import sys
class Target(Enum):
- CSHARP = 1,
+ WINDOWS = 1,
+ LINUX = 2,
+ PTHREAD = 3,
+
+def first_to_lower(string: str) -> str:
+ first = string[0]
+ return first.lower() + string[1:]
+
+def safe_arg_name(arg_name):
+ return "_" + arg_name if arg_name == "lock" or arg_name == "event" or arg_name == "params" else arg_name
+
+def arg_name_repl(s, arg_name):
+ if arg_name == "lock" or arg_name == "event" or arg_name == "params":
+ names = [i for i in range(len(s)-1, -1, -1) if s.startswith(arg_name, i)]
+ separators = set([",", "(", ")", " ", "."])
+ for idx in names:
+ match = idx == 0 or s[idx - 1] in separators
+ match &= idx + len(arg_name) == len(s) or s[idx + len(arg_name)] in separators
+ if match:
+ s = s[0:idx] + "_" + s[idx:]
+ return s
+ return s
class Consts:
- def __init__(self, DEBUG: bool, target: Target, **kwargs):
+ def __init__(self, DEBUG: bool, target: Target, outdir: str, **kwargs):
+ self.outdir = outdir
self.target = target
self.c_array_class_caches = set()
+ self.function_ptr_counter = 0
+ self.function_ptrs = {}
self.c_type_map = dict(
- bool = ['bool'],
- uint8_t = ['byte'],
- uint16_t = ['short'],
- uint32_t = ['int'],
- uint64_t = ['long'],
- int64_t = ['long'],
- double = ['double'],
+ bool = ['bool', 'long', 'bool[]'],
+ uint8_t = ['byte', 'long', 'byte[]'],
+ uint16_t = ['short', 'long', 'short[]'],
+ uint32_t = ['int', 'long', 'int[]'],
+ uint64_t = ['long', 'long', 'long[]'],
+ int64_t = ['long', 'long', 'long[]'],
+ double = ['double', 'long', 'double[]'],
)
self.java_type_map = dict(
- String = "string"
+ String = "long"
)
self.java_hu_type_map = dict(
String = "string"
using org.ldk.enums;
using org.ldk.impl;
using System;
+using System.Collections.Generic;
using System.Runtime.InteropServices;
namespace org { namespace ldk { namespace impl {
internal class bindings {
- internal class ArrayCoder : ICustomMarshaler {
- int size = 0;
- GCHandle pinnedArray;
- public static ICustomMarshaler GetInstance(string pstrCookie) {
- return new ArrayCoder();
- }
-
- public Object MarshalNativeToManaged(IntPtr pNativeData) { throw new NotImplementedException(); }
- public IntPtr MarshalManagedToNative(Object obj) {
- if (obj.GetType() == typeof(byte[])) {
- byte[] inp = (byte[])obj;
- IntPtr data = Marshal.AllocHGlobal(inp.Length + 8);
- Marshal.WriteInt64(data, inp.Length);
- Marshal.Copy(inp, 0, data + 8, inp.Length);
- this.size = inp.Length + 8;
- return data;
- } else {
- throw new NotImplementedException();
- }
- }
- public void CleanUpNativeData(IntPtr pNativeData) {
- Marshal.FreeHGlobal(pNativeData);
- }
- public void CleanUpManagedData(Object ManagedObj) { }
- public int GetNativeDataSize() {
- // Blindly guess based on the last allocation, no idea how else to implement this.
