X-Git-Url: http://git.bitcoin.ninja/index.cgi?a=blobdiff_plain;f=genbindings.py;h=175340d6246c1eb789411aec04c9a07a72a617f1;hb=HEAD;hp=93b3e77df816c02ed584e049ec7a5bac74cd2ec6;hpb=de28908caacda7226bac70837a33cfe6e16417ab;p=ldk-java diff --git a/genbindings.py b/genbindings.py index 93b3e77d..9ae48c4e 100755 --- a/genbindings.py +++ b/genbindings.py @@ -1,1108 +1,977 @@ #!/usr/bin/env python3 -import sys, re +import os, sys, re, subprocess -if len(sys.argv) != 6: - print("USAGE: /path/to/lightning.h /path/to/bindings/output.java /path/to/bindings/ /path/to/bindings/output.c debug") +if len(sys.argv) < 8: + print("USAGE: /path/to/lightning.h /path/to/bindings/output /path/to/bindings/ /path/to/bindings/output.c debug lang target-tuple") + sys.exit(1) + +if sys.argv[5] == "false": + DEBUG = False +elif sys.argv[5] == "true": + DEBUG = True +else: print("debug should be true or false and indicates whether to track allocations and ensure we don't leak") sys.exit(1) -class TypeInfo: - def __init__(self, rust_obj, java_ty, java_fn_ty_arg, c_ty, passed_as_ptr, is_ptr, var_name, arr_len, arr_access): - self.rust_obj = rust_obj - self.java_ty = java_ty - self.java_fn_ty_arg = java_fn_ty_arg - self.c_ty = c_ty - self.passed_as_ptr = passed_as_ptr - self.is_ptr = is_ptr - self.var_name = var_name - self.arr_len = arr_len - self.arr_access = arr_access - -class ConvInfo: - def __init__(self, ty_info, arg_name, arg_conv, arg_conv_name, arg_conv_cleanup, ret_conv, ret_conv_name): - assert(ty_info.c_ty is not None) - assert(ty_info.java_ty is not None) - assert(arg_name is not None) - self.passed_as_ptr = ty_info.passed_as_ptr - self.rust_obj = ty_info.rust_obj - self.c_ty = ty_info.c_ty - self.java_ty = ty_info.java_ty - self.java_fn_ty_arg = ty_info.java_fn_ty_arg - self.arg_name = arg_name - self.arg_conv = arg_conv - self.arg_conv_name = arg_conv_name - self.arg_conv_cleanup = arg_conv_cleanup - self.ret_conv = ret_conv - self.ret_conv_name = ret_conv_name - - def print_ty(self): - out_c.write(self.c_ty) - out_java.write(self.java_ty) - - def print_name(self): - if self.arg_name != "": - out_java.write(" " + self.arg_name) - out_c.write(" " + self.arg_name) +target = None +if sys.argv[6] == "java" or sys.argv[6] == "android": + import java_strings + from java_strings import Consts + target = java_strings.Target.JAVA + if sys.argv[6] == "android": + target = java_strings.Target.ANDROID + if "apple" in sys.argv[8]: + target = java_strings.Target.MACOS +elif sys.argv[6] == "typescript": + import typescript_strings + from typescript_strings import Consts + target = typescript_strings.Target.NODEJS + if len(sys.argv) == 8 and sys.argv[7] == 'browser': + target = typescript_strings.Target.BROWSER +elif sys.argv[6].startswith("c_sharp"): + import csharp_strings + from csharp_strings import Consts + if sys.argv[6] == "c_sharp-win": + target = csharp_strings.Target.WINDOWS + elif sys.argv[6] == "c_sharp-darwin": + target = csharp_strings.Target.PTHREAD + elif sys.argv[6] == "c_sharp-linux": + target = csharp_strings.Target.LINUX + else: + assert False +elif sys.argv[6] == "python": + import python_strings + from python_strings import Consts + target = python_strings.Target.PYTHON +else: + print("Only java, typescript, python, or c_sharp can be set for lang") + sys.exit(1) + +consts = Consts(DEBUG, target=target, outdir=sys.argv[4]) + +local_git_version = os.getenv("LDK_GARBAGECOLLECTED_GIT_OVERRIDE") +if local_git_version is None: + local_git_version = subprocess.check_output(["git", "describe", '--tag', '--dirty']).decode("utf-8").strip() + +from bindingstypes import * + +c_file = "" +def write_c(s): + global c_file + c_file += s + +def camel_to_snake(s): + # Convert camel case to snake case, in a way that appears to match cbindgen + con = "_" + ret = "" + lastchar = "" + lastund = False + for char in s: + if lastchar.isupper(): + if not char.isupper() and not lastund: + ret = ret + "_" + lastund = True + else: + lastund = False + ret = ret + lastchar.lower() + else: + ret = ret + lastchar + if char.isupper() and not lastund: + ret = ret + "_" + lastund = True + else: + lastund = False + lastchar = char + if char.isnumeric(): + lastund = True + return (ret + lastchar.lower()).strip("_") + +def doc_to_field_nullable(doc): + if doc is None: + return False + for line in doc.splitlines(): + if "Note that this (or a relevant inner pointer) may be NULL or all-0s to represent None" in line: + return True + return False + +def doc_to_params_ret_nullable(doc): + if doc is None: + return (set(), False) + params = set() + ret_null = False + for line in doc.splitlines(): + if "may be NULL or all-0s to represent None" not in line: + continue + if "Note that the return value" in line: + ret_null = True + elif "Note that " in line: + param = line.split("Note that ")[1].split(" ")[0] + params.add(param) + return (params, ret_null) + +unitary_enums = set() +# Map from enum name to "contains trait object" +complex_enums = {} +opaque_structs = set() +trait_structs = {} +result_types = set() +tuple_types = {} + +var_is_arr_regex = re.compile("\(\* ?([A-za-z0-9_]*)\)\[([a-z0-9]*)\]") +var_ty_regex = re.compile("([A-za-z_0-9]*)(.*)") +java_c_types_none_allowed = True # Unset when we do the real pass that populates the above sets +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:] + is_const = False + if fn_arg.startswith("const "): + fn_arg = fn_arg[6:] + is_const = True + if fn_arg.startswith("struct "): + fn_arg = fn_arg[7:] + if fn_arg.startswith("enum "): + fn_arg = fn_arg[5:] + nonnull_ptr = "NONNULL_PTR" in fn_arg + fn_arg = fn_arg.replace("NONNULL_PTR", "") + + is_ptr = False + take_by_ptr = False + rust_obj = None + arr_access = None + java_hu_ty = None + if fn_arg.startswith("LDKThirtyTwoBytes"): + fn_arg = "uint8_t (*" + fn_arg[18:] + ")[32]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKThirtyTwoBytes" + arr_access = "data" + elif fn_arg.startswith("LDKThirtyTwoU16s"): + fn_arg = "uint16_t (*" + fn_arg[17:] + ")[32]" + assert var_is_arr_regex.match(fn_arg[9:]) + rust_obj = "LDKThirtyTwoU16s" + arr_access = "data" + elif fn_arg.startswith("LDKU128"): + if fn_arg == "LDKU128": + fn_arg = "LDKU128 arg" + if fn_arg.startswith("LDKU128*") or fn_arg.startswith("LDKU128 *"): + fn_arg = "uint8_t (" + fn_arg[8:] + ")[16]" + else: + fn_arg = "uint8_t (*" + fn_arg[8:] + ")[16]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKU128" + arr_access = "le_bytes" + elif fn_arg.startswith("LDKPublicKey"): + fn_arg = "uint8_t (*" + fn_arg[13:] + ")[33]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKPublicKey" + arr_access = "compressed_form" + elif fn_arg.startswith("LDKTweakedPublicKey"): + fn_arg = "uint8_t (*" + fn_arg[21:] + ")[32]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKTweakedPublicKey" + arr_access = "x_coordinate" + elif fn_arg.startswith("LDKSecretKey"): + fn_arg = "uint8_t (*" + fn_arg[13:] + ")[32]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKSecretKey" + arr_access = "bytes" + elif fn_arg.startswith("LDKECDSASignature"): + fn_arg = "uint8_t (*" + fn_arg[18:] + ")[64]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKECDSASignature" + arr_access = "compact_form" + elif fn_arg.startswith("LDKSchnorrSignature"): + fn_arg = "uint8_t (*" + fn_arg[20:] + ")[64]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKSchnorrSignature" + arr_access = "compact_form" + elif fn_arg.startswith("LDKRecoverableSignature"): + fn_arg = "uint8_t (*" + fn_arg[24:] + ")[68]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKRecoverableSignature" + arr_access = "serialized_form" + elif fn_arg.startswith("LDKThreeBytes"): + fn_arg = "uint8_t (*" + fn_arg[14:] + ")[3]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKThreeBytes" + arr_access = "data" + elif fn_arg.startswith("LDKFourBytes"): + fn_arg = "uint8_t (*" + fn_arg[13:] + ")[4]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKFourBytes" + arr_access = "data" + elif fn_arg.startswith("LDKSixteenBytes"): + fn_arg = "uint8_t (*" + fn_arg[16:] + ")[16]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKSixteenBytes" + arr_access = "data" + elif fn_arg.startswith("LDKTwentyBytes"): + fn_arg = "uint8_t (*" + fn_arg[15:] + ")[20]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKTwentyBytes" + arr_access = "data" + elif fn_arg.startswith("LDKTwelveBytes"): + fn_arg = "uint8_t (*" + fn_arg[15:] + ")[12]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKTwelveBytes" + arr_access = "data" + elif fn_arg.startswith("LDKu8slice"): + fn_arg = "uint8_t (*" + fn_arg[11:] + ")[datalen]" + assert var_is_arr_regex.match(fn_arg[8:]) + rust_obj = "LDKu8slice" + arr_access = "data" + elif fn_arg.startswith("LDKCVec_u8Z"): + fn_arg = "uint8_t (*" + fn_arg[12:] + ")[datalen]" + rust_obj = "LDKCVec_u8Z" + assert var_is_arr_regex.match(fn_arg[8:]) + arr_access = "data" + elif fn_arg.startswith("LDKTransaction ") or fn_arg == "LDKTransaction": + fn_arg = "uint8_t (*" + fn_arg[15:] + ")[datalen]" + rust_obj = "LDKTransaction" + assert var_is_arr_regex.match(fn_arg[8:]) + arr_access = "data" + elif fn_arg.startswith("LDKTransactionOutputs "): + fn_arg = "C2Tuple_ThirtyTwoBytesCVec_C2Tuple_u32TxOutZZZ" + rust_obj = "C2Tuple_ThirtyTwoBytesCVec_C2Tuple_u32TxOutZZZ" + elif fn_arg.startswith("LDKWitness ") or fn_arg == "LDKWitness": + if len(fn_arg) > 12 and fn_arg[11] == "*": + fn_arg = "uint8_t (" + fn_arg[11:] + ")[datalen]" else: - out_java.write(" arg") - out_c.write(" arg") + fn_arg = "uint8_t (*" + fn_arg[11:] + ")[datalen]" + rust_obj = "LDKWitness" + assert var_is_arr_regex.match(fn_arg[8:]) + arr_access = "data" + elif fn_arg.startswith("LDKCVec_"): + is_ptr = False + if "*" in fn_arg: + fn_arg = fn_arg.replace("*", "") + is_ptr = True + + tyn = fn_arg[8:].split(" ") + assert tyn[0].endswith("Z") + if tyn[0] == "u64Z": + new_arg = "uint64_t" + else: + new_arg = "LDK" + tyn[0][:-1] + for a in tyn[1:]: + new_arg = new_arg + " " + a + res = java_c_types(new_arg, ret_arr_len) + if res is None: + assert java_c_types_none_allowed + return None + if is_ptr: + res.pass_by_ref = True + java_ty = consts.java_arr_ty_str(res.java_ty) + if res.is_native_primitive or res.passed_as_ptr: + return TypeInfo(rust_obj=fn_arg.split(" ")[0], java_ty=java_ty, java_hu_ty=res.java_hu_ty + "[]", + java_fn_ty_arg="[" + res.java_fn_ty_arg, c_ty=res.c_ty + "Array", passed_as_ptr=False, is_ptr=is_ptr, + nonnull_ptr=nonnull_ptr, is_const=is_const, + var_name=res.var_name, arr_len="datalen", arr_access="data", subty=res, is_native_primitive=False) + else: + return TypeInfo(rust_obj=fn_arg.split(" ")[0], java_ty=java_ty, java_hu_ty=res.java_hu_ty + "[]", + java_fn_ty_arg="[" + res.java_fn_ty_arg, c_ty=consts.ptr_arr, passed_as_ptr=False, is_ptr=is_ptr, + nonnull_ptr=nonnull_ptr, is_const=is_const, + var_name=res.var_name, arr_len="datalen", arr_access="data", subty=res, is_native_primitive=False) + + is_primitive = False + contains_trait = False + arr_len = None + mapped_type = [] + java_type_plural = None + arr_ty = None + if fn_arg.startswith("void"): + java_ty = "void" + c_ty = "void" + fn_ty_arg = "V" + fn_arg = fn_arg[4:].strip() + is_primitive = True + elif fn_arg.startswith("bool"): + java_ty = consts.c_type_map['bool'][0] + c_ty = "jboolean" + fn_ty_arg = "Z" + arr_ty = "bool" + fn_arg = fn_arg[4:].strip() + is_primitive = True + elif fn_arg.startswith("uint8_t"): + mapped_type = consts.c_type_map['uint8_t'] + java_ty = mapped_type[0] + c_ty = "int8_t" + fn_ty_arg = "B" + arr_ty = "uint8_t" + fn_arg = fn_arg[7:].strip() + is_primitive = True + elif fn_arg.startswith("LDKU5") or fn_arg.startswith("LDKWitnessVersion"): + java_ty = consts.c_type_map['uint8_t'][0] + if fn_arg.startswith("LDKU5"): + java_hu_ty = "UInt5" + rust_obj = "LDKU5" + fn_arg = fn_arg[6:].strip() + else: + java_hu_ty = "WitnessVersion" + rust_obj = "LDKWitnessVersion" + fn_arg = fn_arg[18:].strip() + c_ty = "int8_t" + arr_ty = "uint8_t" + fn_ty_arg = "B" + elif fn_arg.startswith("uint16_t"): + mapped_type = consts.c_type_map['uint16_t'] + java_ty = mapped_type[0] + c_ty = "int16_t" + arr_ty = "uint16_t" + fn_ty_arg = "S" + fn_arg = fn_arg[8:].strip() + is_primitive = True + elif fn_arg.startswith("uint32_t"): + mapped_type = consts.c_type_map['uint32_t'] + java_ty = mapped_type[0] + c_ty = "int32_t" + arr_ty = "uint32_t" + fn_ty_arg = "I" + fn_arg = fn_arg[8:].strip() + is_primitive = True + elif fn_arg.startswith("int64_t"): + mapped_type = consts.c_type_map['int64_t'] + java_ty = mapped_type[0] + c_ty = "int64_t" + arr_ty = "int64_t" + fn_ty_arg = "J" + fn_arg = fn_arg[7:].strip() + is_primitive = True + elif fn_arg.startswith("double"): + mapped_type = consts.c_type_map['double'] + java_ty = mapped_type[0] + c_ty = "double" + arr_ty = "double" + fn_ty_arg = "D" + fn_arg = fn_arg[6:].strip() + is_primitive = True + elif fn_arg.startswith("uint64_t") or fn_arg.startswith("uintptr_t"): + # TODO: uintptr_t is arch-dependent :( + mapped_type = consts.c_type_map['uint64_t'] + java_ty = mapped_type[0] + fn_ty_arg = "J" + if fn_arg.startswith("uint64_t"): + c_ty = "int64_t" + arr_ty = "uint64_t" + fn_arg = fn_arg[8:].strip() + else: + java_ty = consts.usize_native_ty + c_ty = consts.usize_c_ty + arr_ty = "uintptr_t" + rust_obj = "uintptr_t" + fn_arg = fn_arg[9:].strip() + is_primitive = True + elif is_const and fn_arg.startswith("char *"): + java_ty = consts.java_type_map["String"] + java_hu_ty = consts.java_hu_type_map["String"] + c_ty = "const char*" + arr_ty = "LDKStr" + fn_ty_arg = "Ljava/lang/String;" + fn_arg = fn_arg[6:].strip() + elif fn_arg.startswith("LDKStr") or fn_arg.startswith("LDKAddress"): + rust_obj = "LDKStr" + arr_ty = "LDKStr" + java_ty = consts.java_type_map["String"] + java_hu_ty = consts.java_hu_type_map["String"] + c_ty = "jstring" + fn_ty_arg = "Ljava/lang/String;" + if fn_arg.startswith("LDKAddress"): + fn_arg = fn_arg[10:].strip() + else: + fn_arg = fn_arg[6:].strip() + arr_access = "chars" + arr_len = "len" + elif fn_arg.startswith("LDKError ") or fn_arg == "LDKError": + java_ty = consts.c_type_map['uint32_t'][0] + java_hu_ty = "UnqualifiedError" + rust_obj = "LDKError" + c_ty = "int32_t" + arr_ty = "uint32_t" + fn_ty_arg = "I" + fn_arg = fn_arg[8:].strip() + else: + ma = var_ty_regex.match(fn_arg) + arr_ty = ma.group(1).strip() + if ma.group(1).strip() in unitary_enums: + assert ma.group(1).strip().startswith("LDK") + java_ty = ma.group(1).strip()[3:] + java_hu_ty = java_ty + c_ty = consts.unitary_enum_c_ty + fn_ty_arg = "Lorg/ldk/enums/" + java_ty + ";" + fn_arg = ma.group(2).strip() + rust_obj = ma.group(1).strip() + else: + c_ty = consts.ptr_c_ty + java_ty = consts.ptr_native_ty + java_hu_ty = ma.group(1).strip() + java_hu_ty = java_hu_ty.replace("LDKCOption", "Option") + java_hu_ty = java_hu_ty.replace("LDKCResult", "Result") + java_hu_ty = java_hu_ty.replace("LDKC2Tuple", "TwoTuple") + java_hu_ty = java_hu_ty.replace("LDKC3Tuple", "ThreeTuple") + java_hu_ty = java_hu_ty.replace("LDKC4Tuple", "FourTuple") + java_hu_ty = java_hu_ty.replace("LDK", "") + fn_ty_arg = "J" + fn_arg = ma.group(2).strip() + rust_obj = ma.group(1).strip() + if rust_obj in trait_structs: + contains_trait = True + elif rust_obj in complex_enums: + contains_trait = complex_enums[rust_obj] + take_by_ptr = True + + if fn_arg.startswith(" *") or fn_arg.startswith("*"): + fn_arg = fn_arg.replace("*", "").strip() + is_ptr = True + c_ty = consts.ptr_c_ty + java_ty = consts.ptr_native_ty + fn_ty_arg = "J" + + var_is_arr = var_is_arr_regex.match(fn_arg) + subty = None + if var_is_arr is not None or ret_arr_len is not None: + assert(not take_by_ptr) + assert(not is_ptr) + # is there a special case for plurals? + if len(mapped_type) == 3: + java_ty = mapped_type[1] + java_hu_ty = mapped_type[2] + else: + java_ty = java_ty + "[]" + java_hu_ty = java_ty + if rust_obj == "LDKU128": + java_hu_ty = consts.u128_native_ty + c_ty = c_ty + "Array" + + subty = java_c_types(arr_ty, None) + if subty is None: + assert java_c_types_none_allowed + return None + if is_ptr: + subty.pass_by_ref = True + + if var_is_arr is not None: + if var_is_arr.group(1) == "": + return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_hu_ty=java_hu_ty, java_fn_ty_arg="[" + fn_ty_arg, c_ty=c_ty, is_const=is_const, + passed_as_ptr=False, is_ptr=False, nonnull_ptr=nonnull_ptr, var_name="arg", subty=subty, + arr_len=var_is_arr.group(2), arr_access=arr_access, is_native_primitive=False, contains_trait=contains_trait) + return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_hu_ty=java_hu_ty, java_fn_ty_arg="[" + fn_ty_arg, c_ty=c_ty, is_const=is_const, + passed_as_ptr=False, is_ptr=False, nonnull_ptr=nonnull_ptr, var_name=var_is_arr.group(1), subty=subty, + arr_len=var_is_arr.group(2), arr_access=arr_access, is_native_primitive=False, contains_trait=contains_trait) + + if java_hu_ty is None: + java_hu_ty = java_ty + return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_hu_ty=java_hu_ty, java_fn_ty_arg=fn_ty_arg, c_ty=c_ty, passed_as_ptr=is_ptr or take_by_ptr, + is_const=is_const, is_ptr=is_ptr, nonnull_ptr=nonnull_ptr, var_name=fn_arg, arr_len=arr_len, arr_access=arr_access, is_native_primitive=is_primitive, + contains_trait=contains_trait, subty=subty) + fn_ptr_regex = re.compile("^extern const ([A-Za-z_0-9\* ]*) \(\*(.*)\)\((.*)\);$") fn_ret_arr_regex = re.compile("(.*) \(\*(.*)\((.*)\)\)\[([0-9]*)\];$") reg_fn_regex = re.compile("([A-Za-z_0-9\* ]* \*?)([a-zA-Z_0-9]*)\((.*)\);$") clone_fns = set() +constructor_fns = {} + +from gen_type_mapping import TypeMappingGenerator +type_mapping_generator = TypeMappingGenerator(java_c_types, consts, opaque_structs, clone_fns, unitary_enums, trait_structs, complex_enums, result_types, tuple_types) + with open(sys.argv[1]) as in_h: for line in in_h: reg_fn = reg_fn_regex.match(line) if reg_fn is not None: if reg_fn.group(2).endswith("_clone"): clone_fns.add(reg_fn.group(2)) + else: + rty = java_c_types(reg_fn.group(1), None) + if rty is not None and not rty.is_native_primitive and reg_fn.group(2) == rty.java_hu_ty + "_new": + constructor_fns[rty.rust_obj] = reg_fn.group(3) continue arr_fn = fn_ret_arr_regex.match(line) if arr_fn is not None: if arr_fn.group(2).endswith("_clone"): clone_fns.add(arr_fn.group(2)) + # No object constructors return arrays, as then they wouldn't be an object constructor continue -with open(sys.argv[1]) as in_h, open(sys.argv[2], "w") as out_java, open(sys.argv[4], "w") as out_c: - opaque_structs = set() - trait_structs = set() - unitary_enums = set() - - def camel_to_snake(s): - # Convert camel case to snake case, in a way that appears to match cbindgen - con = "_" - ret = "" - lastchar = "" - lastund = False - for char in s: - if lastchar.isupper(): - if not char.isupper() and not lastund: - ret = ret + "_" - lastund = True - else: - lastund = False - ret = ret + lastchar.lower() +# Define some manual clones... +clone_fns.add("ThirtyTwoBytes_clone") +write_c("static inline struct LDKThirtyTwoBytes ThirtyTwoBytes_clone(const struct LDKThirtyTwoBytes *orig) { struct LDKThirtyTwoBytes ret; memcpy(ret.data, orig->data, 32); return ret; }\n\n") + + +write_c("static inline void* untag_ptr(uint64_t ptr) {\n") +write_c("\tif (ptr < 4096) return (void*)ptr;\n") +write_c("\tif (sizeof(void*) == 4) {\n") +write_c("\t\t// For 32-bit systems, store pointers as 64-bit ints and use the 31st bit\n") +write_c("\t\treturn (void*)(uintptr_t)ptr;\n") +write_c("\t} else {\n") +write_c("\t\t// For 64-bit systems, assume the top byte is used for tagging, then\n") +write_c("\t\t// use bit 9 ^ bit 10.\n") +write_c("\t\tuint64_t tenth_bit = (((uintptr_t)ptr) & (1ULL << 54)) >> 54;\n") +write_c("\t\tuintptr_t p = (ptr & ~(1ULL << 55)) | (tenth_bit << 55);\n") +write_c("#ifdef LDK_DEBUG_BUILD\n") +write_c("\t\t// On debug builds we also use the 11th bit as a debug flag\n") +write_c("\t\tuintptr_t eleventh_bit = (((uintptr_t)ptr) & (1ULL << 53)) >> 53;\n") +write_c("\t\tCHECK(tenth_bit != eleventh_bit);\n") +write_c("\t\tp ^= 1ULL << 53;\n") +write_c("#endif\n") +write_c("\t\treturn (void*)p;\n") +write_c("\t}\n") +write_c("}\n") + +write_c("static inline bool ptr_is_owned(uint64_t ptr) {\n") +write_c("\tif(ptr < 4096) return true;\n") +write_c("\tif (sizeof(void*) == 4) {\n") +write_c("\t\treturn ptr & (1ULL << 32);\n") +write_c("\t} else {\n") +write_c("\t\tuintptr_t ninth_bit = (((uintptr_t)ptr) & (1ULL << 55)) >> 55;\n") +write_c("\t\tuintptr_t tenth_bit = (((uintptr_t)ptr) & (1ULL << 54)) >> 54;\n") +write_c("#ifdef LDK_DEBUG_BUILD\n") +write_c("\t\t// On debug builds we also use the 11th bit as a debug flag\n") +write_c("\t\tuintptr_t eleventh_bit = (((uintptr_t)ptr) & (1ULL << 53)) >> 53;\n") +write_c("\t\tCHECK(tenth_bit != eleventh_bit);\n") +write_c("#endif\n") +write_c("\t\treturn (ninth_bit ^ tenth_bit) ? true : false;\n") +write_c("\t}\n") +write_c("}\n") + +write_c("static inline uint64_t tag_ptr(const void* ptr, bool is_owned) {\n") +write_c("\tif ((uintptr_t)ptr < 4096) return (uint64_t)ptr;\n") +write_c("\tif (sizeof(void*) == 4) {\n") +write_c("\t\treturn (((uint64_t)ptr) | ((is_owned ? 1ULL : 0) << 32));\n") +write_c("\t} else {\n") +write_c("\t\tCHECK(sizeof(uintptr_t) == 8);\n") +write_c("\t\tuintptr_t tenth_bit = (((uintptr_t)ptr) & (1ULL << 54)) >> 54;\n") +write_c("\t\tuintptr_t t = (((uintptr_t)ptr) | (((is_owned ? 1ULL : 0ULL) ^ tenth_bit) << 55));\n") +write_c("#ifdef LDK_DEBUG_BUILD\n") +write_c("\t\tuintptr_t ninth_bit = (((uintptr_t)ptr) & (1ULL << 55)) >> 55;\n") +write_c("\t\tuintptr_t eleventh_bit = (((uintptr_t)ptr) & (1ULL << 53)) >> 53;\n") +write_c("\t\tCHECK(ninth_bit == tenth_bit);\n") +write_c("\t\tCHECK(ninth_bit == eleventh_bit);\n") +write_c("\t\tt ^= 1ULL << 53;\n") +write_c("#endif\n") +write_c("\t\tCHECK(ptr_is_owned(t) == is_owned);\n") +write_c("\t\tCHECK(untag_ptr(t) == ptr);\n") +#write_c("\t\tCHECK(untag_ptr((uintptr_t)untag_ptr(t)) == ptr);\n") +write_c("\t\treturn t;\n") +write_c("\t}\n") +write_c("}\n\n") + +java_c_types_none_allowed = False # C structs created by cbindgen are declared in dependency order + +with open(f"{sys.argv[3]}/structs/UtilMethods{consts.file_ext}", "a") as util: + util.write(consts.util_fn_pfx) + +with open(sys.argv[1]) as in_h, open(f"{sys.argv[2]}/bindings{consts.file_ext}", "w") as out_java: + # Map a top-level function + def map_fn(line, re_match, ret_arr_len, c_call_string, doc_comment): + map_fn_with_ref_option(line, re_match, ret_arr_len, c_call_string, doc_comment, False) + def map_fn_with_ref_option(line, re_match, ret_arr_len, c_call_string, doc_comment, force_holds_ref): + method_return_type = re_match.group(1) + method_name = re_match.group(2) + method_comma_separated_arguments = re_match.group(3) + method_arguments = method_comma_separated_arguments.split(',') + + if method_name.startswith("__"): + return + + is_free = method_name.endswith("_free") + if method_name.startswith("COption") or method_name.startswith("CResult"): + struct_meth = method_name.rsplit("Z", 1)[0][1:] + "Z" + expected_struct = "LDKC" + struct_meth + struct_meth_name = method_name[len(struct_meth) + 1:].strip("_") + elif method_name.startswith("C2Tuple") or method_name.startswith("C3Tuple") or method_name.startswith("C4Tuple"): + tuple_name = method_name.rsplit("Z", 1)[0][2:] + "Z" + if method_name.startswith("C2Tuple"): + struct_meth = "Two" + tuple_name + expected_struct = "LDKC2" + tuple_name + elif method_name.startswith("C3Tuple"): + struct_meth = "Three" + tuple_name + expected_struct = "LDKC3" + tuple_name else: - ret = ret + lastchar - if char.isupper() and not lastund: - ret = ret + "_" - lastund = True - else: - lastund = False - lastchar = char - if char.isnumeric(): - lastund = True - return (ret + lastchar.lower()).strip("_") - - var_is_arr_regex = re.compile("\(\*([A-za-z0-9_]*)\)\[([a-z0-9]*)\]") - var_ty_regex = re.compile("([A-za-z_0-9]*)(.*)") - 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:] - is_const = False - if fn_arg.startswith("const "): - fn_arg = fn_arg[6:] - is_const = True - - is_ptr = False - take_by_ptr = False - rust_obj = None - arr_access = None - if fn_arg.startswith("LDKThirtyTwoBytes"): - fn_arg = "uint8_t (*" + fn_arg[18:] + ")[32]" - assert var_is_arr_regex.match(fn_arg[8:]) - rust_obj = "LDKThirtyTwoBytes" - arr_access = "data" - if fn_arg.startswith("LDKPublicKey"): - fn_arg = "uint8_t (*" + fn_arg[13:] + ")[33]" - assert var_is_arr_regex.match(fn_arg[8:]) - rust_obj = "LDKPublicKey" - arr_access = "compressed_form" - if fn_arg.startswith("LDKSecretKey"): - fn_arg = "uint8_t (*" + fn_arg[13:] + ")[32]" - assert var_is_arr_regex.match(fn_arg[8:]) - rust_obj = "LDKSecretKey" - arr_access = "bytes" - if fn_arg.startswith("LDKSignature"): - fn_arg = "uint8_t (*" + fn_arg[13:] + ")[64]" - assert var_is_arr_regex.match(fn_arg[8:]) - rust_obj = "LDKSignature" - arr_access = "compact_form" - if fn_arg.startswith("LDKThreeBytes"): - fn_arg = "uint8_t (*" + fn_arg[14:] + ")[3]" - assert var_is_arr_regex.match(fn_arg[8:]) - rust_obj = "LDKThreeBytes" - arr_access = "data" - if fn_arg.startswith("LDKu8slice"): - fn_arg = "uint8_t (*" + fn_arg[11:] + ")[datalen]" - assert var_is_arr_regex.match(fn_arg[8:]) - rust_obj = "LDKu8slice" - arr_access = "data" - - if fn_arg.startswith("void"): - java_ty = "void" - c_ty = "void" - fn_ty_arg = "V" - fn_arg = fn_arg[4:].strip() - elif fn_arg.startswith("bool"): - java_ty = "boolean" - c_ty = "jboolean" - fn_ty_arg = "Z" - fn_arg = fn_arg[4:].strip() - elif fn_arg.startswith("uint8_t"): - java_ty = "byte" - c_ty = "jbyte" - fn_ty_arg = "B" - fn_arg = fn_arg[7:].strip() - elif fn_arg.startswith("uint16_t"): - java_ty = "short" - c_ty = "jshort" - fn_ty_arg = "S" - fn_arg = fn_arg[8:].strip() - elif fn_arg.startswith("uint32_t"): - java_ty = "int" - c_ty = "jint" - fn_ty_arg = "I" - fn_arg = fn_arg[8:].strip() - elif fn_arg.startswith("uint64_t") or fn_arg.startswith("uintptr_t"): - java_ty = "long" - c_ty = "jlong" - fn_ty_arg = "J" - if fn_arg.startswith("uint64_t"): - fn_arg = fn_arg[8:].strip() - else: - fn_arg = fn_arg[9:].strip() - elif is_const and fn_arg.startswith("char *"): - java_ty = "String" - c_ty = "const char*" - fn_ty_arg = "Ljava/lang/String;" - fn_arg = fn_arg[6:].strip() + struct_meth = "Four" + tuple_name + expected_struct = "LDKC4" + tuple_name + struct_meth_name = method_name[len(tuple_name) + 2:].strip("_") else: - ma = var_ty_regex.match(fn_arg) - if ma.group(1).strip() in unitary_enums: - java_ty = ma.group(1).strip() - c_ty = "jclass" - fn_ty_arg = "Lorg/ldk/enums/" + ma.group(1).strip() + ";" - fn_arg = ma.group(2).strip() - rust_obj = ma.group(1).strip() - take_by_ptr = True - else: - java_ty = "long" - c_ty = "jlong" - fn_ty_arg = "J" - fn_arg = ma.group(2).strip() - rust_obj = ma.group(1).strip() - take_by_ptr = True - - if fn_arg.startswith(" *") or fn_arg.startswith("*"): - fn_arg = fn_arg.replace("*", "").strip() - is_ptr = True - c_ty = "jlong" - java_ty = "long" - fn_ty_arg = "J" + struct_meth = method_name.split("_")[0] + expected_struct = "LDK" + struct_meth + struct_meth_name = method_name[len(struct_meth) + 1 if