sys.exit(1)
with open(sys.argv[1]) as in_h, open(sys.argv[2], "w") as out_java, open(sys.argv[3], "w") as out_c:
+ opaque_structs = set()
+
var_is_arr_regex = re.compile("\(\*([A-za-z_]*)\)\[([0-9]*)\]")
var_ty_regex = re.compile("([A-za-z_0-9]*)(.*)")
- def map_type(fn_arg, print_void, ret_arr_len):
+ def java_c_types(fn_arg, ret_arr_len):
fn_arg = fn_arg.strip()
if fn_arg.startswith("MUST_USE_RES "):
fn_arg = fn_arg[13:]
if fn_arg.startswith("const "):
fn_arg = fn_arg[6:]
- c_ty = None
- is_ptr_to_obj = None
+ is_ptr = False
if fn_arg.startswith("void"):
- if print_void:
- out_java.write("void")
- c_ty = "void"
- else:
- return (None, None, None)
+ java_ty = "void"
+ c_ty = "void"
fn_arg = fn_arg.strip("void ")
elif fn_arg.startswith("bool"):
- out_java.write("boolean")
+ java_ty = "boolean"
c_ty = "jboolean"
fn_arg = fn_arg.strip("bool ")
elif fn_arg.startswith("uint8_t"):
- out_java.write("byte")
+ java_ty = "byte"
c_ty = "jbyte"
fn_arg = fn_arg.strip("uint8_t ")
elif fn_arg.startswith("uint32_t"):
- out_java.write("int")
+ java_ty = "int"
c_ty = "jint"
fn_arg = fn_arg.strip("uint32_t ")
elif fn_arg.startswith("uint64_t"):
- out_java.write("long")
+ java_ty = "long"
c_ty = "jlong"
fn_arg = fn_arg.strip("uint64_t ")
else:
ma = var_ty_regex.match(fn_arg)
- out_java.write("long")
- out_c.write("jlong")
+ java_ty = "long"
+ c_ty = "jlong"
+ fn_arg = ma.group(2)
+ is_ptr = True
+
+ var_is_arr = var_is_arr_regex.match(fn_arg)
+ if var_is_arr is not None or ret_arr_len is not None:
+ java_ty = java_ty + "[]"
+ c_ty = c_ty + "Array"
+ return (java_ty, c_ty, is_ptr)
+
+ def map_type(fn_arg, print_void, ret_arr_len, is_free):
+ fn_arg = fn_arg.strip()
+ if fn_arg.startswith("MUST_USE_RES "):
+ fn_arg = fn_arg[13:]
+ if fn_arg.startswith("const "):
+ fn_arg = fn_arg[6:]
+
+ (java_ty, c_ty, is_ptr) = java_c_types(fn_arg, ret_arr_len)
+ is_ptr_to_obj = None
+ if fn_arg.startswith("void"):
+ if not print_void:
+ return (None, None, None)
+ fn_arg = fn_arg.strip("void ")
+ elif not is_ptr:
+ split = fn_arg.split(" ", 2)
+ if len(split) > 1:
+ fn_arg = split[1]
+ else:
+ fn_arg = ""
+ else:
+ ma = var_ty_regex.match(fn_arg)
is_ptr_to_obj = ma.group(1)
fn_arg = ma.group(2)
- if c_ty is not None:
- out_c.write(c_ty)
+ assert(c_ty is not None)
+ assert(java_ty is not None)
+ out_c.write(c_ty)
+ out_java.write(java_ty)
var_is_arr = var_is_arr_regex.match(fn_arg)
no_ptr = fn_arg.replace('*', '')
if var_is_arr is not None or ret_arr_len is not None:
- out_java.write("[] ")
- out_c.write("Array ")