- return this.size;
- }
- }
+ static List<WeakReference> js_objs = new List<WeakReference>();
- /*static {
- init(java.lang.Enum.class, VecOrSliceDef.class);
- init_class_cache();
- if (!get_lib_version_string().equals(version.get_ldk_java_bindings_version()))
- throw new ArgumentException("Compiled LDK library and LDK class failes do not match");
- // Fetching the LDK versions from C also checks that the header and binaries match
- Console.Error.WriteLine("Loaded LDK-Java Bindings " + version.get_ldk_java_bindings_version() + " with LDK " + get_ldk_version() + " and LDK-C-Bindings " + get_ldk_c_bindings_version());
- }*/
- //static extern void init(java.lang.Class c);
- //static native void init_class_cache();
"""
self.bindings_header += self.native_meth_decl("get_lib_version_string", "string") + "();\n"
self.bindings_header += self.native_meth_decl("get_ldk_c_bindings_version", "string") + "();\n"
self.bindings_header += self.native_meth_decl("get_ldk_version", "string") + "();\n\n"
+ self.bindings_header += self.native_meth_decl("allocate_buffer", "long") + "(long buflen);\n\n"
+ self.bindings_header += self.native_meth_decl("free_buffer", "void") + "(long buf);\n\n"
self.bindings_version_file = """
public readonly int previous_vout;
internal TxIn(object _dummy, long ptr) : base(ptr) {
- this.witness = bindings.TxIn_get_witness(ptr);
- this.script_sig = bindings.TxIn_get_script_sig(ptr);
+ this.witness = InternalUtils.decodeUint8Array(bindings.TxIn_get_witness(ptr));
+ this.script_sig = InternalUtils.decodeUint8Array(bindings.TxIn_get_script_sig(ptr));
this.sequence = bindings.TxIn_get_sequence(ptr);
- this.previous_txid = bindings.TxIn_get_previous_txid(ptr);
+ this.previous_txid = InternalUtils.decodeUint8Array(bindings.TxIn_get_previous_txid(ptr));
this.previous_vout = bindings.TxIn_get_previous_vout(ptr);
}
public TxIn(byte[] witness, byte[] script_sig, int sequence, byte[] previous_txid, int previous_vout)
- : this(null, bindings.TxIn_new(witness, script_sig, sequence, previous_txid, previous_vout)) {}
+ : this(null, bindings.TxIn_new(InternalUtils.encodeUint8Array(witness), InternalUtils.encodeUint8Array(script_sig), sequence, InternalUtils.encodeUint8Array(previous_txid), previous_vout)) {}
~TxIn() {
if (ptr != 0) { bindings.TxIn_free(ptr); }
public readonly long value;
internal TxOut(object _dummy, long ptr) : base(ptr) {
- this.script_pubkey = bindings.TxOut_get_script_pubkey(ptr);
+ this.script_pubkey = InternalUtils.decodeUint8Array(bindings.TxOut_get_script_pubkey(ptr));
this.value = bindings.TxOut_get_value(ptr);
}
- public TxOut(long value, byte[] script_pubkey) : this(null, bindings.TxOut_new(script_pubkey, value)) {}
+ public TxOut(long value, byte[] script_pubkey) : this(null, bindings.TxOut_new(InternalUtils.encodeUint8Array(script_pubkey), value)) {}
~TxOut() {
if (ptr != 0) { bindings.TxOut_free(ptr); }
public readonly byte[] scalar_bytes;
internal BigEndianScalar(object _dummy, long ptr) : base(ptr) {
- this.scalar_bytes = bindings.BigEndianScalar_get_bytes(ptr);
+ this.scalar_bytes = InternalUtils.decodeUint8Array(bindings.BigEndianScalar_get_bytes(ptr));
}
- public BigEndianScalar(byte[] scalar_bytes) : base(bindings.BigEndianScalar_new(scalar_bytes)) {
- this.scalar_bytes = bindings.BigEndianScalar_get_bytes(ptr);
+ public BigEndianScalar(byte[] scalar_bytes) : base(bindings.BigEndianScalar_new(InternalUtils.encodeUint8Array(scalar_bytes))) {
+ this.scalar_bytes = InternalUtils.decodeUint8Array(bindings.BigEndianScalar_get_bytes(ptr));
}
~BigEndianScalar() {
}
}"""
+ self.witness_program_defn = """public class WitnessProgram : CommonBase {
+ /** The witness program bytes themselves */
+ public readonly byte[] program;
+ /** The witness version */
+ public readonly WitnessVersion version;
+
+ internal WitnessProgram(object _dummy, long ptr) : base(ptr) {
+ this.program = InternalUtils.decodeUint8Array(bindings.WitnessProgram_get_program(ptr));
+ this.version = new WitnessVersion(bindings.WitnessProgram_get_version(ptr));
+ }
+ static private long check_args(byte[] program, WitnessVersion version) {
+ if (program.Length < 2 || program.Length > 40) throw new ArgumentException();
+ if (version.getVal() == 0 && program.Length != 20 && program.Length != 32) throw new ArgumentException();
+ return InternalUtils.encodeUint8Array(program);
+ }
+ public WitnessProgram(byte[] program, WitnessVersion version) :
+ this(null, bindings.WitnessProgram_new(version.getVal(), check_args(program, version))) {}
+
+ ~WitnessProgram() {
+ if (ptr != 0) { bindings.WitnessProgram_free(ptr); }
+ }
+}"""
self.c_file_pfx = """
// On OSX jlong (ie long long) is not equivalent to int64_t, so we override here
self.c_file_pfx = self.c_file_pfx + "#include <stdio.h>\n#define DEBUG_PRINT(...) fprintf(stderr, __VA_ARGS__)\n"
- if not DEBUG or sys.platform == "darwin":
+ if self.target == Target.WINDOWS:
+ self.c_file_pfx = self.c_file_pfx + """#include <heapapi.h>
+static HANDLE process_heap = NULL;
+static inline void* init_heap() {
+ if (UNLIKELY(process_heap == NULL)) {
+ // Assume pointer writes wont tear, which is true where we need it.
