtime_initializer_and_exports(post, exports, receiving):
# Declare all exports out to global JS scope so that JS library functions can access them in a
# way that minifies well with Closure
# e.g. var a,b,c,d,e,f;
exports_that_are_not_initializers = [x for x in exports if x not in building.WASM_CALL_CTORS]
# In Wasm backend the exports are still unmangled at this point, so mangle the names here
exports_that_are_not_initializers = [asmjs_mangle(x) for x in exports_that_are_not_initializers]
# Decide whether we should generate the global dynCalls dictionary for the dynCall() function?
if settings.DYNCALLS and '$dynCall' in settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE and len([x for x in exports_that_are_not_initializers if x.startswith('dynCall_')]) > 0:
exports_that_are_not_initializers += ['dynCalls = {}']
declares = 'var ' + ',\n '.join(exports_that_are_not_initializers) + ';'
post = shared.do_replace(post, '<<< WASM_MODULE_EXPORTS_DECLARES >>>', declares)
# Generate assignments from all wasm exports out to the JS variables above: e.g. a = asm['a']; b = asm['b'];
post = shared.do_replace(post, '<<< WASM_MODULE_EXPORTS >>>', receiving)
return post
def write_output_file(outfile, module):
for i in range(len(module)): # do this loop carefully to save memory
module[i] = normalize_line_endings(module[i])
outfile.write(module[i])
def optimize_syscalls(declares):
"""Disables filesystem if only a limited subset of syscalls is used.
Our syscalls are static, and so if we see a very limited set of them - in particular,
no open() syscall and just simple writing - then we don't need full filesystem support.
If FORCE_FILESYSTEM is set, we can't do this. We also don't do it if INCLUDE_FULL_LIBRARY, since
not including the filesystem would mean not including the full JS libraries, and the same for
MAIN_MODULE since a side module might need the filesystem.
"""
relevant_settings = ['FORCE_FILESYSTEM', 'INCLUDE_FULL_LIBRARY', 'MAIN_MODULE']
if any(settings[s] for s in relevant_settings):
return
if settings.FILESYSTEM == 0:
# without filesystem support, it doesn't matter what syscalls need
settings.SYSCALLS_REQUIRE_FILESYSTEM = 0
else:
syscall_prefixes = ('__syscall_', 'fd_')
syscalls = {d for d in declares if d.startswith(syscall_prefixes)}
# check if the only filesystem syscalls are in: close, ioctl, llseek, write
# (without open, etc.. nothing substantial can be done, so we can disable
# extra filesystem support in that case)
if syscalls.issubset({
'__syscall_ioctl',
'fd_seek',
'fd_write',
'fd_close',
'fd_fdstat_get',
}):
if DEBUG:
logger.debug('very limited syscalls (%s) so disabling full filesystem support', ', '.join(str(s) for s in syscalls))
settings.SYSCALLS_REQUIRE_FILESYSTEM = 0
def is_int(x):
try:
int(x)
return True
except ValueError:
return False
def align_memory(addr):
return (addr + 15) & -16
def get_weak_imports(main_wasm):
dylink_sec = webassembly.parse_dylink_section(main_wasm)
for symbols in dylink_sec.import_info.values():
for symbol, flags in symbols.items():
if flags & webassembly.SYMBOL_BINDING_MASK == webassembly.SYMBOL_BINDING_WEAK:
settings.WEAK_IMPORTS.append(symbol)
def update_settings_glue(wasm_file, metadata):
optimize_syscalls(metadata.imports)
# Integrate info from backend
if settings.SIDE_MODULE:
# we don't need any JS library contents in side modules
settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE = []
else:
syms = settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE + metadata.imports
syms = set(syms).difference(metadata.exports)
settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE = sorted(syms)
if settings.MAIN_MODULE:
get_weak_imports(wasm_file)
settings.WASM_EXPORTS = metadata.exports + list(metadata.namedGlobals.keys())
settings.WASM_EXPORTS += list(metadata.emJsFuncs.keys())