if var_is_arr is not None:
arr_name = var_is_arr.group(1)
arr_len = var_is_arr.group(2)
- out_java.write(arr_name)
- out_c.write(arr_name)
+ out_java.write(" " + arr_name)
+ out_c.write(" " + arr_name)
else:
arr_name = "ret"
arr_len = ret_arr_len
- assert(c_ty == "jbyte")
+ assert(c_ty == "jbyteArray")
return ("unsigned char " + arr_name + "_arr[" + arr_len + "];\n" +
"(*_env)->GetByteArrayRegion (_env, """ + arr_name + ", 0, " + arr_len + ", " + arr_name + "_arr);\n" +
"unsigned char (*""" + arr_name + "_ref)[" + arr_len + "] = &" + arr_name + "_arr;",
- (c_ty + "Array " + arr_name + "_arr = (*_env)->NewByteArray(_env, 0); // XXX: len 0\n" +
+ (c_ty + " " + arr_name + "_arr = (*_env)->NewByteArray(_env, " + arr_len + ");\n" +
"(*_env)->SetByteArrayRegion(_env, " + arr_name + "_arr, 0, " + arr_len + ", *",
");\nreturn ret_arr;"),
arr_name + "_ref")
out_c.write(" " + no_ptr.strip())
if is_ptr_to_obj is not None:
if no_ptr == fn_arg:
- return (is_ptr_to_obj + " " + no_ptr.strip() + "_conv = *(" + is_ptr_to_obj + "*)" + no_ptr.strip() + ";",
+ base_conv = is_ptr_to_obj + " " + no_ptr.strip() + "_conv = *(" + is_ptr_to_obj + "*)" + no_ptr.strip() + ";\nfree((void*)" + no_ptr.strip() + ");";
+ if is_ptr_to_obj in opaque_structs:
+ return (base_conv + "\n" + no_ptr.strip() + "_conv._underlying_ref = false;",
"XXX2", no_ptr.strip() + "_conv")
+ return (base_conv, "XXX2", no_ptr.strip() + "_conv")
else:
+ assert(not is_free)
return (is_ptr_to_obj + "* " + no_ptr.strip() + "_conv = (" + is_ptr_to_obj + "*)" + no_ptr.strip() + ";",
"XXX2", no_ptr.strip() + "_conv")
elif no_ptr != fn_arg:
out_java.write(" arg")
out_c.write(" arg")
if is_ptr_to_obj is not None:
- return (is_ptr_to_obj + " arg_conv = *(" + is_ptr_to_obj + "*)arg;", "XXX2", "arg_conv")
+ assert(not is_free or is_ptr_to_obj not in opaque_structs);
+ return (is_ptr_to_obj + " arg_conv = *(" + is_ptr_to_obj + "*)arg;\nfree((void*)arg);", "XXX2", "arg_conv")
else:
+ assert(not is_free)
return (None, "XXX6", "arg")
else:
# We don't have a parameter name, and don't want one (cause we're returning)
if is_ptr_to_obj is not None:
if no_ptr == fn_arg:
- return (None, (is_ptr_to_obj + "* ret = malloc(sizeof(" + is_ptr_to_obj + "));\n*ret = ", ";\nreturn (long)ret;"), None)
+ if is_ptr_to_obj in opaque_structs:
+ # If we're returning a newly-allocated struct, we don't want Rust to ever
+ # free, instead relying on the Java GC to lose the ref. We undo this in
+ # any _free function.
+ # To avoid any issues, we first assert that the incoming object is non-ref.