len(struct_meth) != 0 else 0:].strip("_") - var_is_arr = var_is_arr_regex.match(fn_arg) - if var_is_arr is not None or ret_arr_len is not None: - assert(not take_by_ptr) - assert(not is_ptr) - java_ty = java_ty + "[]" - c_ty = c_ty + "Array" - if var_is_arr is not None: - if var_is_arr.group(1) == "": - return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_fn_ty_arg="[" + fn_ty_arg, c_ty=c_ty, - passed_as_ptr=False, is_ptr=False, var_name="arg", arr_len=var_is_arr.group(2), arr_access=arr_access) - return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_fn_ty_arg="[" + fn_ty_arg, c_ty=c_ty, - passed_as_ptr=False, is_ptr=False, var_name=var_is_arr.group(1), arr_len=var_is_arr.group(2), arr_access=arr_access) - return TypeInfo(rust_obj=rust_obj, java_ty=java_ty, java_fn_ty_arg=fn_ty_arg, c_ty=c_ty, passed_as_ptr=is_ptr or take_by_ptr, - is_ptr=is_ptr, var_name=fn_arg, arr_len=None, arr_access=None) - - def map_type(fn_arg, print_void, ret_arr_len, is_free): - ty_info = java_c_types(fn_arg, ret_arr_len) - - if ty_info.c_ty == "void": - if not print_void: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = None, arg_conv_name = None, arg_conv_cleanup = None, - ret_conv = None, ret_conv_name = None) - - if ty_info.c_ty.endswith("Array"): - arr_len = ty_info.arr_len - if arr_len is not None: - arr_name = ty_info.var_name - else: - arr_name = "ret" - arr_len = ret_arr_len - assert(ty_info.c_ty == "jbyteArray") - ret_conv = ("jbyteArray " + arr_name + "_arr = (*_env)->NewByteArray(_env, " + arr_len + ");\n" + "(*_env)->SetByteArrayRegion(_env, " + arr_name + "_arr, 0, " + arr_len + ", ", "") - arg_conv_cleanup = None - if not arr_len.isdigit(): - arg_conv = ty_info.rust_obj + " " + arr_name + "_ref;\n" - arg_conv = arg_conv + arr_name + "_ref." + ty_info.arr_access + " = (*_env)->GetByteArrayElements (_env, " + arr_name + ", NULL);\n" - arg_conv = arg_conv + arr_name + "_ref." + arr_len + " = (*_env)->GetArrayLength (_env, " + arr_name + ");" - arg_conv_cleanup = "(*_env)->ReleaseByteArrayElements(_env, " + arr_name + ", (int8_t*)" + arr_name + "_ref." + ty_info.arr_access + ", 0);" - arr_access = "." + ty_info.arr_access - ret_conv = (ty_info.rust_obj + " " + arr_name + "_var = ", "") - ret_conv = (ret_conv[0], ";\njbyteArray " + arr_name + "_arr = (*_env)->NewByteArray(_env, " + arr_name + "_var." + arr_len + ");\n") - ret_conv = (ret_conv[0], ret_conv[1] + "(*_env)->SetByteArrayRegion(_env, " + arr_name + "_arr, 0, " + arr_name + "_var." + arr_len + ", " + arr_name + "_var." + ty_info.arr_access + ");") - elif ty_info.rust_obj is not None: - arg_conv = ty_info.rust_obj + " " + arr_name + "_ref;\n" - arg_conv = arg_conv + "CHECK((*_env)->GetArrayLength (_env, " + arr_name + ") == " + arr_len + ");\n" - arg_conv = arg_conv + "(*_env)->GetByteArrayRegion (_env, " + arr_name + ", 0, " + arr_len + ", " + arr_name + "_ref." + ty_info.arr_access + ");" - ret_conv = (ret_conv[0], "." + ty_info.arr_access + ");") - else: - arg_conv = "unsigned char " + arr_name + "_arr[" + arr_len + "];\n" - arg_conv = arg_conv + "CHECK((*_env)->GetArrayLength (_env, " + arr_name + ") == " + arr_len + ");\n" - arg_conv = arg_conv + "(*_env)->GetByteArrayRegion (_env, " + arr_name + ", 0, " + arr_len + ", " + arr_name + "_arr);\n" + "unsigned char (*" + arr_name + "_ref)[" + arr_len + "] = &" + arr_name + "_arr;" - ret_conv = (ret_conv[0] + "*", ");") - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = arg_conv, arg_conv_name = arr_name + "_ref", arg_conv_cleanup = arg_conv_cleanup, - ret_conv = ret_conv, ret_conv_name = arr_name + "_arr") - elif ty_info.var_name != "": - # If we have a parameter name, print it (noting that it may indicate its a pointer) - if ty_info.rust_obj is not None: - assert(ty_info.passed_as_ptr) - opaque_arg_conv = ty_info.rust_obj + " " + ty_info.var_name + "_conv;\n" - opaque_arg_conv = opaque_arg_conv + ty_info.var_name + "_conv.inner = (void*)(" + ty_info.var_name + " & (~1));\n" - opaque_arg_conv = opaque_arg_conv + ty_info.var_name + "_conv.is_owned = (" + ty_info.var_name + " & 1) || (" + ty_info.var_name + " == 0);" - if not ty_info.is_ptr and not is_free: - if (ty_info.rust_obj.replace("LDK", "") + "_clone") in clone_fns: - # TODO: This is a bit too naive, even with the checks above, we really need to know if rust wants a ref or not, not just if its pass as a ptr. - opaque_arg_conv = opaque_arg_conv + "\nif (" + ty_info.var_name + "_conv.inner != NULL)\n" - opaque_arg_conv = opaque_arg_conv + "\t" + ty_info.var_name + "_conv = " + ty_info.rust_obj.replace("LDK", "") + "_clone(&" + ty_info.var_name + "_conv);" - elif ty_info.passed_as_ptr: - opaque_arg_conv = opaque_arg_conv + "\n// Warning: we may need a move here but can't clone!" - if not ty_info.is_ptr: - if ty_info.rust_obj in unitary_enums: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = ty_info.rust_obj + " " + ty_info.var_name + "_conv = " + ty_info.rust_obj + "_from_java(_env, " + ty_info.var_name + ");", - arg_conv_name = ty_info.var_name + "_conv", - arg_conv_cleanup = None, - ret_conv = ("jclass " + ty_info.var_name + "_conv = " + ty_info.rust_obj + "_to_java(_env, ", ");"), - ret_conv_name = ty_info.var_name + "_conv") - if ty_info.rust_obj in opaque_structs: - ret_conv_suf = ";\nCHECK((((long)" + ty_info.var_name + "_var.inner) & 1) == 0); // We rely on a free low bit, malloc guarantees this.\n" - ret_conv_suf = ret_conv_suf + "CHECK((((long)&" + ty_info.var_name + "_var) & 1) == 0); // We rely on a free low bit, pointer alignment guarantees this.\n" - ret_conv_suf = ret_conv_suf + "long " + ty_info.var_name + "_ref;\n" - ret_conv_suf = ret_conv_suf + "if (" + ty_info.var_name + "_var.is_owned) {\n" - ret_conv_suf = ret_conv_suf + "\t" + ty_info.var_name + "_ref = (long)" + ty_info.var_name + "_var.inner | 1;\n" - ret_conv_suf = ret_conv_suf + "} else {\n" - ret_conv_suf = ret_conv_suf + "\t" + ty_info.var_name + "_ref = (long)&" + ty_info.var_name + "_var;\n" - ret_conv_suf = ret_conv_suf + "}" - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = opaque_arg_conv, arg_conv_name = ty_info.var_name + "_conv", arg_conv_cleanup = None, - ret_conv = (ty_info.rust_obj + " " + ty_info.var_name + "_var = ", ret_conv_suf), - ret_conv_name = ty_info.var_name + "_ref") - base_conv = ty_info.rust_obj + " " + ty_info.var_name + "_conv = *(" + ty_info.rust_obj + "*)" + ty_info.var_name + ";"; - if ty_info.rust_obj in trait_structs: - if not is_free: - base_conv = base_conv + "\nif (" + ty_info.var_name + "_conv.free == " + ty_info.rust_obj + "_JCalls_free) {\n" - base_conv = base_conv + "\t// If this_arg is a JCalls struct, then we need to increment the refcnt in it.\n" - base_conv = base_conv + "\t" + ty_info.rust_obj + "_JCalls_clone(" + ty_info.var_name + "_conv.this_arg);\n}" - else: - base_conv = base_conv + "\n" + "FREE((void*)" + ty_info.var_name + ");" - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = base_conv, arg_conv_name = ty_info.var_name + "_conv", arg_conv_cleanup = None, - ret_conv = ("CANT PASS TRAIT TO Java?", ""), ret_conv_name = "NO CONV POSSIBLE") - if ty_info.rust_obj != "LDKu8slice": - # Don't bother free'ing slices passed in - Rust doesn't auto-free the - # underlying unlike Vecs, and it gives Java more freedom. - base_conv = base_conv + "\nFREE((void*)" + ty_info.var_name + ");"; - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = base_conv, arg_conv_name = ty_info.var_name + "_conv", arg_conv_cleanup = None, - ret_conv = ("long " + ty_info.var_name + "_ref = (long)&", ";"), ret_conv_name = ty_info.var_name + "_ref") - else: - assert(not is_free) - if ty_info.rust_obj in opaque_structs: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = opaque_arg_conv, arg_conv_name = "&" + ty_info.var_name + "_conv", arg_conv_cleanup = None, - ret_conv = None, ret_conv_name = None) # its a pointer, no conv needed - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = ty_info.rust_obj + "* " + ty_info.var_name + "_conv = (" + ty_info.rust_obj + "*)" + ty_info.var_name + ";", - arg_conv_name = ty_info.var_name + "_conv", arg_conv_cleanup = None, - ret_conv = None, ret_conv_name = None) # its a pointer, no conv needed - elif ty_info.is_ptr: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = None, arg_conv_name = ty_info.var_name, arg_conv_cleanup = None, ret_conv = None, ret_conv_name = None) - elif ty_info.java_ty == "String": - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = None, arg_conv_name = None, arg_conv_cleanup = None, - ret_conv = ("jstring " + ty_info.var_name + "_conv = (*_env)->NewStringUTF(_env, ", ");"), ret_conv_name = ty_info.var_name + "_conv") - else: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = None, arg_conv_name = ty_info.var_name, arg_conv_cleanup = None, ret_conv = None, ret_conv_name = None) - elif not print_void: - # We don't have a parameter name, and want one, just call it arg - if ty_info.rust_obj is not None: - assert(not is_free or ty_info.rust_obj not in opaque_structs); - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = ty_info.rust_obj + " arg_conv = *(" + ty_info.rust_obj + "*)arg;\nFREE((void*)arg);", - arg_conv_name = "arg_conv", arg_conv_cleanup = None, - ret_conv = None, ret_conv_name = None) - else: - assert(not is_free) - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = None, arg_conv_name = "arg", arg_conv_cleanup = None, ret_conv = None, ret_conv_name = None) + (params_nullable, ret_nullable) = doc_to_params_ret_nullable(doc_comment) + if ret_nullable: + return_type_info = type_mapping_generator.map_nullable_type(method_return_type.strip() + " ret", True, ret_arr_len, False, force_holds_ref) else: - # We don't have a parameter name, and don't want one (cause we're returning) - if ty_info.rust_obj is not None: - if not ty_info.is_ptr: - if ty_info.rust_obj in unitary_enums: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = ty_info.rust_obj + " ret = " + ty_info.rust_obj + "_from_java(_env, " + ty_info.var_name + ");", - arg_conv_name = "ret", arg_conv_cleanup = None, - ret_conv = ("jclass ret = " + ty_info.rust_obj + "_to_java(_env, ", ");"), ret_conv_name = "ret") - if ty_info.rust_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 ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - ret_conv = (ty_info.rust_obj + " ret = ", ";"), - ret_conv_name = "((long)ret.inner) | (ret.is_owned ? 1 : 0)", - arg_conv = None, arg_conv_name = None, arg_conv_cleanup = None) - else: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - ret_conv = (ty_info.rust_obj + "* ret = MALLOC(sizeof(" + ty_info.rust_obj + "), \"" + ty_info.rust_obj + "\");\n*ret = ", ";"), - ret_conv_name = "(long)ret", - arg_conv = None, arg_conv_name = None, arg_conv_cleanup = None) - else: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - ret_conv = ("long ret = (long)", ";"), ret_conv_name = "ret", - arg_conv = None, arg_conv_name = None, arg_conv_cleanup = None) - else: - return ConvInfo(ty_info = ty_info, arg_name = ty_info.var_name, - arg_conv = None, arg_conv_name = None, arg_conv_cleanup = None, ret_conv = None, ret_conv_name = None) - - def map_fn(line, re_match, ret_arr_len, c_call_string): - out_java.write("\t// " + line) - out_java.write("\tpublic static native ") - out_c.write("JNIEXPORT ") - - is_free = re_match.group(2).endswith("_free") - struct_meth = re_match.group(2).split("_")[0] - - ret_info = map_type(re_match.group(1), True, ret_arr_len, False) - ret_info.print_ty() - - if ret_info.ret_conv is not None: - ret_conv_pfx, ret_conv_sfx = ret_info.ret_conv - - out_java.write(" " + re_match.group(2) + "(") - out_c.write(" JNICALL Java_org_ldk_impl_bindings_" + re_match.group(2).replace('_', '_1') + "(JNIEnv * _env, jclass _b") - - arg_names = [] + return_type_info = type_mapping_generator.map_type(method_return_type.strip() + " ret", True, ret_arr_len, False, force_holds_ref) + + if method_name.endswith("_clone") and expected_struct not in unitary_enums: + # LDKWitness is mapped as an array, so no need to implement clone + if expected_struct == "LDKWitness": + return + meth_line = "uint64_t " + expected_struct.replace("LDK", "") + "_clone_ptr(" + expected_struct + " *NONNULL_PTR arg)" + write_c("static inline " + meth_line + " {\n") + write_c("\t" + return_type_info.ret_conv[0].replace("\n", "\n\t")) + write_c(method_name + "(arg)") + write_c(return_type_info.ret_conv[1].replace("\n", "\n\t")) + write_c("\n\treturn " + return_type_info.ret_conv_name + ";\n}\n") + map_fn(meth_line + ";\n", re.compile("(uint64_t) ([A-Za-z_0-9]*)\((.