# Store function exports so that Closure and metadce can track these even in
# -sDECLARE_ASM_MODULE_EXPORTS=0 builds.
settings.WASM_FUNCTION_EXPORTS = metadata.exports
settings.HAVE_EM_ASM = bool(settings.MAIN_MODULE or len(metadata.asmConsts) != 0)
# start with the MVP features, and add any detected features.
settings.BINARYEN_FEATURES = ['--mvp-features'] + metadata.features
if settings.ASYNCIFY == 2:
settings.BINARYEN_FEATURES += ['--enable-reference-types']
if settings.USE_PTHREADS:
assert '--enable-threads' in settings.BINARYEN_FEATURES
if settings.MEMORY64:
assert '--enable-memory64' in settings.BINARYEN_FEATURES
settings.HAS_MAIN = bool(settings.MAIN_MODULE) or settings.PROXY_TO_PTHREAD or settings.STANDALONE_WASM or 'main' in settings.WASM_EXPORTS or '__main_argc_argv' in settings.WASM_EXPORTS
if settings.HAS_MAIN and not settings.MINIMAL_RUNTIME:
# Dependencies of `callMain`
settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE += ['$exitJS', '$handleException']
# When using dynamic linking the main function might be in a side module.
# To be safe assume they do take input parametes.
settings.MAIN_READS_PARAMS = metadata.mainReadsParams or bool(settings.MAIN_MODULE)
if settings.MAIN_READS_PARAMS and not settings.STANDALONE_WASM:
# callMain depends on this library function
settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE += ['$allocateUTF8OnStack']
if settings.STACK_OVERFLOW_CHECK and not settings.SIDE_MODULE:
# writeStackCookie and checkStackCookie both rely on emscripten_stack_get_end being
# exported. In theory it should always be present since its defined in compiler-rt.
assert 'emscripten_stack_get_end' in metadata.exports
for deps in metadata.jsDeps:
settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE.extend(deps.split(','))
def apply_static_code_hooks(forwarded_json, code):
code = shared.do_replace(code, '<<< ATINITS >>>', str(forwarded_json['ATINITS']))
if settings.HAS_MAIN:
code = shared.do_replace(code, '<<< ATMAINS >>>', str(forwarded_json['ATMAINS']))
if settings.EXIT_RUNTIME and (not settings.MINIMAL_RUNTIME or settings.HAS_MAIN):
code = shared.do_replace(code, '<<< ATEXITS >>>', str(forwarded_json['ATEXITS']))
return code
def compile_javascript(symbols_only=False):
stderr_file = os.environ.get('EMCC_STDERR_FILE')
if stderr_file:
stderr_file = os.path.abspath(stderr_file)
logger.info('logging stderr in js compiler phase into %s' % stderr_file)
stderr_file = open(stderr_file, 'w')
# Save settings to a file to work around v8 issue 1579
with shared.get_temp_files().get_file('.json') as settings_file:
with open(settings_file, 'w') as s:
json.dump(settings.external_dict(), s, sort_keys=True, indent=2)
# Call js compiler
env = os.environ.copy()
env['EMCC_BUILD_DIR'] = os.getcwd()
args = [settings_file]
if symbols_only:
args += ['--symbols-only']
out = shared.run_js_tool(path_from_root('src/compiler.js'),
args, stdout=subprocess.PIPE, stderr=stderr_file,
cwd=path_from_root('src'), env=env, encoding='utf-8')
if symbols_only:
glue = None
forwarded_data = out
else:
assert '//FORWARDED_DATA:' in out, 'Did not receive forwarded data in pre output - process failed?'
glue, forwarded_data = out.split('//FORWARDED_DATA:')
return glue, forwarded_data
def set_memory(static_bump):
stack_low = align_memory(settings.GLOBAL_BASE + static_bump)
stack_high = align_memory(stack_low + settings.STACK_SIZE)
settings.STACK_HIGH = stack_high
settings.STACK_LOW = stack_low
settings.HEAP_BASE = align_memory(stack_high)
def report_missing_symbols(js_symbols):
# Report any symbol that was explicitly exported but is present neither
# as a native function nor as a JS library function.
defined_symbols = set(asmjs_mangle(e) for e in settings.WASM_EXPORTS).union(js_symbols)
missing = set(settings.USER_EXPORTED_FUNCTIONS) - defined_symbols
for symbol in sorted(missing):
diagnostics.warning('undefined', f'undefined exported symbol: "{symbol}"')
# Special hanlding for the `_main` symbol
if settings.STANDALONE_WASM:
# standalone mode doesn't use main, and it always reports missing entry point at link time.
# In this mode we never expect _main in the export list.
return
if settings.IGNORE_MISSING_MAIN:
# The default mode for emscripten is to ignore the missing main function allowing
# maximum compatibility.
return
if settings.EXPECT_MAIN and 'main' not in settings.WASM_EXPORTS and '__main_argc_argv' not in settings.WASM_EXPORTS:
# For compatibility with the output of wasm-ld we use the same wording here in our
# error message as if wasm-ld had failed (i.e. in LLD_REPORT_UNDEFINED mode).
exit_with_error('entry symbol not defined (pass --no-entry to suppress): main')
def proxy_debug_print(sync):
if settings.PTHREADS_DEBUG:
if sync:
return 'warnOnce("sync proxying function " + code);'
else:
return 'warnOnce("async proxying function " + code);'
return ''
# Test if the parentheses at body[openIdx] and body[closeIdx] are a match to
# each other.
def parentheses_match(body, openIdx, closeIdx):
if closeIdx < 0:
closeIdx += len(body)
count = 1
for i in range(openIdx + 1, closeIdx + 1):
if body[i] == body[openIdx]:
count += 1
elif body[i] == body[closeIdx]:
count -= 1
if count <= 0:
return i == closeIdx
return False
def trim_asm_const_body(body):
body = body.strip()
orig = None
while orig != body:
orig = body
if len(body) > 1 and body[0] == '"' and body[-1] == '"':
body = body[1:-1].replace('\\"', '"').strip()
if len(body) > 1 and body[0] == '{' and body[-1] == '}' and parentheses_match(body, 0, -1):
body = body[1:-1].strip()
if len(body) > 1 and body[0] == '(' and body[-1] == ')' and parentheses_match(body, 0, -1):
body = body[1:-1].strip()
return body
def create_named_globals(metadata):
named_globals = []
for k, v in metadata.namedGlobals.items():
v = int(v)
if settings.RELOCATABLE:
v += settings.GLOBAL_BASE
mangled = asmjs_mangle(k)
if settings.MINIMAL_RUNTIME:
named_globals.append("var %s = %s;" % (mangled, v))
else:
named_globals.append("var %s = Module['%s'] = %s;" % (mangled, mangled, v))
return '\n'.join(named_globals)
def emscript(in_wasm, out_wasm, outfile_js, memfile):
# Overview:
# * Run wasm-emscripten-finalize to extract metadata and modify the binary
# to use emscripten's wasm<->JS ABI
# * Use the metadata to generate the JS glue that goes with the wasm
if settings.SINGLE_FILE:
# placeholder strings for JS glue, to be replaced with subresource locations in do_binaryen
settings.WASM_BINARY_FILE = '<<< WASM_BINARY_FILE >>>'
else:
# set file locations, so that JS glue can find what it needs
settings.WASM_BINARY_FILE = js_manipulation.escape_for_js_string(os.path.basename(out_wasm))
metadata = finalize_wasm(in_wasm, out_wasm, memfile)
if settings.RELOCATABLE and settings.MEMORY64 == 2:
metadata.imports += ['__memory_base32']
if settings.ASYNCIFY:
metadata.exports += ['asyncify_start_unwind', 'asyncify_stop_unwind', 'asyncify_start_rewind', 'asyncify_stop_rewind']
update_settings_glue(out_wasm, metadata)
if not settings.WASM_BIGINT and metadata.emJsFuncs:
import_map = {}
with webassembly.Module(in_wasm) as module:
types = module.get_types()
for imp in module.get_imports():
if imp.module not in ('GOT.mem', 'GOT.func'):
import_map[imp.field] = imp
for em_js_func, raw in metadata.emJsFuncs.items():
c_sig = raw.split('<::>')[0].strip('()')
if not c_sig or c_sig == 'void':
c_sig = []
else:
c_sig = c_sig.split(',')
if em_js_func in import_map:
imp = import_map[em_js_func]
assert imp.kind == webassembly.ExternType.FUNC
signature = types[imp.type]
if len(signature.params) != len(c_sig):
diagnostics.warning('em-js-i64', 'using 64-bit arguments in EM_JS function without WASM_BIGINT is not yet fully supported: `%s` (%s, %s)', em_js_func, c_sig, signature.params)
if settings.SIDE_MODULE:
if metadata.emJsFuncs:
exit_with_error('EM_JS is not supported in side modules')
logger.debug('emscript: skipping remaining js glue generation')
return
if DEBUG:
logger.debug('emscript: js compiler glue')
t = time.time()
# memory and global initializers
if settings.RELOCATABLE:
dylink_sec = webassembly.parse_dylink_section(in_wasm)
static_bump = align_memory(dylink_sec.mem_size)
set_memory(static_bump)
logger.debug('stack_low: %d, stack_high: %d, heap_base: %d', settings.STACK_LOW, settings.STACK_HIGH, settings.HEAP_BASE)