+ process_heap = GetProcessHeap();
+ }
+}
+static inline void* MALLOC(size_t a, const char* _) {
+ init_heap();
+ return HeapAlloc(process_heap, HEAP_ZERO_MEMORY, a);
+}
+#define do_MALLOC(a, b, _c) MALLOC(a, b)
+#define FREE(p) if ((uint64_t)(p) > 4096) { init_heap(); HeapFree(process_heap, 0, p); }
+#define CHECK_ACCESS(p)
+#define CHECK_INNER_FIELD_ACCESS_OR_NULL(v)
+"""
+ elif not DEBUG or self.target != Target.LINUX:
self.c_file_pfx = self.c_file_pfx + """#define do_MALLOC(a, _b, _c) malloc(a)
#define MALLOC(a, _) malloc(a)
#define FREE(p) if ((uint64_t)(p) > 4096) { free(p); }
}
"""
- if sys.platform != "darwin":
+ if self.target == Target.LINUX:
self.c_file_pfx += """
// 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
unsigned long alloc_count = 0;
unsigned long alloc_size = 0;
DEBUG_PRINT("The following LDK-allocated blocks still remain.\\n");
- DEBUG_PRINT("Note that this is only accurate if System.gc(); System.runFinalization()\\n");
+ DEBUG_PRINT("Note that this is only accurate if System.GC.Collect(); GC.WaitForPendingFinalizers();\\n");
DEBUG_PRINT("was called prior to exit after all LDK objects were out of scope.\\n");
for (allocation* a = allocation_ll; a != NULL; a = a->next) {
DEBUG_PRINT("%s %p (%lu bytes) remains:\\n", a->struct_name, a->ptr, a->alloc_len);
alloc_size += a->alloc_len;
}
DEBUG_PRINT("%lu allocations remained for %lu bytes.\\n", alloc_count, alloc_size);
- DEBUG_PRINT("Note that this is only accurate if System.gc(); System.runFinalization()\\n");
+ DEBUG_PRINT("Note that this is only accurate if System.GC.Collect(); GC.WaitForPendingFinalizers()\\n");
DEBUG_PRINT("was called prior to exit after all LDK objects were out of scope.\\n");
}
"""
_Static_assert(sizeof(void*) <= 8, "Pointers must fit into 64 bits");
+// Int types across Windows/Linux are different, so make sure we're using the right headers.