*)\)").match(meth_line), None, None, None) + + argument_types = [] + default_constructor_args = {} takes_self = False - args_known = not ret_info.passed_as_ptr or ret_info.rust_obj in opaque_structs or ret_info.rust_obj in trait_structs - for idx, arg in enumerate(re_match.group(3).split(',')): - if idx != 0: - out_java.write(", ") - if arg != "void": - out_c.write(", ") - arg_conv_info = map_type(arg, False, None, is_free) - if arg_conv_info.c_ty != "void": - arg_conv_info.print_ty() - arg_conv_info.print_name() - if arg_conv_info.arg_name == "this_arg": - takes_self = True - if arg_conv_info.passed_as_ptr and not arg_conv_info.rust_obj in opaque_structs: - if not arg_conv_info.rust_obj in trait_structs and not arg_conv_info.rust_obj in unitary_enums: - print(re_match.group(2) + " bad - " + arg_conv_info.rust_obj) - args_known = False - if arg_conv_info.arg_conv is not None and "Warning" in arg_conv_info.arg_conv: - args_known = False - arg_names.append(arg_conv_info) + takes_self_ptr = False - out_java_struct = None - if ("LDK" + struct_meth in opaque_structs or "LDK" + struct_meth in trait_structs) and not is_free: - out_java_struct = open(sys.argv[3] + "/structs/" + struct_meth + ".java", "a") - if not args_known: - out_java_struct.write("\t// Skipped " + re_match.group(2) + "\n") - out_java_struct.close() - out_java_struct = None + for argument_index, argument in enumerate(method_arguments): + arg_ty = type_mapping_generator.java_c_types(argument, None) + argument_conversion_info = None + if argument_index == 0 and arg_ty.java_hu_ty == struct_meth: + argument_conversion_info = type_mapping_generator.map_type_with_info(arg_ty, False, None, is_free, True, False) + takes_self = True + if argument_conversion_info.ty_info.is_ptr: + takes_self_ptr = True + elif arg_ty.var_name in params_nullable: + argument_conversion_info = type_mapping_generator.map_type_with_info(arg_ty, False, None, is_free, True, True) + if argument_conversion_info.arg_conv is not None and "WARNING" in argument_conversion_info.arg_conv: + arg_ty_info = java_c_types(argument, None) + print("WARNING: Remapping argument " + arg_ty_info.var_name + " of function " + method_name + " to a reference") + print(" The argument appears to require a move, or not clonable, and is nullable.") + print(" Normally for arguments that require a move and are not clonable, we split") + print(" the argument into the type's constructor's arguments and just use those to") + print(" construct a new object on the fly.") + print(" However, because the object is nullable, doing so would mean we can no") + print(" longer allow the user to pass null, as we now have an argument list instead.") + print(" Thus, we blindly assume its really an Option<&Type> instead of an Option.") + print(" It may or may not actually be a reference, but its the simplest mapping option") + print(" and also the only use of this code today.") + arg_ty_info.requires_clone = False + argument_conversion_info = type_mapping_generator.map_type_with_info(arg_ty_info, False, None, is_free, True, True) + assert argument_conversion_info.nullable + assert argument_conversion_info.arg_conv is not None and "WARNING" not in argument_conversion_info.arg_conv else: - out_java_struct.write("\tpublic ") - meth_n = re_match.group(2)[len(struct_meth) + 1:] - if ret_info.rust_obj == "LDK" + struct_meth: - out_java_struct.write(struct_meth + "(") - elif ret_info.rust_obj in opaque_structs or ret_info.rust_obj in trait_structs: - out_java_struct.write(ret_info.rust_obj.replace("LDK", "") + " " + meth_n + "(") - else: - out_java_struct.write(ret_info.java_ty + " " + meth_n + "(") - for idx, arg in enumerate(arg_names): - if idx != 0: - if not takes_self or idx > 1: - out_java_struct.write(", ") - if arg.java_ty != "void" and arg.arg_name != "this_arg": - if arg.passed_as_ptr: - if arg.rust_obj in opaque_structs or arg.rust_obj in trait_structs: - out_java_struct.write(arg.rust_obj.replace("LDK", "") + " " + arg.arg_name) - else: - out_java_struct.write(arg.rust_obj + " " + arg.arg_name) - else: - out_java_struct.write(arg.java_ty + " " + arg.arg_name) - - - out_java.write(");\n") - out_c.write(") {\n") - if out_java_struct is not None: - out_java_struct.write(") {\n") - - for info in arg_names: - if info.arg_conv is not None: - out_c.write("\t" + info.arg_conv.replace('\n', "\n\t") + "\n") + argument_conversion_info = type_mapping_generator.map_type_with_info(arg_ty, False, None, is_free, True, False) + + if argument_conversion_info.arg_conv is not None and "WARNING" in argument_conversion_info.arg_conv: + if argument_conversion_info.rust_obj in constructor_fns: + assert not is_free + for explode_idx, explode_arg in enumerate(constructor_fns[argument_conversion_info.rust_obj].split(',')): + explode_arg_conv = type_mapping_generator.map_type(explode_arg, False, None, False, True) + if explode_idx == 0 and explode_arg_conv.c_ty == "void": + continue # (void) is C lingo for "no arguments) + if explode_arg_conv.c_ty == "void": + assert False + if not argument_conversion_info.arg_name in default_constructor_args: + default_constructor_args[argument_conversion_info.arg_name] = [] + default_constructor_args[argument_conversion_info.arg_name].append(explode_arg_conv) + argument_types.append(argument_conversion_info) + + if not takes_self and return_type_info.java_hu_ty != struct_meth: + if not return_type_info.java_hu_ty.startswith("Result_" + struct_meth): + struct_meth_name = method_name + struct_meth = "" + expected_struct = "" + + impl_on_struct = (expected_struct in opaque_structs or expected_struct in trait_structs or + expected_struct in complex_enums or expected_struct in complex_enums or + expected_struct in result_types or expected_struct in tuple_types) and not is_free + impl_on_utils = not impl_on_struct and (not is_free and not method_name.endswith("_clone") and + not method_name.startswith("TxOut") and not method_name.startswith("TxIn") and + not method_name.startswith("BigEndianScalar") and not method_name.startswith("WitnessProgram") and + not method_name.startswith("_") and + method_name != "check_platform" and method_name != "Result_read" and + not expected_struct in unitary_enums and + ((not method_name.startswith("C2Tuple_") and not method_name.startswith("C3Tuple_") and not method_name.startswith("C4Tuple_")) + or method_name.endswith("_read"))) + + # If we're adding a static method, and it returns a primitive or an array of primitives, + # and a variable conversion adds a reference on the return type (via `this`), skip the + # variable's conversion reference-add (as we obviously cannot need a reference). + if impl_on_utils and (return_type_info.is_native_primitive or + (return_type_info.ty_info.subty is not None and return_type_info.ty_info.subty.is_native_primitive)): + for arg in argument_types: + if arg.from_hu_conv is not None and arg.from_hu_conv[1] != "": + if "this" in arg.from_hu_conv[1]: + arg.from_hu_conv = (arg.from_hu_conv[0], "") - if ret_info.ret_conv is not None: - out_c.write("\t" + ret_conv_pfx.replace('\n', '\n\t')) - elif ret_info.c_ty != "void": - out_c.write("\t" + ret_info.c_ty + " ret_val = ") + out_java.write("\t// " + line) + args_known = True # We no longer ever set this to false + (out_java_delta, out_c_delta, out_java_struct_delta) = \ + consts.map_function(argument_types, c_call_string, method_name, struct_meth_name, return_type_info, struct_meth, default_constructor_args, takes_self, takes_self_ptr, args_known, type_mapping_generator, doc_comment) + out_java.write(out_java_delta) + + if is_free: + assert len(argument_types) == 1 + assert return_type_info.c_ty == "void" + write_c(consts.c_fn_ty_pfx + "void " + consts.c_fn_name_define_pfx(method_name, True) + argument_types[0].c_ty + " " + argument_types[0].ty_info.var_name + ") {\n") + if argument_types[0].ty_info.passed_as_ptr and not argument_types[0].ty_info.rust_obj in opaque_structs: + write_c("\tif (!ptr_is_owned(" + argument_types[0].ty_info.var_name + ")) return;\n") + + for info in argument_types: + if info.arg_conv is not None: + write_c("\t" + info.arg_conv.replace('\n', "\n\t") + "\n") + assert c_call_string is None + write_c("\t" + method_name + "(") + if argument_types[0].arg_conv_name is not None: + write_c(argument_types[0].arg_conv_name) + write_c(");") + for info in argument_types: + if info.arg_conv_cleanup is not None: + write_c("\n\t" + info.arg_conv_cleanup.replace("\n", "\n\t")) + write_c("\n}\n\n") else: - out_c.write("\t") + write_c(out_c_delta) - if c_call_string is None: - out_c.write(re_match.group(2) + "(") - else: - out_c.write(c_call_string) - for idx, info in enumerate(arg_names): - if info.arg_conv_name is not None: - if idx != 0: - out_c.write(", ") - elif c_call_string is not None: - continue - out_c.write(info.arg_conv_name) - out_c.write(")") - if ret_info.ret_conv is not None: - out_c.write(ret_conv_sfx.replace('\n', '\n\t')) - else: - out_c.write(";") - for info in arg_names: - if info.arg_conv_cleanup is not None: - out_c.write("\n\t" + info.arg_conv_cleanup.replace("\n", "\n\t")) - if ret_info.ret_conv is not None: - out_c.write("\n\treturn " + ret_info.ret_conv_name + ";") - elif ret_info.c_ty != "void": - out_c.write("\n\treturn ret_val;") - out_c.write("\n}\n\n") - if out_java_struct is not None: - out_java_struct.write("\t\t") - if ret_info.rust_obj == "LDK" + struct_meth: - out_java_struct.write("super(") - elif ret_info.java_ty != "void" and not ret_info.passed_as_ptr: - out_java_struct.write(ret_info.java_ty + " ret = ") - elif ret_info.java_ty != "void": - out_java_struct.write(ret_info.rust_obj.replace("LDK", "") + " ret = ") - if ret_info.rust_obj in opaque_structs or ret_info.rust_obj in trait_structs: - out_java_struct.write("new " + ret_info.rust_obj.replace("LDK", "") + "(null, ") - out_java_struct.write("bindings." + re_match.group(2) + "(") - for idx, info in enumerate(arg_names): - if idx != 0: - out_java_struct.write(", ") - if info.arg_name == "this_arg": - out_java_struct.write("this.ptr") - elif info.passed_as_ptr and info.rust_obj in opaque_structs: - out_java_struct.write(info.arg_name + " == null ? 0 : " + info.arg_name + ".ptr & ~1") - elif info.passed_as_ptr and info.rust_obj in trait_structs: - out_java_struct.write(info.arg_name + " == null ? 0 : " + info.arg_name + ".ptr") - else: - out_java_struct.write(info.arg_name) - out_java_struct.write(")") - if ret_info.rust_obj == "LDK" + struct_meth: - out_java_struct.write(");\n") - elif ret_info.rust_obj in opaque_structs: - out_java_struct.write(");\n") - elif ret_info.rust_obj in trait_structs: - out_java_struct.write(");\n\t\tret.ptrs_to.add(this);\n") - else: - out_java_struct.write(";\n") - - for info in arg_names: - if info.arg_name == "this_arg": - pass - elif info.passed_as_ptr and (info.rust_obj in opaque_structs or info.rust_obj in trait_structs): - out_java_struct.write("\t\tthis.ptrs_to.add(" + info.arg_name + ");\n") - - if ret_info.java_ty != "void" and ret_info.rust_obj != "LDK" + struct_meth: - out_java_struct.write("\t\treturn ret;\n") - out_java_struct.write("\t}\n\n") - out_java_struct.close() - - def map_unitary_enum(struct_name, field_lines): - with open(sys.argv[3] + "/enums/" + struct_name + ".java", "w") as out_java_enum: - out_java_enum.write("package org.ldk.enums;\n\n") + out_java_struct = None + if impl_on_struct: + out_java_struct = open(f"{sys.argv[3]}/structs/{struct_meth}{consts.file_ext}", "a") + out_java_struct.write(out_java_struct_delta) + elif impl_on_utils: + out_java_struct = open(f"{sys.argv[3]}/structs/UtilMethods{consts.file_ext}", "a") + for line in out_java_struct_delta.splitlines(): + out_java_struct.write(line + "\n") + + def map_unitary_enum(struct_name, field_lines, enum_doc_comment): + assert struct_name.startswith("LDK") + with open(f"{sys.argv[3]}/enums/{struct_name[3:]}{consts.file_ext}", "w") as out_java_enum: unitary_enums.add(struct_name) - out_c.write("static inline " + struct_name + " " + struct_name + "_from_java(JNIEnv *env, jclass val) {\n") - out_c.write("\tswitch ((*env)->CallIntMethod(env, val, ordinal_meth)) {\n") - ord_v = 0 - for idx, struct_line in enumerate(field_lines): + for idx, (struct_line, _) in enumerate(field_lines): if idx == 0: - out_java_enum.write("public enum " + struct_name + " {\n") + assert(struct_line == "typedef enum %s {" % struct_name) elif idx == len(field_lines) - 3: assert(struct_line.endswith("_Sentinel,")) elif idx == len(field_lines) - 2: - out_java_enum.write("\t; static native void init();\n") - out_java_enum.write("\tstatic { init(); }\n") - out_java_enum.write("}") - out_java.write("\tstatic { " + struct_name + ".values(); /* Force enum statics to run */ }\n") + assert(struct_line == "} %s;" % struct_name) elif idx == len(field_lines) - 1: assert(struct_line == "") - else: - out_java_enum.write(struct_line + "\n") - out_c.write("\t\tcase %d: return %s;\n" % (ord_v, struct_line.strip().strip(","))) - ord_v = ord_v + 1 - out_c.write("\t}\n") - out_c.write("\tabort();\n") - out_c.write("}\n") - - ord_v = 0 - out_c.write("static jclass " + struct_name + "_class = NULL;\n") - for idx, struct_line in enumerate(field_lines): - if idx > 0 and idx < len(field_lines) - 3: - variant = struct_line.strip().strip(",") - out_c.write("static jfieldID " + struct_name + "_" + variant + " = NULL;\n") - out_c.write("JNIEXPORT void JNICALL Java_org_ldk_enums_" + struct_name.replace("_", "_1") + "_init (JNIEnv * env, jclass clz) {\n") - out_c.write("\t" + struct_name + "_class = (*env)->NewGlobalRef(env, clz);\n") - out_c.write("\tCHECK(" + struct_name + "_class != NULL);\n") - for idx, struct_line in enumerate(field_lines): - if idx > 0 and idx < len(field_lines) - 3: - variant = struct_line.strip().strip(",") - out_c.write("\t" + struct_name + "_" + variant + " = (*env)->GetStaticFieldID(env, " + struct_name + "_class, \"" + variant + "\", \"Lorg/ldk/enums/" + struct_name + ";\");\n") - out_c.write("\tCHECK(" + struct_name + "_" + variant + " != NULL);\n") - out_c.write("}\n") - out_c.write("static inline jclass " + struct_name + "_to_java(JNIEnv *env, " + struct_name + " val) {\n") - out_c.write("\tswitch (val) {\n") - for idx, struct_line in enumerate(field_lines): - if idx > 0 and idx < len(field_lines) - 3: - variant = struct_line.strip().strip(",") - out_c.write("\t\tcase " + variant + ":\n") - out_c.write("\t\t\treturn (*env)->GetStaticObjectField(env, " + struct_name + "_class, " + struct_name + "_" + variant + ");\n") - ord_v = ord_v + 1 - out_c.write("\t\tdefault: abort();\n") - out_c.write("\t}\n") - out_c.write("}\n\n") - - def