# When building relocatable output (e.g. MAIN_MODULE) the reported table
# size does not include the reserved slot at zero for the null pointer.
# So we need to offset the elements by 1.
if settings.INITIAL_TABLE == -1:
settings.INITIAL_TABLE = dylink_sec.table_size + 1
if settings.ASYNCIFY:
metadata.imports += ['__asyncify_state', '__asyncify_data']
invoke_funcs = metadata.invokeFuncs
if invoke_funcs:
settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE += ['$getWasmTableEntry']
glue, forwarded_data = compile_javascript()
if DEBUG:
logger.debug(' emscript: glue took %s seconds' % (time.time() - t))
t = time.time()
forwarded_json = json.loads(forwarded_data)
if forwarded_json['warnings']:
diagnostics.warning('js-compiler', 'warnings in JS library compilation')
pre, post = glue.split('// EMSCRIPTEN_END_FUNCS')
if settings.ASSERTIONS:
pre += "function checkIncomingModuleAPI() {\n"
for sym in settings.ALL_INCOMING_MODULE_JS_API:
if sym not in settings.INCOMING_MODULE_JS_API:
pre += f" ignoredModuleProp('{sym}');\n"
pre += "}\n"
exports = metadata.exports
report_missing_symbols(forwarded_json['librarySymbols'])
if not outfile_js:
logger.debug('emscript: skipping remaining js glue generation')
return
if settings.MINIMAL_RUNTIME:
# In MINIMAL_RUNTIME, atinit exists in the postamble part
post = apply_static_code_hooks(forwarded_json, post)
else:
# In regular runtime, atinits etc. exist in the preamble part
pre = apply_static_code_hooks(forwarded_json, pre)
asm_consts = create_asm_consts(metadata)
em_js_funcs = create_em_js(metadata)
asm_const_pairs = ['%s: %s' % (key, value) for key, value in asm_consts]
extra_code = ''
if asm_const_pairs or settings.MAIN_MODULE:
extra_code += 'var ASM_CONSTS = {\n ' + ', \n '.join(asm_const_pairs) + '\n};\n'
if em_js_funcs:
extra_code += '\n'.join(em_js_funcs) + '\n'
if extra_code:
pre = pre.replace(
'// === Body ===\n',
'// === Body ===\n\n' + extra_code + '\n')
with open(outfile_js, 'w', encoding='utf-8') as out:
out.write(normalize_line_endings(pre))
pre = None
receiving = create_receiving(exports)
if settings.MINIMAL_RUNTIME:
if settings.DECLARE_ASM_MODULE_EXPORTS:
post = compute_minimal_runtime_initializer_and_exports(post, exports, receiving)
receiving = ''
module = create_module(receiving, invoke_funcs, metadata, forwarded_json['librarySymbols'])
write_output_file(out, module)
out.write(normalize_line_endings(post))
module = None
def remove_trailing_zeros(memfile):
mem_data = utils.read_binary(memfile)
mem_data = mem_data.rstrip(b'\0')
utils.write_binary(memfile, mem_data)
@ToolchainProfiler.profile()
def get_metadata(infile, outfile, modify_wasm, args):
metadata = extract_metadata.extract_metadata(infile)
if modify_wasm:
# In some cases we still need to modify the wasm file
# using wasm-emscripten-finalize.
building.run_binaryen_command('wasm-emscripten-finalize',
infile=infile,
outfile=outfile,
args=args)
# When we do this we can generate new imports, so
# re-read parts of the metadata post-finalize
extract_metadata.update_metadata(outfile, metadata)
if DEBUG:
logger.debug("Metadata: " + pprint.pformat(metadata.__dict__))
return metadata
def finalize_wasm(infile, outfile, memfile):
building.save_intermediate(infile, 'base.wasm')
args = []
# if we don't need to modify the wasm, don't tell finalize to emit a wasm file
modify_wasm = False
if settings.WASM2JS:
# wasm2js requires full legalization (and will do extra wasm binary
# later processing later anyhow)
modify_wasm = True
if settings.GENERATE_SOURCE_MAP:
building.emit_wasm_source_map(infile, infile + '.map', outfile)
building.save_intermediate(infile + '.map', 'base_wasm.map')
args += ['--output-source-map-url=' + settings.SOURCE_MAP_BASE + os.path.basename(outfile) + '.map']
modify_wasm = True
if settings.DEBUG_LEVEL >= 2 or settings.ASYNCIFY_ADD or settings.ASYNCIFY_ADVISE or settings.ASYNCIFY_ONLY or settings.ASYNCIFY_REMOVE or settings.EMIT_SYMBOL_MAP or settings.EMIT_NAME_SECTION:
args.append('-g')
if settings.WASM_BIGINT:
args.append('--bigint')
if settings.DYNCALLS:
# we need to add all dyncalls to the wasm
modify_wasm = True
else:
if settings.WASM_BIGINT:
args.append('--no-dyncalls')
else:
args.append('--dyncalls-i64')
# we need to add some dyncalls to the wasm
modify_wasm = True
if settings.AUTODEBUG:
# In AUTODEBUG mode we want to delay all legalization until later. This is hack
# to force wasm-emscripten-finalize not to do any legalization at all.
args.append('--bigint')
else:
if settings.LEGALIZE_JS_FFI:
# When we dynamically link our JS loader adds functions from wasm modules to
# the table. It must add the original versions of them, not legalized ones,
# so that indirect calls have the right type, so export those.
args += building.js_legalization_pass_flags()
modify_wasm = True
else:
args.append('--no-legalize-javascript-ffi')
if memfile:
args.append(f'--separate-data-segments={memfile}')
args.append(f'--global-base={settings.GLOBAL_BASE}')
modify_wasm = True
if settings.SIDE_MODULE:
args.append('--side-module')
if settings.STACK_OVERFLOW_CHECK >= 2:
args.append('--check-stack-overflow')
modify_wasm = True
if settings.STANDALONE_WASM:
args.append('--standalone-wasm')
if settings.DEBUG_LEVEL >= 3:
args.append('--dwarf')
metadata = get_metadata(infile, outfile, modify_wasm, args)
if modify_wasm:
building.save_intermediate(infile, 'post_finalize.wasm')
elif infile != outfile:
shutil.copy(infile, outfile)
if settings.GENERATE_SOURCE_MAP:
building.save_intermediate(infile + '.map', 'post_finalize.map')
if memfile:
# we have a separate .mem file. binaryen did not strip any trailing zeros,
# because it's an ABI question as to whether it is valid to do so or not.
# we can do so here, since we make sure to zero out that memory (even in
# the dynamic linking case, our loader zeros it out)
remove_trailing_zeros(memfile)
expected_exports = set(settings.EXPORTED_FUNCTIONS)
expected_exports.update(asmjs_mangle(s) for s in settings.REQUIRED_EXPORTS)