+ return (None, (is_ptr_to_obj + "* ret = malloc(sizeof(" + is_ptr_to_obj + "));\n*ret = ", ";\nassert(!ret->_underlying_ref);\nret->_underlying_ref = true;\nreturn (long)ret;"), None)
+ else:
+ return (None, (is_ptr_to_obj + "* ret = malloc(sizeof(" + is_ptr_to_obj + "));\n*ret = ", ";\nreturn (long)ret;"), None)
else:
return (None, ("return (long) ", ";"), None)
else:
return (None, None, None)
- def map_fn_args(fn_args, f):
- for idx, arg in enumerate(fn_args.split(',')):
- if idx != 0:
- out_java.write(", ")
- if arg != "void":
- out_c.write(", ")
- map_type(arg, False)
-
def map_fn(re_match, ret_arr_len):
out_java.write("\t/// " + line)
out_java.write("\tpublic static native ")
out_c.write("JNIEXPORT ")
- _, ret_conv, _ = map_type(re_match.group(1), True, ret_arr_len)
+ _, ret_conv, _ = map_type(re_match.group(1), True, ret_arr_len, False)
if ret_conv is not None:
ret_conv_pfx, ret_conv_sfx = ret_conv
out_java.write(" " + re_match.group(2) + "(")
- out_c.write(" JNICALL " + re_match.group(2).replace('_', '_1') + "(JNIEnv * _env, jclass _b")
+ out_c.write(" JNICALL Java_org_ldk_impl_bindings_" + re_match.group(2).replace('_', '_1') + "(JNIEnv * _env, jclass _b")
arg_names = []
for idx, arg in enumerate(re_match.group(3).split(',')):
out_java.write(", ")
if arg != "void":
out_c.write(", ")
- arg_names.append(map_type(arg, False, None))
+ arg_names.append(map_type(arg, False, None, re_match.group(2).endswith("_free")))
out_java.write(");\n")
out_c.write(") {\n")
out_c.write(";")
out_c.write("\n}\n\n")
- out_java.write("""package org.ldk;
+ out_java.write("""package org.ldk.impl;
public class bindings {
static {
}
""")
- out_c.write("#include \"org_ldk_bindings.h\"\n")
- out_c.write("#include <rust_types.h>\n\n")
- out_c.write("#include <lightning.h>\n\n")
+ out_c.write("#include \"org_ldk_impl_bindings.h\"\n")
+ out_c.write("#include <rust_types.h>\n")
+ out_c.write("#include <lightning.h>\n")
+ out_c.write("#include <assert.h>\n\n")
+ out_c.write("#include <string.h>\n\n")
in_block_comment = False
in_block_enum = False
reg_fn_regex = re.compile("([A-Za-z_0-9\* ]* \*?)([a-zA-Z_0-9]*)\((.*)\);$")
const_val_regex = re.compile("^extern const ([A-Za-z_0-9]*) ([A-Za-z_0-9]*);$")
+ line_indicates_opaque_regex = re.compile("^ bool _underlying_ref;$")
+ line_indicates_trait_regex = re.compile("^ ([A-Za-z_0-9]* \*?)\(\*([A-Za-z_0-9]*)\)\((const )?void \*this_arg.*\);$")
+ assert(line_indicates_trait_regex.match(" uintptr_t (*send_data)(void *this_arg, LDKu8slice data, bool resume_read);"))
+ assert(line_indicates_trait_regex.match(" LDKCVec_MessageSendEventZ (*get_and_clear_pending_msg_events)(const void *this_arg);"))
+ assert(line_indicates_trait_regex.match(" void *(*clone)(const void *this_arg);"))
+ struct_name_regex = re.compile("^typedef struct (MUST_USE_STRUCT )?(LDK[A-Za-z_0-9]*) {$")
+ assert(struct_name_regex.match("typedef struct LDKCVecTempl_u8 {"))
+
for line in in_h:
if in_block_comment:
#out_java.write("\t" + line)
cur_block_struct = cur_block_struct + line
if line.startswith("} "):
field_lines = []
+ struct_name = None
struct_lines = cur_block_struct.split("\n")
+ is_opaque = False
+ trait_fn_lines = []
+
for idx, struct_line in enumerate(struct_lines):
if struct_line.strip().startswith("/*"):
in_block_comment = True
if struct_line.endswith("*/"):
in_block_comment = False
else:
+ struct_name_match = struct_name_regex.match(struct_line)
+ if struct_name_match is not None:
+ struct_name = struct_name_match.group(2)
+ if line_indicates_opaque_regex.match(struct_line):
+ is_opaque = True