map_complex_enum(struct_name, union_enum_items): + assert struct_name.startswith("LDK") + (c_out, native_file_out, native_out) = consts.native_c_unitary_enum_map(struct_name[3:], [(x.strip().strip(","), y) for x, y in field_lines[1:-3]], enum_doc_comment) + write_c(c_out) + out_java_enum.write(native_file_out) + out_java.write(native_out) + + def map_complex_enum(struct_name, union_enum_items, inline_enum_variants, enum_doc_comment): + java_hu_type = struct_name.replace("LDK", "").replace("COption", "Option") + + enum_variants = [] tag_field_lines = union_enum_items["field_lines"] - init_meth_jty_strs = {} - for idx, struct_line in enumerate(tag_field_lines): + contains_trait = False + for idx, (struct_line, variant_docs) in enumerate(tag_field_lines): if idx == 0: - out_java.write("\tpublic static class " + struct_name + " {\n") - out_java.write("\t\tprivate " + struct_name + "() {}\n") + assert(struct_line == "typedef enum %s_Tag {" % struct_name) elif idx == len(tag_field_lines) - 3: assert(struct_line.endswith("_Sentinel,")) elif idx == len(tag_field_lines) - 2: - out_java.write("\t\tstatic native void init();\n") - out_java.write("\t}\n") + assert(struct_line == "} %s_Tag;" % struct_name) elif idx == len(tag_field_lines) - 1: assert(struct_line == "") else: - var_name = struct_line.strip(' ,')[len(struct_name) + 1:] - out_java.write("\t\tpublic final static class " + var_name + " extends " + struct_name + " {\n") - out_c.write("static jclass " + struct_name + "_" + var_name + "_class = NULL;\n") - out_c.write("static jmethodID " + struct_name + "_" + var_name + "_meth = NULL;\n") - init_meth_jty_str = "" - init_meth_params = "" - init_meth_body = "" - if "LDK" + var_name in union_enum_items: - enum_var_lines = union_enum_items["LDK" + var_name] - for idx, field in enumerate(enum_var_lines): - if idx != 0 and idx < len(enum_var_lines) - 2: - field_ty = java_c_types(field.strip(' ;'), None) - out_java.write("\t\t\tpublic " + field_ty.java_ty + " " + field_ty.var_name + ";\n") - init_meth_jty_str = init_meth_jty_str + field_ty.java_fn_ty_arg - if idx > 1: - init_meth_params = init_meth_params + ", " - init_meth_params = init_meth_params + field_ty.java_ty + " " + field_ty.var_name - init_meth_body = init_meth_body + "this." + field_ty.var_name + " = " + field_ty.var_name + "; " - out_java.write("\t\t\t" + var_name + "(" + init_meth_params + ") { ") - out_java.write(init_meth_body) - out_java.write("}\n") - out_java.write("\t\t}\n") - init_meth_jty_strs[var_name] = init_meth_jty_str - out_java.write("\tstatic { " + struct_name + ".init(); }\n") - out_java.write("\tpublic static native " + struct_name + " " + struct_name + "_ref_from_ptr(long ptr);\n"); - - out_c.write("JNIEXPORT void JNICALL Java_org_ldk_impl_bindings_00024" + struct_name.replace("_", "_1") + "_init (JNIEnv * env, jclass _a) {\n") - for idx, struct_line in enumerate(tag_field_lines): - if idx != 0 and idx < len(tag_field_lines) - 3: - var_name = struct_line.strip(' ,')[len(struct_name) + 1:] - out_c.write("\t" + struct_name + "_" + var_name + "_class =\n") - out_c.write("\t\t(*env)->NewGlobalRef(env, (*env)->FindClass(env, \"Lorg/ldk/impl/bindings$" + struct_name + "$" + var_name + ";\"));\n") - out_c.write("\tCHECK(" + struct_name + "_" + var_name + "_class != NULL);\n") - out_c.write("\t" + struct_name + "_" + var_name + "_meth = (*env)->GetMethodID(env, " + struct_name + "_" + var_name + "_class, \"\", \"(" + init_meth_jty_strs[var_name] + ")V\");\n") - out_c.write("\tCHECK(" + struct_name + "_" + var_name + "_meth != NULL);\n") - out_c.write("}\n") - out_c.write("JNIEXPORT jobject JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1ref_1from_1ptr (JNIEnv * env, jclass _c, jlong ptr) {\n") - out_c.write("\t" + struct_name + " *obj = (" + struct_name + "*)ptr;\n") - out_c.write("\tswitch(obj->tag) {\n") - for idx, struct_line in enumerate(tag_field_lines): - if idx != 0 and idx < len(tag_field_lines) - 3: - var_name = struct_line.strip(' ,')[len(struct_name) + 1:] - out_c.write("\t\tcase " + struct_name + "_" + var_name + ": {\n") - c_params_text = "" - if "LDK" + var_name in union_enum_items: - enum_var_lines = union_enum_items["LDK" + var_name] - for idx, field in enumerate(enum_var_lines): - if idx != 0 and idx < len(enum_var_lines) - 2: - field_map = map_type(field.strip(' ;'), False, None, False) - if field_map.ret_conv is not None: - out_c.write("\t\t\t" + field_map.ret_conv[0].replace("\n", "\n\t\t\t").replace("_env", "env")) - out_c.write("obj->" + camel_to_snake(var_name) + "." + field_map.arg_name) - out_c.write(field_map.ret_conv[1].replace("\n", "\n\t\t\t") + "\n") - c_params_text = c_params_text + ", " + field_map.ret_conv_name + variant_name = struct_line.strip(' ,')[len(struct_name) + 1:] + fields = [] + if "LDK" + variant_name in union_enum_items: + enum_var_lines = union_enum_items["LDK" + variant_name] + for idx, (field, field_docs) in enumerate(enum_var_lines): + if idx != 0 and idx < len(enum_var_lines) - 2 and field.strip() != "": + field_ty = type_mapping_generator.java_c_types(field.strip(' ;'), None) + contains_trait |= field_ty.contains_trait + if field_docs is not None and doc_to_field_nullable(field_docs): + field_conv = type_mapping_generator.map_type_with_info(field_ty, False, None, False, True, True) else: - c_params_text = c_params_text + ", obj->" + camel_to_snake(var_name) + "." + field_map.arg_name - out_c.write("\t\t\treturn (*env)->NewObject(env, " + struct_name + "_" + var_name + "_class, " + struct_name + "_" + var_name + "_meth" + c_params_text + ");\n") - out_c.write("\t\t}\n") - out_c.write("\t\tdefault: abort();\n") - out_c.write("\t}\n}\n") - - def map_trait(struct_name, field_var_lines, trait_fn_lines): - with open(sys.argv[3] + "/structs/" + struct_name.replace("LDK","") + ".java", "w") as out_java_trait: - out_c.write("typedef struct " + struct_name + "_JCalls {\n") - out_c.write("\tatomic_size_t refcnt;\n") - out_c.write("\tJavaVM *vm;\n") - out_c.write("\tjweak o;\n") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_c.write("\t" + var_line.group(1) + "_JCalls* " + var_line.group(2) + ";\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") - - out_java_trait.write("package org.ldk.structs;\n\n") - out_java_trait.write("import org.ldk.impl.bindings;\n\n") - out_java_trait.write("import org.ldk.enums.*;\n\n") - out_java_trait.write("public class " + struct_name.replace("LDK","") + " extends CommonBase {\n") - out_java_trait.write("\t" + struct_name.replace("LDK", "") + "(Object _dummy, long ptr) { super(ptr); }\n") - out_java_trait.write("\tpublic " + struct_name.replace("LDK", "") + "(bindings." + struct_name + " arg") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_java_trait.write(", bindings." + var_line.group(1) + " " + var_line.group(2)) - out_java_trait.write(") {\n") - out_java_trait.write("\t\tsuper(bindings." + struct_name + "_new(arg") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_java_trait.write(", " + var_line.group(2)) - out_java_trait.write("));\n") - out_java_trait.write("\t\tthis.ptrs_to.add(arg);\n") - out_java_trait.write("\t}\n") - out_java_trait.write("\t@Override @SuppressWarnings(\"deprecation\")\n") - out_java_trait.write("\tprotected void finalize() throws Throwable {\n") - out_java_trait.write("\t\tbindings." + struct_name.replace("LDK","") + "_free(ptr); super.finalize();\n") - out_java_trait.write("\t}\n\n") - - out_java.write("\tpublic interface " + struct_name + " {\n") - java_meths = [] - for fn_line in trait_fn_lines: - java_meth_descr = "(" - if fn_line.group(2) != "free" and fn_line.group(2) != "clone": - ret_ty_info = java_c_types(fn_line.group(1), None) - - out_java.write("\t\t " + ret_ty_info.java_ty + " " + fn_line.group(2) + "(") - is_const = fn_line.group(3) is not None - out_c.write(fn_line.group(1) + fn_line.group(2) + "_jcall(") - if is_const: - out_c.write("const void* this_arg") - else: - out_c.write("void* this_arg") - - arg_names = [] - for idx, arg in enumerate(fn_line.group(4).split(',')): - if arg == "": - continue - if idx >= 2: - out_java.write(", ") - out_c.write(", ") - arg_conv_info = map_type(arg, True, None, False) - out_c.write(arg.strip()) - out_java.write(arg_conv_info.java_ty + " " + arg_conv_info.arg_name) - arg_names.append(arg_conv_info) - java_meth_descr = java_meth_descr + arg_conv_info.java_fn_ty_arg - java_meth_descr = java_meth_descr + ")" + ret_ty_info.java_fn_ty_arg - java_meths.append(java_meth_descr) - - out_java.write(");\n") - out_c.write(") {\n") - out_c.write("\t" + struct_name + "_JCalls *j_calls = (" + struct_name + "_JCalls*) this_arg;\n") - out_c.write("\tJNIEnv *env;\n") - out_c.write("\tDO_ASSERT((*j_calls->vm)->GetEnv(j_calls->vm, (void**)&env, JNI_VERSION_1_8) == JNI_OK);\n") - - for arg_info in arg_names: - if arg_info.ret_conv is not None: - out_c.write("\t" + arg_info.ret_conv[0].replace('\n', '\n\t').replace("_env", "env")); - out_c.write(arg_info.arg_name) - out_c.write(arg_info.ret_conv[1].replace('\n', '\n\t').replace("_env", "env") + "\n") - - out_c.write("\tjobject obj = (*env)->NewLocalRef(env, j_calls->o);\n\tCHECK(obj != NULL);\n") - if ret_ty_info.c_ty.endswith("Array"): - assert(ret_ty_info.c_ty == "jbyteArray") - out_c.write("\tjbyteArray jret = (*env)->CallObjectMethod(env, obj, j_calls->" + fn_line.group(2) + "_meth") - elif not ret_ty_info.passed_as_ptr: - out_c.write("\treturn (*env)->Call" + ret_ty_info.java_ty.title() + "Method(env, obj, j_calls->" + fn_line.group(2) + "_meth") + field_conv = type_mapping_generator.map_type_with_info(field_ty, False, None, False, True, False) + fields.append((field_conv, field_docs)) + enum_variants.append(ComplexEnumVariantInfo(variant_name, variant_docs, fields, False)) + elif camel_to_snake(variant_name) in inline_enum_variants: + # TODO: If we ever have a rust enum Variant(Option) we need to pipe + # docs through to there, and then potentially mark the field nullable. + (variant_info, variant_field_docs) = inline_enum_variants[camel_to_snake(variant_name)] + variant_ty_text = variant_info + " " + camel_to_snake(variant_name) + variant_ty_info = type_mapping_generator.java_c_types(variant_ty_text, None) + if variant_field_docs is not None and doc_to_field_nullable(variant_field_docs): + mapped = type_mapping_generator.map_type_with_info(variant_ty_info, False, None, False, True, True) else: - out_c.write("\t" + fn_line.group(1).strip() + "* ret = (" + fn_line.group(1).strip() + "*)(*env)->CallLongMethod(env, obj, j_calls->" + fn_line.group(2) + "_meth"); + mapped = type_mapping_generator.map_type_with_info(variant_ty_info, False, None, False, True, False) + contains_trait |= mapped.ty_info.contains_trait + fields.append((mapped, None)) + enum_variants.append(ComplexEnumVariantInfo(variant_name, variant_docs, fields, True)) + else: + enum_variants.append(ComplexEnumVariantInfo(variant_name, variant_docs, fields, True)) + complex_enums[struct_name] = contains_trait - for arg_info in arg_names: - if arg_info.ret_conv is not None: - out_c.write(", " + arg_info.ret_conv_name) - else: - out_c.write(", " + arg_info.arg_name) - out_c.write(");\n"); - if ret_ty_info.c_ty.endswith("Array"): - out_c.write("\t" + ret_ty_info.rust_obj + " ret;\n") - out_c.write("\tCHECK((*env)->GetArrayLength(env, jret) == " + ret_ty_info.arr_len + ");\n") - out_c.write("\t(*env)->GetByteArrayRegion(env, jret, 0, " + ret_ty_info.arr_len + ", ret." + ret_ty_info.arr_access + ");\n") - out_c.write("\treturn ret;\n") - - if ret_ty_info.passed_as_ptr: - out_c.write("\t" + fn_line.group(1).strip() + " res = *ret;\n") - out_c.write("\tFREE(ret);\n") - out_c.write("\treturn res;\n") - out_c.write("}\n") - elif fn_line.group(2) == "free": - out_c.write("static void " + struct_name + "_JCalls_free(void* this_arg) {\n") - out_c.write("\t" + struct_name + "_JCalls *j_calls = (" + struct_name + "_JCalls*) this_arg;\n") - out_c.write("\tif (atomic_fetch_sub_explicit(&j_calls->refcnt, 1, memory_order_acquire) == 1) {\n") - out_c.write("\t\tJNIEnv *env;\n") - out_c.write("\t\tDO_ASSERT((*j_calls->vm)->GetEnv(j_calls->vm, (void**)&env, JNI_VERSION_1_8) == JNI_OK);\n") - out_c.write("\t\t(*env)->DeleteWeakGlobalRef(env, j_calls->o);\n") - out_c.write("\t\tFREE(j_calls);\n") - out_c.write("\t}\n}\n") - - # Write out a clone function whether we need one or not, as we use them in moving to rust - out_c.write("static void* " + struct_name + "_JCalls_clone(const void* this_arg) {\n") - out_c.write("\t" + struct_name + "_JCalls *j_calls = (" + struct_name + "_JCalls*) this_arg;\n") - out_c.write("\tatomic_fetch_add_explicit(&j_calls->refcnt, 1, memory_order_release);\n") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_c.write("\tatomic_fetch_add_explicit(&j_calls->" + var_line.group(2) + "->refcnt, 1, memory_order_release);\n") - out_c.write("\treturn (void*) this_arg;\n") - out_c.write("}\n") + with open(f"{sys.argv[3]}/structs/{java_hu_type}{consts.file_ext}", "w") as out_java_enum: + (out_java_addendum, out_java_enum_addendum, out_c_addendum) = consts.map_complex_enum(struct_name, enum_variants, camel_to_snake, enum_doc_comment) - out_java.write("\t}\n") + out_java_enum.write(out_java_enum_addendum) + out_java.write(out_java_addendum) + write_c(out_c_addendum) - out_java.write("\tpublic static native long " + struct_name + "_new(" + struct_name + " impl") - out_c.write("static inline " + struct_name + " " + struct_name + "_init (JNIEnv * env, jclass _a, jobject o") + def map_trait(struct_name, field_var_lines, trait_fn_lines, trait_doc_comment): + with open(f"{sys.argv[3]}/structs/{struct_name.replace('LDK', '')}{consts.file_ext}", "w") as out_java_trait: + field_var_convs = [] + flattened_field_var_convs = [] for var_line in field_var_lines: if var_line.group(1) in trait_structs: - out_java.write(", " + var_line.group(1) + " " + var_line.group(2)) - out_c.write(", jobject " + var_line.group(2)) - out_java.write(");\n") - out_c.write(") {\n") - - out_c.write("\tjclass c = (*env)->GetObjectClass(env, o);\n") - out_c.write("\tCHECK(c != NULL);\n") - out_c.write("\t" + struct_name + "_JCalls *calls = MALLOC(sizeof(" + struct_name + "_JCalls), \"" + struct_name + "_JCalls\");\n") - out_c.write("\tatomic_init(&calls->refcnt, 1);\n") - out_c.write("\tDO_ASSERT((*env)->GetJavaVM(env, &calls->vm) == 0);\n") - out_c.write("\tcalls->o = (*env)->NewWeakGlobalRef(env, o);\n") - for (fn_line, java_meth_descr) in zip(trait_fn_lines, java_meths): - 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) + "\", \"" + java_meth_descr + "\");\n") - out_c.write("\tCHECK(calls->" + fn_line.group(2) + "_meth != NULL);\n") - out_c.write("\n\t" + struct_name + " ret = {\n") - out_c.write("\t\t.