# Calculate the subset of exports that were explicitly marked with llvm.used.
# These are any exports that were not requested on the command line and are
# not known auto-generated system functions.
unexpected_exports = [e for e in metadata.exports if treat_as_user_function(e)]
unexpected_exports = [asmjs_mangle(e) for e in unexpected_exports]
unexpected_exports = [e for e in unexpected_exports if e not in expected_exports]
building.user_requested_exports.update(unexpected_exports)
settings.EXPORTED_FUNCTIONS.extend(unexpected_exports)
return metadata
def create_asm_consts(metadata):
asm_consts = {}
for addr, const in metadata.asmConsts.items():
body = trim_asm_const_body(const)
args = []
max_arity = 16
arity = 0
for i in range(max_arity):
if ('$' + str(i)) in const:
arity = i + 1
for i in range(arity):
args.append('$' + str(i))
args = ', '.join(args)
if 'arguments' in body:
# arrow functions don't bind `arguments` so we have to use
# the old function syntax in this case
func = f'function({args}) {{ {body} }}'
else:
func = f'({args}) => {{ {body} }}'
if settings.RELOCATABLE:
addr += settings.GLOBAL_BASE
asm_consts[addr] = func
asm_consts = [(key, value) for key, value in asm_consts.items()]
asm_consts.sort()
return asm_consts
def type_to_sig(type):
# These should match the conversion in $sigToWasmTypes.
return {
webassembly.Type.I32: 'i',
webassembly.Type.I64: 'j',
webassembly.Type.F32: 'f',
webassembly.Type.F64: 'd',
webassembly.Type.VOID: 'v'
}[type]
def func_type_to_sig(type):
parameters = [type_to_sig(param) for param in type.params]
if type.returns:
assert len(type.returns) == 1, "One return type expected."
ret = type.returns[0]
else:
ret = webassembly.Type.VOID
return type_to_sig(ret) + ''.join(parameters)
def create_em_js(metadata):
em_js_funcs = []
separator = '<::>'
for name, raw in metadata.emJsFuncs.items():
assert separator in raw
args, body = raw.split(separator, 1)
args = args[1:-1]
if args == 'void':
args = []
else:
args = args.split(',')
arg_names = [arg.split()[-1].replace("*", "") for arg in args if arg]
args = ','.join(arg_names)
func = f'function {name}({args}) {body}'
if (settings.MAIN_MODULE or settings.ASYNCIFY == 2) and name in metadata.emJsFuncTypes:
sig = func_type_to_sig(metadata.emJsFuncTypes[name])
func = func + f'\n{name}.sig = \'{sig}\';'
em_js_funcs.append(func)
return em_js_funcs
def add_standard_wasm_imports(send_items_map):
extra_sent_items = []
if settings.IMPORTED_MEMORY:
memory_import = 'wasmMemory'
if settings.MODULARIZE and settings.USE_PTHREADS:
# Pthreads assign wasmMemory in their worker startup. In MODULARIZE mode, they cannot assign inside the
# Module scope, so lookup via Module as well.
memory_import += " || Module['wasmMemory']"
send_items_map['memory'] = memory_import
if settings.SAFE_HEAP:
extra_sent_items.append('segfault')
extra_sent_items.append('alignfault')
if settings.RELOCATABLE:
send_items_map['__indirect_function_table'] = 'wasmTable'
if settings.AUTODEBUG:
extra_sent_items += [
'log_execution',
'get_i32',
'get_i64',
'get_f32',
'get_f64',
'get_anyref',
'get_exnref',
'set_i32',
'set_i64',
'set_f32',
'set_f64',
'set_anyref',
'set_exnref',
'load_ptr',
'load_val_i32',
'load_val_i64',
'load_val_f32',
'load_val_f64',
'store_ptr',
'store_val_i32',
'store_val_i64',
'store_val_f32',
'store_val_f64',
]
for s in extra_sent_items:
send_items_map[s] = s
def create_sending(invoke_funcs, metadata, library_symbols):
# Map of wasm imports to mangled/external/JS names
send_items_map = {}
for name in invoke_funcs:
send_items_map[name] = name
for name in metadata.imports:
if name in metadata.emJsFuncs:
send_items_map[name] = name
else:
send_items_map[name] = asmjs_mangle(name)
add_standard_wasm_imports(send_items_map)
if settings.MAIN_MODULE:
# When including dynamic linking support, also add any JS library functions
# that are part of EXPORTED_FUNCTIONS (or in the case of MAIN_MODULE=1 add
# all JS library functions). This allows `dlsym(RTLD_DEFAULT)` to lookup JS
# library functions, since `wasmImports` acts as the global symbol table.
wasm_exports = set(metadata.exports)
library_symbols = set(library_symbols)
if settings.MAIN_MODULE == 1:
for f in library_symbols:
if shared.is_c_symbol(f):
demangled = shared.demangle_c_symbol_name(f)
if demangled in wasm_exports:
continue
send_items_map[demangled] = f
else:
for f in settings.EXPORTED_FUNCTIONS + settings.SIDE_MODULE_IMPORTS:
if f in library_symbols and shared.is_c_symbol(f):
demangled = shared.demangle_c_symbol_name(f)
if demangled in wasm_exports:
continue
send_items_map[demangled] = f
sorted_keys = sorted(send_items_map.keys())
return '{\n ' + ',\n '.join('"' + k + '": ' + send_items_map[k] for k in sorted_keys) + '\n}'
def make_export_wrappers(exports, delay_assignment):
wrappers = []
for name in exports:
# Tags cannot be wrapped in createExportWrapper
if name == '__cpp_exception':
continue
mangled = asmjs_mangle(name)
wrapper = '/** @type {function(...*):?} */\nvar %s = ' % mangled
# TODO(sbc): Can we avoid exporting the dynCall_ functions on the module.
if mangled in settings.EXPORTED_FUNCTIONS or name.startswith('dynCall_'):
exported = 'Module["%s"] = ' % mangled
else:
exported = ''
wrapper += exported
# The emscripten stack functions are called very early (by writeStackCookie) before
# the runtime is initialized so we can't create these wrappers that check for
# runtimeInitialized.
# Likewise `__trap` can occur before the runtime is initialized since it is used in
# abort.
if settings.ASSERTIONS and not name.startswith('emscripten_stack_') and name != '__trap':
# With assertions enabled we create a wrapper that are calls get routed through, for
# the lifetime of the program.
if delay_assignment:
wrapper += 'createExportWrapper("%s");' % name
else:
wrapper += 'createExportWrapper("%s", asm);' % name
elif delay_assignment:
# With assertions disabled the wrapper will replace the global var and Module var on
# first use.
wrapper += f'''function() {{
return ({mangled} = {exported}Module["asm"]["{name}"]).apply(null, arguments);
}};
'''
else:
wrapper += 'asm["%s"]' % name
wrappers.append(wrapper)
return wrappers
def create_receiving(exports):
# When not declaring asm exports this section is empty and we instead programatically export
# symbols on the global object by calling exportAsmFunctions after initialization
if not settings.DECLARE_ASM_MODULE_EXPORTS:
return ''
receiving = []
# with WASM_ASYNC_COMPILATION that asm object may not exist at this point in time
# so we need to support delayed assignment.
delay_assignment = settings.WASM_ASYNC_COMPILATION and not settings.MINIMAL_RUNTIME
if not delay_assignment:
if settings.MINIMAL_RUNTIME:
# In Wasm exports are assigned inside a function to variables
# existing in top level JS scope, i.e.
# var _main;
# WebAssembly.instantiate(Module["wasm"], imports).then((function(output) {
# var asm = output.instance.exports;
# _main = asm["_main"];
generate_dyncall_assignment = settings.DYNCALLS and '$dynCall' in settings.DEFAULT_LIBRARY_FUNCS_TO_INCLUDE
exports_that_are_not_initializers = [x for x in exports if x != building.WASM_CALL_CTORS]
for s in exports_that_are_not_initializers:
mangled = asmjs_mangle(s)
dynCallAssignment = ('dynCalls["' + s.replace('dynCall_', '') + '"] = ') if generate_dyncall_assignment and mangled.startswith('dynCall_') else ''
export_assignment = ''
if settings.MODULARIZE and settings.EXPORT_ALL:
export_assignment = f'Module["{mangled}"] = '
receiving += [f'{export_assignment}{dynCallAssignment}{mangled} = asm["{s}"]']
else:
receiving += make_export_wrappers(exports, delay_assignment)
else:
receiving += make_export_wrappers(exports, delay_assignment)
if settings.MINIMAL_RUNTIME:
return '\n '.join(receiving) + '\n'
else:
return '\n'.join(receiving) + '\n'
def create_module(receiving, invoke_funcs, metadata, library_symbols):
invoke_wrappers = create_invoke_wrappers(invoke_funcs)
receiving += create_named_globals(metadata)
module = []
sending = create_sending(invoke_funcs, metadata, library_symbols)
module.append('var wasmImports = %s;\n' % sending)
if settings.ASYNCIFY and (settings.ASSERTIONS or settings.ASYNCIFY == 2):