+ trait_fn_match = line_indicates_trait_regex.match(struct_line)
+ if trait_fn_match is not None:
+ trait_fn_lines.append(trait_fn_match)
field_lines.append(struct_line)
- #out_java.write("".join(field_lines) + "\n")
+
+ assert(struct_name is not None)
+ assert(len(trait_fn_lines) == 0 or not is_opaque)
+ if is_opaque:
+ opaque_structs.add(struct_name)
+ if len(trait_fn_lines) > 0:
+ out_java.write("\tpublic interface " + struct_name + " {\n")
+ for fn_line in trait_fn_lines:
+ if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
+ out_java.write("\t\t void " + fn_line.group(2) + "(/* TODO + rtype */);\n")
+ out_java.write("\t}\n")
+ out_java.write("\tpublic static native long " + struct_name + "_new(" + struct_name + " impl);\n")
+
+ out_c.write("typedef struct " + struct_name + "_JCalls {\n")
+ out_c.write("\tJNIEnv *env;\n")
+ out_c.write("\tjobject o;\n")
+ for fn_line in trait_fn_lines:
+ if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
+ out_c.write("\tjmethodID " + fn_line.group(2) + "_meth;\n")
+ out_c.write("} " + struct_name + "_JCalls;\n")
+
+ for fn_line in trait_fn_lines:
+ if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
+ out_c.write("void " + fn_line.group(2) + "_jcall(void* this_arg/* TODO + rtype */) {\n")
+ out_c.write("\t" + struct_name + "_JCalls *arg = (" + struct_name + "_JCalls*) this_arg;\n")
+ out_c.write("\t(*arg->env)->CallObjectMethod(arg->env, arg->o, arg->" + fn_line.group(2) + "_meth);\n");
+ out_c.write("}\n")
+ elif fn_line.group(2) == "free":
+ out_c.write("void " + struct_name + "_JCalls_free(void* this_arg) {\n")
+ out_c.write("\t" + struct_name + "_JCalls *arg = (" + struct_name + "_JCalls*) this_arg;\n")
+ out_c.write("\t(*arg->env)->DeleteGlobalRef(arg->env, arg->o);\n")
+ out_c.write("\tfree(arg);\n")
+ out_c.write("}\n")
+ elif fn_line.group(2) == "clone":
+ out_c.write("void* " + struct_name + "_JCalls_clone(void* this_arg) {\n")
+ out_c.write("\t" + struct_name + "_JCalls *ret = malloc(sizeof(" + struct_name + "_JCalls));\n")
+ out_c.write("\tmemcpy(ret, this_arg, sizeof(" + struct_name + "_JCalls));\n")
+ out_c.write("\treturn ret;\n")
+ out_c.write("}\n")
+
+ out_c.write("JNIEXPORT long JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1new (JNIEnv * env, jclass _a, jobject o) {\n")
+ out_c.write("\tjclass c = (*env)->GetObjectClass(env, o);\n")
+ out_c.write("\tassert(c != NULL);\n")
+ out_c.write("\t" + struct_name + "_JCalls *calls = malloc(sizeof(" + struct_name + "_JCalls));\n")
+ out_c.write("\tcalls->env = env;\n")
+ out_c.write("\tcalls->o = (*env)->NewGlobalRef(env, o);\n")
+ for fn_line in trait_fn_lines:
+ if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
+ out_c.write("\tcalls->" + fn_line.group(2) + "_meth = (*env)->GetMethodID(env, c, \"" + fn_line.group(2) + "\", \"" + "TODO" + "\");\n")
+ out_c.write("\tassert(calls->" + fn_line.group(2) + "_meth != NULL);\n")
+ out_c.write("\n\t" + struct_name + " *ret = malloc(sizeof(" + struct_name + "));\n")
+ out_c.write("\tret->this_arg = (void*) calls;\n")
+ for fn_line in trait_fn_lines:
+ if fn_line.group(2) != "free" and fn_line.group(2) != "clone":
+ out_c.write("\tret->" + fn_line.group(2) + " = " + fn_line.group(2) + "_jcall;\n")
+ elif fn_line.group(2) == "free":
+ out_c.write("\tret->free = " + struct_name + "_JCalls_free;\n")
+ else:
+ out_c.write("\tret->clone = " + struct_name + "_JCalls_clone;\n")
+ out_c.write("\treturn (long)ret;\n")
+ out_c.write("}\n\n")
+
+ #out_java.write("/* " + "\n".join(field_lines) + "*/\n")
cur_block_struct = None
elif in_block_union:
if line.startswith("} "):