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("\t\t." + fn_line.group(2) + " = " + fn_line.group(2) + "_jcall,\n") - elif fn_line.group(2) == "free": - out_c.write("\t\t.free = " + struct_name + "_JCalls_free,\n") + field_var_convs.append((var_line.group(1), var_line.group(2), trait_structs[var_line.group(1)])) + flattened_field_var_convs.append((var_line.group(1), var_line.group(2), var_line.group(2))) + for field_var in trait_structs[var_line.group(1)]: + if isinstance(field_var, ConvInfo): + flattened_field_var_convs.append(field_var) + else: + path = var_line.group(2) + if len(field_var) > 2: + path = var_line.group(2) + "." + field_var[2] + flattened_field_var_convs.append((field_var[0], field_var[1], path)) else: - clone_fns.add(struct_name + "_clone") - out_c.write("\t\t.clone = " + struct_name + "_JCalls_clone,\n") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_c.write("\t\t." + var_line.group(2) + " = " + var_line.group(1) + "_init(env, _a, " + var_line.group(2) + "),\n") - out_c.write("\t};\n") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_c.write("\tcalls->" + var_line.group(2) + " = ret." + var_line.group(2) + ".this_arg;\n") - out_c.write("\treturn ret;\n") - out_c.write("}\n") + mapped = type_mapping_generator.map_type(var_line.group(1) + " " + var_line.group(2), False, None, False, False) + field_var_convs.append(mapped) + flattened_field_var_convs.append(mapped) + trait_structs[struct_name] = flattened_field_var_convs + + field_fns = [] + for fn_docs, fn_line in trait_fn_lines: + if fn_line == "cloned": + ret_ty_info = type_mapping_generator.map_type("void", True, None, False, False) + field_fns.append(TraitMethInfo("cloned", False, ret_ty_info, [], fn_docs)) + else: + (nullable_params, ret_nullable) = doc_to_params_ret_nullable(fn_docs) + if ret_nullable: + ret_ty_info = type_mapping_generator.map_nullable_type(fn_line.group(2).strip() + " ret", True, None, False, False) + ret_ty_info.nullable = True + else: + ret_ty_info = type_mapping_generator.map_type(fn_line.group(2).strip() + " ret", True, None, False, False) + is_const = fn_line.group(4) is not None - out_c.write("JNIEXPORT long JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1new (JNIEnv * env, jclass _a, jobject o") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_c.write(", jobject " + var_line.group(2)) - out_c.write(") {\n") - out_c.write("\t" + struct_name + " *res_ptr = MALLOC(sizeof(" + struct_name + "), \"" + struct_name + "\");\n") - out_c.write("\t*res_ptr = " + struct_name + "_init(env, _a, o") - for var_line in field_var_lines: - if var_line.group(1) in trait_structs: - out_c.write(", " + var_line.group(2)) - out_c.write(");\n") - out_c.write("\treturn (long)res_ptr;\n") - out_c.write("}\n") - - out_java.write("\tpublic static native " + struct_name + " " + struct_name + "_get_obj_from_jcalls(long val);\n") - out_c.write("JNIEXPORT jobject JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1get_1obj_1from_1jcalls (JNIEnv * env, jclass _a, jlong val) {\n") - out_c.write("\tjobject ret = (*env)->NewLocalRef(env, ((" + struct_name + "_JCalls*)val)->o);\n") - out_c.write("\tCHECK(ret != NULL);\n") - out_c.write("\treturn ret;\n") - out_c.write("}\n") - - for fn_line in trait_fn_lines: + arg_tys = [] + for idx, arg in enumerate(fn_line.group(5).split(',')): + if arg == "": + continue + arg_ty_info = type_mapping_generator.java_c_types(arg, None) + if arg_ty_info.var_name in nullable_params: + # Types that are actually null instead of all-0s aren't yet handled on the Java side: + arg_conv_info = type_mapping_generator.map_type_with_info(arg_ty_info, True, None, False, False, True) + else: + arg_conv_info = type_mapping_generator.map_type_with_info(arg_ty_info, True, None, False, False, False) + arg_tys.append(arg_conv_info) + field_fns.append(TraitMethInfo(fn_line.group(3), is_const, ret_ty_info, arg_tys, fn_docs)) + + (out_java_addendum, out_java_trait_addendum, out_c_addendum) = consts.native_c_map_trait(struct_name, field_var_convs, flattened_field_var_convs, field_fns, trait_doc_comment) + write_c(out_c_addendum) + out_java_trait.write(out_java_trait_addendum) + out_java.write(out_java_addendum) + + for fn_docs, fn_line in trait_fn_lines: + if fn_line == "cloned": + continue # For now, just disable enabling the _call_log - we don't know how to inverse-map String - is_log = fn_line.group(2) == "log" and struct_name == "LDKLogger" - if fn_line.group(2) != "free" and fn_line.group(2) != "clone" and fn_line.group(2) != "eq" and not is_log: - dummy_line = fn_line.group(1) + struct_name.replace("LDK", "") + "_call_" + fn_line.group(2) + " " + struct_name + "* this_arg" + fn_line.group(4) + "\n" - map_fn(dummy_line, re.compile("([A-Za-z_0-9]*) *([A-Za-z_0-9]*) *(.*)").match(dummy_line), None, "(this_arg_conv->" + fn_line.group(2) + ")(this_arg_conv->this_arg") - - out_c.write("""#include \"org_ldk_impl_bindings.h\" -#include -#include -#include -#include -""") - - if sys.argv[4] == "false": - out_c.write("#define MALLOC(a, _) malloc(a)\n") - out_c.write("#define FREE free\n") - out_c.write("#define DO_ASSERT(a) (void)(a)\n") - out_c.write("#define CHECK(a)\n") - else: - out_c.write("""#include -// Always run a, then assert it is true: -#define DO_ASSERT(a) do { bool _assert_val = (a); assert(_assert_val); } while(0) -// Assert a is true or do nothing -#define CHECK(a) DO_ASSERT(a) - -// Running a leak check across all the allocations and frees of the JDK is a mess, -// so instead we implement our own naive leak checker here, relying on the -wrap -// linker option to wrap malloc/calloc/realloc/free, tracking everyhing allocated -// and free'd in Rust or C across the generated bindings shared library. -#include -#include -#include -static mtx_t allocation_mtx; - -void __attribute__((constructor)) init_mtx() { - DO_ASSERT(mtx_init(&allocation_mtx, mtx_plain) == thrd_success); -} - -#define BT_MAX 128 -typedef struct allocation { - struct allocation* next; - void* ptr; - const char* struct_name; - void* bt[BT_MAX]; - int bt_len; -} allocation; -static allocation* allocation_ll = NULL; - -void* __real_malloc(size_t len); -void* __real_calloc(size_t nmemb, size_t len); -static void new_allocation(void* res, const char* struct_name) { - allocation* new_alloc = __real_malloc(sizeof(allocation)); - new_alloc->ptr = res; - new_alloc->struct_name = struct_name; - new_alloc->bt_len = backtrace(new_alloc->bt, BT_MAX); - DO_ASSERT(mtx_lock(&allocation_mtx) == thrd_success); - new_alloc->next = allocation_ll; - allocation_ll = new_alloc; - DO_ASSERT(mtx_unlock(&allocation_mtx) == thrd_success); -} -static void* MALLOC(size_t len, const char* struct_name) { - void* res = __real_malloc(len); - new_allocation(res, struct_name); - return res; -} -void __real_free(void* ptr); -static void alloc_freed(void* ptr) { - allocation* p = NULL; - DO_ASSERT(mtx_lock(&allocation_mtx) == thrd_success); - allocation* it = allocation_ll; - while (it->ptr != ptr) { p = it; it = it->next; } - if (p) { p->next = it->next; } else { allocation_ll = it->next; } - DO_ASSERT(mtx_unlock(&allocation_mtx) == thrd_success); - DO_ASSERT(it->ptr == ptr); - __real_free(it); -} -static void FREE(void* ptr) { - alloc_freed(ptr); - __real_free(ptr); -} - -void* __wrap_malloc(size_t len) { - void* res = __real_malloc(len); - new_allocation(res, "malloc call"); - return res; -} -void* __wrap_calloc(size_t nmemb, size_t len) { - void* res = __real_calloc(nmemb, len); - new_allocation(res, "calloc call"); - return res; -} -void __wrap_free(void* ptr) { - alloc_freed(ptr); - __real_free(ptr); -} - -void* __real_realloc(void* ptr, size_t newlen); -void* __wrap_realloc(void* ptr, size_t len) { - alloc_freed(ptr); - void* res = __real_realloc(ptr, len); - new_allocation(res, "realloc call"); - return res; -} -void __wrap_reallocarray(void* ptr, size_t new_sz) { - // Rust doesn't seem to use reallocarray currently - assert(false); -} - -void __attribute__((destructor)) check_leaks() { - for (allocation* a = allocation_ll; a != NULL; a = a->next) { - fprintf(stderr, "%s %p remains:\\n", a->struct_name, a->ptr); - backtrace_symbols_fd(a->bt, a->bt_len, STDERR_FILENO); - fprintf(stderr, "\\n\\n"); - } - DO_ASSERT(allocation_ll == NULL); -} -""") - out_java.write("""package org.ldk.impl; -import org.ldk.enums.*; - -public class bindings { - public static class VecOrSliceDef { - public long dataptr; - public long datalen; - public long stride; - public VecOrSliceDef(long dataptr, long datalen, long stride) { - this.dataptr = dataptr; this.datalen = datalen; this.stride = stride; - } - } - static { - System.loadLibrary(\"lightningjni\"); - init(java.lang.Enum.class, VecOrSliceDef.class); - } - static native void init(java.lang.Class c, java.lang.Class slicedef); - - public static native boolean deref_bool(long ptr); - public static native long deref_long(long ptr); - public static native void free_heap_ptr(long ptr); - public static native byte[] read_bytes(long ptr, long len); - public static native byte[] get_u8_slice_bytes(long slice_ptr); - public static native long bytes_to_u8_vec(byte[] bytes); - public static native long new_txpointer_copy_data(byte[] txdata); - public static native long vec_slice_len(long vec); - public static native long new_empty_slice_vec(); - -""") - out_c.write(""" -static jmethodID ordinal_meth = NULL; -static jmethodID slicedef_meth = NULL; -static jclass slicedef_cls = NULL; -JNIEXPORT void Java_org_ldk_impl_bindings_init(JNIEnv * env, jclass _b, jclass enum_class, jclass slicedef_class) { - ordinal_meth = (*env)->GetMethodID(env, enum_class, "ordinal", "()I"); - CHECK(ordinal_meth != NULL); - slicedef_meth = (*env)->GetMethodID(env, slicedef_class, "", "(JJJ)V"); - CHECK(slicedef_meth != NULL); - slicedef_cls = (*env)->NewGlobalRef(env, slicedef_class); - CHECK(slicedef_cls != NULL); -} - -JNIEXPORT jboolean JNICALL Java_org_ldk_impl_bindings_deref_1bool (JNIEnv * env, jclass _a, jlong ptr) { - return *((bool*)ptr); -} -JNIEXPORT jlong JNICALL Java_org_ldk_impl_bindings_deref_1long (JNIEnv * env, jclass _a, jlong ptr) { - return *((long*)ptr); -} -JNIEXPORT void JNICALL Java_org_ldk_impl_bindings_free_1heap_1ptr (JNIEnv * env, jclass _a, jlong ptr) { - FREE((void*)ptr); -} -JNIEXPORT jbyteArray JNICALL Java_org_ldk_impl_bindings_read_1bytes (JNIEnv * _env, jclass _b, jlong ptr, jlong len) { - jbyteArray ret_arr = (*_env)->NewByteArray(_env, len); - (*_env)->SetByteArrayRegion(_env, ret_arr, 0, len, (unsigned char*)ptr); - return ret_arr; -} -JNIEXPORT jbyteArray JNICALL Java_org_ldk_impl_bindings_get_1u8_1slice_1bytes (JNIEnv * _env, jclass _b, jlong slice_ptr) { - LDKu8slice *slice = (LDKu8slice*)slice_ptr; - jbyteArray ret_arr = (*_env)->NewByteArray(_env, slice->datalen); - (*_env)->SetByteArrayRegion(_env, ret_arr, 0, slice->datalen, slice->data); - return ret_arr; -} -JNIEXPORT long JNICALL Java_org_ldk_impl_bindings_bytes_1to_1u8_1vec (JNIEnv * _env, jclass _b, jbyteArray bytes) { - LDKCVec_u8Z *vec = (LDKCVec_u8Z*)MALLOC(sizeof(LDKCVec_u8Z), "LDKCVec_u8"); - vec->datalen = (*_env)->GetArrayLength(_env, bytes); - vec->data = (uint8_t*)MALLOC(vec->datalen, "LDKCVec_u8Z Bytes"); - (*_env)->GetByteArrayRegion (_env, bytes, 0, vec->datalen, vec->data); - return (long)vec; -} -JNIEXPORT long JNICALL Java_org_ldk_impl_bindings_new_1txpointer_1copy_1data (JNIEnv * env, jclass _b, jbyteArray bytes) { - LDKTransaction *txdata = (LDKTransaction*)MALLOC(sizeof(LDKTransaction), "LDKTransaction"); - txdata->datalen = (*env)->GetArrayLength(env, bytes); - txdata->data = (uint8_t*)MALLOC(txdata->datalen, "Tx Data Bytes"); - txdata->data_is_owned = true; - (*env)->GetByteArrayRegion (env, bytes, 0, txdata->datalen, txdata->data); - return (long)txdata; -} -JNIEXPORT jlong JNICALL Java_org_ldk_impl_bindings_vec_1slice_1len (JNIEnv * env, jclass _a, jlong ptr) { - // Check offsets of a few Vec types are all consistent as we're meant to be generic across types - _Static_assert(offsetof(LDKCVec_u8Z, datalen) == offsetof(LDKCVec_SignatureZ, datalen), "Vec<*> needs to be mapped identically"); - _Static_assert(offsetof(LDKCVec_u8Z, datalen) == offsetof(LDKCVec_MessageSendEventZ, datalen), "Vec<*> needs to be mapped identically"); - _Static_assert(offsetof(LDKCVec_u8Z, datalen) == offsetof(LDKCVec_EventZ, datalen), "Vec<*> needs to be mapped