# instrumenting imports is used in asyncify in two ways: to add assertions
# that check for proper import use, and for ASYNCIFY=2 we use them to set up
# the Promise API on the import side.
module.append('Asyncify.instrumentWasmImports(wasmImports);\n')
if not settings.MINIMAL_RUNTIME:
module.append("var asm = createWasm();\n")
module.append(receiving)
module.append(invoke_wrappers)
if settings.MEMORY64:
module.append(create_wasm64_wrappers(metadata))
return module
def create_invoke_wrappers(invoke_funcs):
"""Asm.js-style exception handling: invoke wrapper generation."""
invoke_wrappers = ''
for invoke in invoke_funcs:
sig = strip_prefix(invoke, 'invoke_')
invoke_wrappers += '\n' + js_manipulation.make_invoke(sig) + '\n'
return invoke_wrappers
def create_wasm64_wrappers(metadata):
# TODO(sbc): Move this into somewhere less static. Maybe it can become
# part of library.js file, even though this metadata relates specifically
# to native (non-JS) functions.
#
# The signature format here is similar to the one used for JS libraries
# but with the following as the only valid char:
# '_' - non-pointer argument (pass through unchanged)
# 'p' - pointer/int53 argument (convert to/from BigInt)
# 'P' - same as above but allow `undefined` too (requires extra check)
mapping = {
'sbrk': 'pP',
'stackAlloc': 'pp',
'emscripten_builtin_malloc': 'pp',
'malloc': 'pp',
'__getTypeName': 'pp',
'setThrew': '_p',
'free': '_p',
'stackRestore': '_p',
'__cxa_is_pointer_type': '_p',
'stackSave': 'p',
'fflush': '_p',
'emscripten_stack_get_end': 'p',
'emscripten_stack_get_base': 'p',
'pthread_self': 'p',
'emscripten_stack_get_current': 'p',
'__errno_location': 'p',
'emscripten_builtin_memalign': 'ppp',
'emscripten_builtin_free': 'vp',
'main': '__PP',
'__main_argc_argv': '__PP',
'emscripten_stack_set_limits': '_pp',
'__set_stack_limits': '_pp',
'__cxa_can_catch': '_ppp',
'_wasmfs_write_file': '_ppp',
'__dl_seterr': '_pp',
}
wasm64_wrappers = '''
function instrumentWasmExportsForMemory64(exports) {
// First, make a copy of the incoming exports object
exports = Object.assign({}, exports);'''
sigs_seen = set()
wrap_functions = []
for exp in metadata.exports:
sig = mapping.get(exp)
if sig:
if sig not in sigs_seen:
sigs_seen.add(sig)
wasm64_wrappers += js_manipulation.make_wasm64_wrapper(sig)
wrap_functions.append(exp)
for f in wrap_functions:
sig = mapping[f]
wasm64_wrappers += f"\n exports['{f}'] = wasm64Wrapper_{sig}(exports['{f}']);"
wasm64_wrappers += '\n return exports\n}'
return wasm64_wrappers
def normalize_line_endings(text):
"""Normalize to UNIX line endings.
On Windows, writing to text file will duplicate \r\n to \r\r\n otherwise.
"""
if WINDOWS:
return text.replace('\r\n', '\n')
return text
def clear_struct_info():
output_name = cache.get_lib_name('struct_info.json', varies=False)
cache.erase_file(output_name)
def generate_struct_info():
# If we are running in BOOTSTRAPPING_STRUCT_INFO we don't populate STRUCT_INFO
# otherwise that would lead to infinite recursion.
if settings.BOOTSTRAPPING_STRUCT_INFO:
return
@ToolchainProfiler.profile()
def generate_struct_info(out):
gen_struct_info.main(['-q', '-o', out])
output_name = cache.get_lib_name('struct_info.json', varies=False)
settings.STRUCT_INFO = cache.get(output_name, generate_struct_info)
def run(in_wasm, out_wasm, outfile_js, memfile):
generate_struct_info()
emscript(in_wasm, out_wasm, outfile_js, memfile)