identically"); - _Static_assert(offsetof(LDKCVec_u8Z, datalen) == offsetof(LDKCVec_C2Tuple_usizeTransactionZZ, datalen), "Vec<*> needs to be mapped identically"); - LDKCVec_u8Z *vec = (LDKCVec_u8Z*)ptr; - return (long)vec->datalen; -} -JNIEXPORT long JNICALL Java_org_ldk_impl_bindings_new_1empty_1slice_1vec (JNIEnv * _env, jclass _b) { - // Check sizes of a few Vec types are all consistent as we're meant to be generic across types - _Static_assert(sizeof(LDKCVec_u8Z) == sizeof(LDKCVec_SignatureZ), "Vec<*> needs to be mapped identically"); - _Static_assert(sizeof(LDKCVec_u8Z) == sizeof(LDKCVec_MessageSendEventZ), "Vec<*> needs to be mapped identically"); - _Static_assert(sizeof(LDKCVec_u8Z) == sizeof(LDKCVec_EventZ), "Vec<*> needs to be mapped identically"); - _Static_assert(sizeof(LDKCVec_u8Z) == sizeof(LDKCVec_C2Tuple_usizeTransactionZZ), "Vec<*> needs to be mapped identically"); - LDKCVec_u8Z *vec = (LDKCVec_u8Z*)MALLOC(sizeof(LDKCVec_u8Z), "Empty LDKCVec"); - vec->data = NULL; - vec->datalen = 0; - return (long)vec; -} - -// We assume that CVec_u8Z and u8slice are the same size and layout (and thus pointers to the two can be mixed) -_Static_assert(sizeof(LDKCVec_u8Z) == sizeof(LDKu8slice), "Vec and [u8] need to have been mapped identically"); -_Static_assert(offsetof(LDKCVec_u8Z, data) == offsetof(LDKu8slice, data), "Vec and [u8] need to have been mapped identically"); -_Static_assert(offsetof(LDKCVec_u8Z, datalen) == offsetof(LDKu8slice, datalen), "Vec and [u8] need to have been mapped identically"); - -""") - - with open(sys.argv[3] + "/structs/CommonBase.java", "a") as out_java_struct: - out_java_struct.write("""package org.ldk.structs; -import java.util.LinkedList; -class CommonBase { - final long ptr; - LinkedList ptrs_to = new LinkedList(); - protected CommonBase(long ptr) { this.ptr = ptr; } - public long _test_only_get_ptr() { return this.ptr; } -} -""") - - in_block_comment = False + is_log = fn_line.group(3) == "log" and struct_name == "LDKLogger" + if fn_line.group(3) != "free" and fn_line.group(3) != "eq" and not is_log: + dummy_line = fn_line.group(2) + struct_name.replace("LDK", "") + "_" + fn_line.group(3) + " " + struct_name + " *NONNULL_PTR this_arg" + fn_line.group(5) + "\n" + map_fn(dummy_line, re.compile("([A-Za-z_0-9]*) *([A-Za-z_0-9]*) *(.*)").match(dummy_line), None, "(this_arg_conv->" + fn_line.group(3) + ")(this_arg_conv->this_arg", fn_docs) + for idx, var_line in enumerate(field_var_lines): + if var_line.group(1) not in trait_structs: + write_c(var_line.group(1) + " " + struct_name + "_set_get_" + var_line.group(2) + "(" + struct_name + "* this_arg) {\n") + write_c("\tif (this_arg->set_" + var_line.group(2) + " != NULL)\n") + write_c("\t\tthis_arg->set_" + var_line.group(2) + "(this_arg);\n") + write_c("\treturn this_arg->" + var_line.group(2) + ";\n") + write_c("}\n") + dummy_line = var_line.group(1) + " " + struct_name.replace("LDK", "") + "_get_" + var_line.group(2) + " " + struct_name + " *NONNULL_PTR this_arg" + fn_line.group(5) + "\n" + map_fn(dummy_line, re.compile("([A-Za-z_0-9]*) *([A-Za-z_0-9]*) *(.*)").match(dummy_line), None, struct_name + "_set_get_" + var_line.group(2) + "(this_arg_conv", fn_docs) + + def map_result(struct_name, res_ty, err_ty): + result_types.add(struct_name) + human_ty = struct_name.replace("LDKCResult", "Result") + res_map = type_mapping_generator.map_type(res_ty + " res", True, None, False, True) + err_map = type_mapping_generator.map_type(err_ty + " err", True, None, False, True) + java_hu_struct = consts.map_result(struct_name, res_map, err_map) + create_getter(struct_name, res_ty, "ok", ("*", "->contents.result"), ("", "->result_ok")) + create_getter(struct_name, err_ty, "err", ("*", "->contents.err"), ("!", "->result_ok")) + with open(f"{sys.argv[3]}/structs/{human_ty}{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(java_hu_struct) + + def create_getter(struct_name, field_decl, field_name, accessor, check_sfx): + field_ty = java_c_types(field_decl + " " + field_name, None) + ptr_fn_defn = field_decl + " *" + struct_name.replace("LDK", "") + "_get_" + field_name + "(" + struct_name + " *NONNULL_PTR owner)" + owned_fn_defn = field_decl + " " + struct_name.replace("LDK", "") + "_get_" + field_name + "(" + struct_name + " *NONNULL_PTR owner)" + + holds_ref = False + if field_ty.rust_obj is not None and field_ty.rust_obj in opaque_structs: + fn_defn = owned_fn_defn + write_c("static inline " + fn_defn + "{\n") + write_c("\t" + field_ty.rust_obj + " ret = " + accessor[0] + "owner" + accessor[1] + ";\n") + write_c("\tret.is_owned = false;\n") + write_c("\treturn ret;\n") + elif field_ty.rust_obj is not None and field_ty.rust_obj.replace("LDK", "") + "_clone" in clone_fns: + fn_defn = owned_fn_defn + write_c("static inline " + fn_defn + "{\n") + if check_sfx is not None: + write_c("CHECK(" + check_sfx[0] + "owner" + check_sfx[1] + ");\n") + write_c("\treturn " + field_ty.rust_obj.replace("LDK", "") + "_clone(&" + accessor[0] + "owner" + accessor[1] + ");\n") + elif field_ty.arr_len is not None or field_ty.is_native_primitive or field_ty.rust_obj in unitary_enums: + fn_defn = owned_fn_defn + write_c("static inline " + fn_defn + "{\n") + if check_sfx is not None: + write_c("CHECK(" + check_sfx[0] + "owner" + check_sfx[1] + ");\n") + write_c("\treturn " + accessor[0] + "owner" + accessor[1] + ";\n") + holds_ref = True + else: + fn_defn = ptr_fn_defn + write_c("static inline " + fn_defn + "{\n") + if check_sfx is not None: + write_c("CHECK(" + check_sfx[0] + "owner" + check_sfx[1] + ");\n") + write_c("\treturn &" + accessor[0] + "owner" + accessor[1] + ";\n") + holds_ref = True + write_c("}\n") + dummy_line = fn_defn + ";\n" + map_fn_with_ref_option(dummy_line, reg_fn_regex.match(dummy_line), None, None, "", holds_ref) + + def map_tuple(struct_name, field_lines): + human_ty = struct_name.replace("LDKC2Tuple", "TwoTuple").replace("LDKC3Tuple", "ThreeTuple").replace("LDKC4Tuple", "FourTuple") + with open(f"{sys.argv[3]}/structs/{human_ty}{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(consts.map_tuple(struct_name)) + ty_list = [] + for idx, (line, _) in enumerate(field_lines): + if idx != 0 and idx < len(field_lines) - 2: + ty_list.append(java_c_types(line.strip(';'), None)) + tuple_types[struct_name] = (ty_list, struct_name) + + # Map virtual getter functions + for idx, (line, _) in enumerate(field_lines): + if idx != 0 and idx < len(field_lines) - 2: + field_name = chr(ord('a') + idx - 1) + assert line.endswith(" " + field_name + ";") + create_getter(struct_name, line[:-3].strip(), field_name, ("", "->" + field_name), None) + + out_java.write(consts.bindings_header) + with open(f"{sys.argv[2]}/version{consts.file_ext}", "w") as out_java_version: + out_java_version.write(consts.bindings_version_file.replace('', local_git_version)) + + with open(f"{sys.argv[3]}/structs/CommonBase{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(consts.common_base) + + block_comment = None + last_block_comment = None cur_block_obj = None const_val_regex = re.compile("^extern const ([A-Za-z_0-9]*) ([A-Za-z_0-9]*);$") - line_indicates_result_regex = re.compile("^ (LDKCResultPtr_[A-Za-z_0-9]*) contents;$") - line_indicates_vec_regex = re.compile("^ ([A-Za-z_0-9]*) \*data;$") + line_indicates_result_regex = re.compile("^ union (LDKCResult_[A-Za-z_0-9]*Ptr) contents;$") + line_indicates_vec_regex = re.compile("^ (struct |enum |union )?([A-Za-z_0-9]*) \*data;$") line_indicates_opaque_regex = re.compile("^ bool is_owned;$") - line_indicates_trait_regex = re.compile("^ ([A-Za-z_0-9]* \*?)\(\*([A-Za-z_0-9]*)\)\((const )?void \*this_arg(.*)\);$") + line_indicates_trait_regex = re.compile("^ (struct |enum |union )?([A-Za-z_0-9]* \*?)\(\*([A-Za-z_0-9]*)\)\((const )?void \*this_arg(.*)\);$") assert(line_indicates_trait_regex.match(" uintptr_t (*send_data)(void *this_arg, LDKu8slice data, bool resume_read);")) - assert(line_indicates_trait_regex.match(" LDKCVec_MessageSendEventZ (*get_and_clear_pending_msg_events)(const void *this_arg);")) - assert(line_indicates_trait_regex.match(" void *(*clone)(const void *this_arg);")) - line_field_var_regex = re.compile("^ ([A-Za-z_0-9]*) ([A-Za-z_0-9]*);$") - assert(line_field_var_regex.match(" LDKMessageSendEventsProvider MessageSendEventsProvider;")) + assert(line_indicates_trait_regex.match(" struct LDKCVec_MessageSendEventZ (*get_and_clear_pending_msg_events)(const void *this_arg);")) + assert(line_indicates_trait_regex.match(" struct LDKCVec_u8Z (*write)(const void *this_arg);")) + line_indicates_trait_clone_regex = re.compile("^ void \(\*cloned\)\(struct ([A-Za-z0-9])* \*NONNULL_PTR new_[A-Za-z0-9]*\);$") + assert(line_indicates_trait_clone_regex.match(" void (*cloned)(struct LDKSign *NONNULL_PTR new_Sign);")) + line_field_var_regex = re.compile("^ struct ([A-Za-z_0-9]*) ([A-Za-z_0-9]*);$") + assert(line_field_var_regex.match(" struct LDKMessageSendEventsProvider MessageSendEventsProvider;")) + assert(line_field_var_regex.match(" struct LDKChannelPublicKeys pubkeys;")) struct_name_regex = re.compile("^typedef (struct|enum|union) (MUST_USE_STRUCT )?(LDK[A-Za-z_0-9]*) {$") - assert(struct_name_regex.match("typedef struct LDKCVecTempl_u8 {")) + assert(struct_name_regex.match("typedef struct LDKCVec_u8Z {")) assert(struct_name_regex.match("typedef enum LDKNetwork {")) - struct_alias_regex = re.compile("^typedef (LDK[A-Za-z_0-9]*) (LDK[A-Za-z_0-9]*);$") - assert(struct_alias_regex.match("typedef LDKCResultTempl_bool__PeerHandleError LDKCResult_boolPeerHandleErrorZ;")) - result_templ_structs = set() union_enum_items = {} result_ptr_struct_items = {} for line in in_h: - if in_block_comment: + if block_comment is not None: if line.endswith("*/\n"): - in_block_comment = False + last_block_comment = block_comment.strip("\n") + block_comment = None + else: + block_comment = block_comment + line.strip(" /*") elif cur_block_obj is not None: cur_block_obj = cur_block_obj + line if line.startswith("} "): @@ -1118,13 +987,17 @@ class CommonBase { is_tuple = False trait_fn_lines = [] field_var_lines = [] + last_struct_block_comment = None for idx, struct_line in enumerate(obj_lines): if struct_line.strip().startswith("/*"): - in_block_comment = True - if in_block_comment: + block_comment = struct_line.strip(" /*") + if block_comment is not None: if struct_line.endswith("*/"): - in_block_comment = False + last_struct_block_comment = block_comment.strip("\n") + block_comment = None + else: + block_comment = block_comment + "\n" + struct_line.strip(" /*").replace("…", "...") else: struct_name_match = struct_name_regex.match(struct_line) if struct_name_match is not None: @@ -1142,17 +1015,21 @@ class CommonBase { if result_match is not None: result_contents = result_match.group(1) vec_ty_match = line_indicates_vec_regex.match(struct_line) - if vec_ty_match is not None and struct_name.startswith("LDKCVecTempl_"): - vec_ty = vec_ty_match.group(1) - elif struct_name.startswith("LDKC2TupleTempl_") or struct_name.startswith("LDKC3TupleTempl_"): + if vec_ty_match is not None and struct_name.startswith("LDKCVec_"): + vec_ty = vec_ty_match.group(2) + elif struct_name.startswith("LDKC2Tuple_") or struct_name.startswith("LDKC3Tuple_") or struct_name.startswith("LDKC4Tuple_"): is_tuple = 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) + trait_fn_lines.append((last_struct_block_comment, trait_fn_match)) + trait_clone_fn_match = line_indicates_trait_clone_regex.match(struct_line) + if trait_clone_fn_match is not None: + trait_fn_lines.append((last_struct_block_comment, "cloned")) field_var_match = line_field_var_regex.match(struct_line) if field_var_match is not None: field_var_lines.append(field_var_match) - field_lines.append(struct_line) + field_lines.append((struct_line, last_struct_block_comment)) + last_struct_block_comment = None assert(struct_name is not None) assert(len(trait_fn_lines) == 0 or not (is_opaque or is_unitary_enum or is_union_enum or is_union or result_contents is not None or vec_ty is not None)) @@ -1165,97 +1042,40 @@ class CommonBase { if is_opaque: opaque_structs.add(struct_name) - with open(sys.argv[3] + "/structs/" + struct_name.replace("LDK","") + ".java", "w") as out_java_struct: - out_java_struct.write("package org.ldk.structs;\n\n") - out_java_struct.write("import org.ldk.impl.bindings;\n") - out_java_struct.write("import org.ldk.enums.*;\n\n") - out_java_struct.write("public class " + struct_name.replace("LDK","") + " extends CommonBase {\n") - out_java_struct.write("\t" + struct_name.replace("LDK", "") + "(Object _dummy, long ptr) { super(ptr); }\n") - out_java_struct.write("\t@Override @SuppressWarnings(\"deprecation\")\n") - out_java_struct.write("\tprotected void finalize() throws Throwable {\n") - out_java_struct.write("\t\tbindings." + struct_name.replace("LDK","") + "_free(ptr); super.finalize();\n") - out_java_struct.write("\t}\n\n") + with open(f"{sys.argv[3]}/structs/{struct_name.replace('LDK', '')}{consts.file_ext}", "w") as out_java_struct: + out_opaque_struct_human = consts.map_opaque_struct(struct_name, last_block_comment) + last_block_comment = None + out_java_struct.write(out_opaque_struct_human) elif result_contents is not None: - result_templ_structs.add(struct_name) assert result_contents in result_ptr_struct_items - elif struct_name.startswith("LDKCResultPtr_"): - for line in field_lines: + res_ty, err_ty = result_ptr_struct_items[result_contents] + map_result(struct_name, res_ty, err_ty) + elif struct_name.startswith("LDKCResult_") and struct_name.endswith("ZPtr"): + for line, _ in field_lines: if line.endswith("*result;"): res_ty = line[:-8].strip() elif line.endswith("*err;"): err_ty = line[:-5].strip() result_ptr_struct_items[struct_name] = (res_ty, err_ty) + result_types.add(struct_name[:-3]) elif is_tuple: - out_java.write("\tpublic static native long " + struct_name + "_new(") - out_c.write("JNIEXPORT jlong JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1new(JNIEnv *_env, jclass _b") - for idx, line in enumerate(field_lines): - if idx != 0 and idx < len(field_lines) - 2: - ty_info = java_c_types(line.strip(';'), None) - if idx != 1: - out_java.write(", ") - e = chr(ord('a') + idx - 1) - out_java.write(ty_info.java_ty + " " + e) - out_c.write(", " + ty_info.c_ty + " " + e) - out_java.write(");\n") - out_c.write(") {\n") - out_c.write("\t" + struct_name + "* ret = MALLOC(sizeof(" + struct_name + "), \"" + struct_name + "\");\n") - for idx, line in enumerate(field_lines): - if idx != 0 and idx < len(field_lines) - 2: - ty_info = map_type(line.strip(';'), False, None, False) - e = chr(ord('a') + idx - 1) - if ty_info.arg_conv is not None: - out_c.write("\t" + ty_info.arg_conv.replace("\n", "\n\t")) - out_c.write("\n\tret->" + e + " = " + ty_info.arg_conv_name + ";\n") - else: - out_c.write("\tret->" + e + " = " + e + ";\n") - assert ty_info.arg_conv_cleanup is None - out_c.write("\treturn (long)ret;\n") - out_c.write("}\n") + map_tuple(struct_name, field_lines) elif vec_ty is not None: - if vec_ty in opaque_structs: - out_java.write("\tpublic static native long[] " + struct_name + "_arr_info(long vec_ptr);\n") - out_c.write("JNIEXPORT jlongArray JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1arr_1info(JNIEnv *env, jclass _b, jlong ptr) {\n") - else: - out_java.write("\tpublic static native VecOrSliceDef " + struct_name + "_arr_info(long vec_ptr);\n") - out_c.write("JNIEXPORT jobject JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1arr_1info(JNIEnv *env, jclass _b, jlong ptr) {\n") - out_c.write("\t" + struct_name + " *vec = (" + struct_name + "*)ptr;\n") - if vec_ty in opaque_structs: - out_c.write("\tjlongArray ret = (*env)->NewLongArray(env, vec->datalen);\n") - out_c.write("\tjlong *ret_elems = (*env)->GetPrimitiveArrayCritical(env, ret, NULL);\n") - out_c.write("\tfor (size_t i = 0; i < vec->datalen; i++) {\n") - out_c.write("\t\tCHECK((((long)vec->data[i].inner) & 1) == 0);\n") - out_c.write("\t\tret_elems[i] = (long)vec->data[i].inner | (vec->data[i].is_owned ? 1 : 0);\n") - out_c.write("\t}\n") - out_c.write("\t(*env)->ReleasePrimitiveArrayCritical(env, ret, ret_elems, 0);\n") - out_c.write("\treturn ret;\n") - else: - out_c.write("\treturn (*env)->NewObject(env, slicedef_cls, slicedef_meth, (long)vec->data, (long)vec->datalen, sizeof(" + vec_ty + "));\n") - out_c.write("}\n") - - ty_info = map_type(vec_ty + " arr_elem", False, None, False) - if len(ty_info.java_fn_ty_arg) == 1: # ie we're a primitive of some form - out_java.write("\tpublic static native long " + struct_name + "_new(" + ty_info.java_ty + "[] elems);\n") - out_c.write("JNIEXPORT jlong JNICALL Java_org_ldk_impl_bindings_" + struct_name.replace("_", "_1") + "_1new(JNIEnv *env, jclass _b, j" + ty_info.java_ty + "Array elems){\n") - out_c.write("\t" + struct_name + " *ret = MALLOC(sizeof(" + struct_name + "), \"" + struct_name + "\");\n") - out_c.write("\tret->datalen = (*env)->GetArrayLength(env, elems);\n") - out_c.write("\tif (ret->datalen == 0) {\n") - out_c.write("\t\tret->data = NULL;\n") - out_c.write("\t} else {\n") - out_c.write("\t\tret->data = MALLOC(sizeof(" + vec_ty + ") * ret->datalen, \"" + struct_name + " Data\");\n") - out_c.write("\t\t" + ty_info.c_ty + " *java_elems = (*env)->GetPrimitiveArrayCritical(env, elems, NULL);\n") - out_c.write("\t\tfor (size_t i = 0; i < ret->datalen; i++) {\n") - if ty_info.arg_conv is not None: - out_c.write("\t\t\t" + ty_info.c_ty + " arr_elem = java_elems[i];\n") - out_c.write("\t\t\t" + ty_info.arg_conv.replace("\n", "\n\t\t\t") + "\n") - out_c.write("\t\t\tret->data[i] = " + ty_info.arg_conv_name + ";\n") - assert ty_info.arg_conv_cleanup is None - else: - out_c.write("\t\t\tret->data[i] = java_elems[i];\n") - out_c.write("\t\t}\n") - out_c.write("\t\t(*env)->ReleasePrimitiveArrayCritical(env, elems, java_elems, 0);\n") - out_c.write("\t}\n") - out_c.write("\treturn (long)ret;\n") - out_c.write("}\n") + ty_info = type_mapping_generator.map_type(vec_ty + " arr_elem", False, None, False, False) + if ty_info.is_native_primitive: + clone_fns.add(struct_name.replace("LDK", "") + "_clone") + write_c("static inline " + struct_name + " " + struct_name.replace("LDK", "") + "_clone(const " + struct_name + " *orig) {\n") + write_c("\t" + struct_name + " ret = { .data = MALLOC(sizeof(" + ty_info.c_ty + ") * orig->datalen, \"" + struct_name + " clone bytes\"), .datalen = orig->datalen };\n") + write_c("\tmemcpy(ret.data, orig->data, sizeof(" + ty_info.c_ty + ") * ret.datalen);\n") + write_c("\treturn ret;\n}\n") + elif (ty_info.rust_obj.replace("LDK", "") + "_clone") in clone_fns: + ty_name = struct_name.replace("LDK", "") + clone_fns.add(ty_name + "_clone") + write_c("static inline " + struct_name + " " + ty_name + "_clone(const " + struct_name + " *orig) {\n") + write_c("\t" + struct_name + " ret = { .data = MALLOC(sizeof(" + ty_info.rust_obj + ") * orig->datalen, \"" + struct_name + " clone bytes\"), .datalen = orig->datalen };\n") + write_c("\tfor (size_t i = 0; i < ret.datalen; i++) {\n") + write_c("\t\tret.data[i] = " + ty_info.rust_obj.replace("LDK", "") + "_clone(&orig->data[i]);\n") + write_c("\t}\n\treturn ret;\n}\n") elif is_union_enum: assert(struct_name.endswith("_Tag")) struct_name = struct_name[:-4] @@ -1264,12 +1084,70 @@ class CommonBase { enum_var_name = struct_name.split("_") union_enum_items[enum_var_name[0]][enum_var_name[1]] = field_lines elif struct_name in union_enum_items: - map_complex_enum(struct_name, union_enum_items[struct_name]) + tuple_variants = {} + elem_items = -1 + for line, field_block_comment in field_lines: + if line == " struct {": + elem_items = 0 + elif line == " };": + elem_items = -1 + elif elem_items > -1: + line = line.strip() + if line.startswith("struct "): + line = line[7:] + elif line.startswith("enum "): + line = line[5:] + split = line.split(" ") + assert len(split) == 2 + tuple_variants[split[1].strip(";")] = (split[0], field_block_comment) + elem_items += 1 + if elem_items > 1: + # We don't currently support tuple variant with more than one element + assert False + map_complex_enum(struct_name, union_enum_items[struct_name], tuple_variants, last_block_comment) + last_block_comment = None elif is_unitary_enum: - map_unitary_enum(struct_name, field_lines) + map_unitary_enum(struct_name, field_lines, last_block_comment) + last_block_comment = None elif len(trait_fn_lines) > 0: - trait_structs.add(struct_name) - map_trait(struct_name, field_var_lines, trait_fn_lines) + map_trait(struct_name, field_var_lines, trait_fn_lines, last_block_comment) + elif struct_name == "LDKTxOut": + with open(f"{sys.argv[3]}/structs/TxOut{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(consts.hu_struct_file_prefix) + out_java_struct.write(consts.txout_defn) + out_java_struct.write(consts.hu_struct_file_suffix) + elif struct_name == "LDKTxIn": + with open(f"{sys.argv[3]}/structs/TxIn{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(consts.hu_struct_file_prefix) + out_java_struct.write(consts.txin_defn) + out_java_struct.write(consts.hu_struct_file_suffix) + elif struct_name == "LDKBigEndianScalar": + with open(f"{sys.argv[3]}/structs/BigEndianScalar{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(consts.hu_struct_file_prefix) + out_java_struct.write(consts.scalar_defn) + out_java_struct.write(consts.hu_struct_file_suffix) + fn_line = "struct LDKThirtyTwoBytes BigEndianScalar_get_bytes (struct LDKBigEndianScalar* thing)" + write_c(fn_line + " {\n") + write_c("\tLDKThirtyTwoBytes ret = { .data = *thing->big_endian_bytes };\n") + write_c("\treturn ret;\n") + write_c("}\n") + map_fn(fn_line + "\n", re.compile("(.*) (BigEndianScalar_get_bytes) \((.*)\)").match(fn_line), None, None, None) + + # We need to be able to FREE a heap-allocated BigEndianScalar, but because + # there's nothing heap-allocated inside it the C bindings don't bother + # exposing a `_free` method. Instead, we have to manually write one here, + # though it doesn't need to do anything, the autogenerated wrapper will do + # the required FREE. + fn_line = "static void BigEndianScalar_free (struct LDKBigEndianScalar thing)" + write_c(fn_line + " {}\n") + map_fn(fn_line + "\n", re.compile("static (.*) (BigEndianScalar_free) \((.*)\)").match(fn_line), None, None, None) + elif struct_name == "LDKWitnessProgram": + with open(f"{sys.argv[3]}/structs/WitnessProgram{consts.file_ext}", "w") as out_java_struct: + out_java_struct.write(consts.hu_struct_file_prefix) + out_java_struct.write(consts.witness_program_defn) + out_java_struct.write(consts.hu_struct_file_suffix) + else: + pass # Everything remaining is a byte[] of some form cur_block_obj = None else: fn_ptr = fn_ptr_regex.match(line) @@ -1280,55 +1158,53 @@ class CommonBase { if line.startswith("#include <"): pass elif line.startswith("/*"): - #out_java.write("\t" + line) if not line.endswith("*/\n"): - in_block_comment = True + block_comment = line.strip(" /*") elif line.startswith("typedef enum "): cur_block_obj = line elif line.startswith("typedef struct "): cur_block_obj = line elif line.startswith("typedef union "): cur_block_obj = line - elif line.startswith("typedef "): - alias_match = struct_alias_regex.match(line) - if alias_match.group(1) in result_templ_structs: - out_java.write("\tpublic static native boolean " + alias_match.group(2) + "_result_ok(long arg);\n") - out_java.write("\tpublic static native long " + alias_match.group(2) + "_get_inner(long arg);\n") - out_c.write("JNIEXPORT jboolean JNICALL Java_org_ldk_impl_bindings_" + alias_match.group(2).replace("_", "_1") + "_1result_1ok (JNIEnv * env, jclass _a, jlong arg) {\n") - out_c.write("\treturn ((" + alias_match.group(2) + "*)arg)->result_ok;\n") - out_c.write("}\n") - out_c.write("JNIEXPORT jlong JNICALL Java_org_ldk_impl_bindings_" + alias_match.group(2).replace("_", "_1") + "_1get_1inner (JNIEnv * env, jclass _a, jlong arg) {\n") - contents_ty = alias_match.group(1).replace("LDKCResultTempl", "LDKCResultPtr") - res_ty, err_ty = result_ptr_struct_items[contents_ty] - out_c.write("\t" + alias_match.group(2) + " *val = (" + alias_match.group(2) + "*)arg;\n") - out_c.write("\tif (val->result_ok) {\n") - if res_ty not in opaque_structs: - out_c.write("\t\treturn (long)val->contents.result;\n") - else: - out_c.write("\t\treturn (long)(val->contents.result->inner) | (val->contents.result->is_owned ? 1 : 0);\n") - out_c.write("\t} else {\n") - if err_ty not in opaque_structs: - out_c.write("\t\treturn (long)val->contents.err;\n") - else: - out_c.write("\t\treturn (long)(val->contents.err->inner) | (val->contents.err->is_owned ? 1 : 0);\n") - out_c.write("\t}\n}\n") - pass elif fn_ptr is not None: - map_fn(line, fn_ptr, None, None) + map_fn(line, fn_ptr, None, None, last_block_comment) + last_block_comment = None elif fn_ret_arr is not None: - map_fn(line, fn_ret_arr, fn_ret_arr.group(4), None) + map_fn(line, fn_ret_arr, fn_ret_arr.group(4), None, last_block_comment) + last_block_comment = None elif reg_fn is not None: - map_fn(line, reg_fn, None, None) + map_fn(line, reg_fn, None, None, last_block_comment) + last_block_comment = None elif const_val_regex is not None: # TODO Map const variables pass else: assert(line == "\n") - out_java.write("}\n") + out_java.write(consts.bindings_footer()) for struct_name in opaque_structs: - with open(sys.argv[3] + "/structs/" + struct_name.replace("LDK","") + ".java", "a") as out_java_struct: - out_java_struct.write("}\n") + with open(f"{sys.argv[3]}/structs/{struct_name.replace('LDK', '')}{consts.file_ext}", "a") as out_java_struct: + out_java_struct.write("}\n" + consts.hu_struct_file_suffix) for struct_name in trait_structs: - with open(sys.argv[3] + "/structs/" + struct_name.replace("LDK","") + ".java", "a") as out_java_struct: - out_java_struct.write("}\n") + with open(f"{sys.argv[3]}/structs/{struct_name.replace('LDK', '')}{consts.file_ext}", "a") as out_java_struct: + out_java_struct.write("}\n" + consts.hu_struct_file_suffix) + for struct_name in complex_enums: + with open(f"{sys.argv[3]}/structs/{struct_name.replace('LDK', '').replace('COption', 'Option')}{consts.file_ext}", "a") as out_java_struct: + out_java_struct.write("}\n" + consts.hu_struct_file_suffix) + for struct_name in result_types: + with open(f"{sys.argv[3]}/structs/{struct_name.replace('LDKCResult', 'Result')}{consts.file_ext}", "a") as out_java_struct: + out_java_struct.write("}\n" + consts.hu_struct_file_suffix) + for struct_name in tuple_types: + struct_hu_name = struct_name.replace("LDKC2Tuple", "TwoTuple").replace("LDKC3Tuple", "ThreeTuple").replace("LDKC4Tuple", "FourTuple") + with open(f"{sys.argv[3]}/structs/{struct_hu_name}{consts.file_ext}", "a") as out_java_struct: + out_java_struct.write("}\n" + consts.hu_struct_file_suffix) + +with open(f"{sys.argv[4]}/bindings.c.body", "w") as out_c: + out_c.write(consts.c_file_pfx) + out_c.write(consts.init_str()) + out_c.write(c_file) +with open(f"{sys.argv[4]}/version.c", "w") as out_c: + out_c.write(consts.c_version_file.replace('', local_git_version)) +with open(f"{sys.argv[3]}/structs/UtilMethods{consts.file_ext}", "a") as util: + util.write(consts.util_fn_sfx) +consts.cleanup()