+_Static_assert(sizeof(void*) == sizeof(uintptr_t), "stdints must be correct");
+_Static_assert(sizeof(void*) == sizeof(intptr_t), "stdints must be correct");
+_Static_assert(sizeof(uint64_t) == 8, "stdints must be correct");
+_Static_assert(sizeof(int64_t) == 8, "stdints must be correct");
+_Static_assert(sizeof(uint32_t) == 4, "stdints must be correct");
+_Static_assert(sizeof(int32_t) == 4, "stdints must be correct");
+_Static_assert(sizeof(uint16_t) == 2, "stdints must be correct");
+_Static_assert(sizeof(int16_t) == 2, "stdints must be correct");
+_Static_assert(sizeof(uint8_t) == 1, "stdints must be correct");
+_Static_assert(sizeof(int8_t) == 1, "stdints must be correct");
+
#define DECL_ARR_TYPE(ty, name) \\
struct name##array { \\
uint64_t arr_len; /* uint32_t would suffice but we want to align uint64_ts as well */ \\
return res;
}
+// The C# Bool marshalling is defined as 4 bytes, but the size of bool is platform-dependent
+typedef int32_t jboolean;
+
+int64_t CS_LDK_allocate_buffer(int64_t len) {
+ return (int64_t)MALLOC(len, "C#-requested buffer");
+}
+
+void CS_LDK_free_buffer(int64_t buf) {
+ FREE((void*)buf);
+}
+
jstring CS_LDK_get_ldk_c_bindings_version() {
return str_ref_to_cs(check_get_ldk_bindings_version(), strlen(check_get_ldk_bindings_version()));
}
self.usize_c_ty = "int64_t"
self.usize_native_ty = "long"
self.native_zero_ptr = "0"
- self.result_c_ty = "jclass"
- self.ptr_arr = "jobjectArray"
+ self.unitary_enum_c_ty = "int32_t"
+ self.ptr_arr = "ptrArray"
self.is_arr_some_check = ("", " != NULL")
- self.get_native_arr_len_call = ("(*env)->GetArrayLength(env, ", ")")
+ self.get_native_arr_len_call = ("", "->arr_len")
self.bindings_footer_wip = "\tstatic bindings() {\n"
def bindings_footer(self):
- return self.bindings_footer_wip + "\t}\n}\n} } }\n"
+ return ""
def native_meth_decl(self, meth_name, ret_ty_str):
return "\t[DllImport (\"ldkcsharp\", EntryPoint=\"CS_LDK_" + meth_name + "\")] public static extern " + ret_ty_str + " " + meth_name
def map_hu_array_elems(self, arr_name, conv_name, arr_ty, elem_ty, is_nullable):
if elem_ty.java_hu_ty == "UInt5":
- return arr_name + " != null ? InternalUtils.convUInt5Array(" + arr_name + ") : null"
+ return "InternalUtils.convUInt5Array(" + arr_name + ")"
elif elem_ty.java_hu_ty == "WitnessVersion":
- return arr_name + " != null ? InternalUtils.convWitnessVersionArray(" + arr_name + ") : null"
+ return "InternalUtils.convWitnessVersionArray(" + arr_name + ")"
else:
- return arr_name + " != null ? InternalUtils.mapArray(" + arr_name + ", " + conv_name + " => " + elem_ty.from_hu_conv[0] + ") : null"
+ return "InternalUtils.mapArray(" + arr_name + ", " + conv_name + " => " + elem_ty.from_hu_conv[0] + ")"
def str_ref_to_native_call(self, var_name, str_len):
return "str_ref_to_cs(" + var_name + ", " + str_len + ")"
def str_ref_to_c_call(self, var_name):
return "str_ref_to_owned_c(" + var_name + ")"
def str_to_hu_conv(self, var_name):
- return None
+ return "string " + var_name + "_conv = InternalUtils.decodeString(" + var_name + ");"
def str_from_hu_conv(self, var_name):
- return None
+ return ("InternalUtils.encodeString(" + var_name + ")", "")
def init_str(self):
- return ""
+ ret = ""
+ for fn_suffix in self.function_ptrs:
+ cret = self.function_ptrs[fn_suffix]["ret"][1]
+ cargs = self.function_ptrs[fn_suffix]["args"][1]
+ ret += f"""
+typedef {cret} (*invoker_{fn_suffix})(int obj_ptr, int fn_id{cargs});
+static invoker_{fn_suffix} js_invoke_function_{fn_suffix};
+int CS_LDK_register_{fn_suffix}_invoker(invoker_{fn_suffix} invoker) {{
+ js_invoke_function_{fn_suffix} = invoker;
+ return 0;
+}}
+"""
+
+ return ret
def var_decl_statement(self, ty_string, var_name, statement):
return ty_string + " " + var_name + " = " + statement
def get_java_arr_len(self, arr_name):
- return arr_name + ".Length"
+ return "InternalUtils.getArrayLength(" + arr_name + ")"
+
def get_java_arr_elem(self, elem_ty, arr_name, idx):
- return arr_name + "[" + idx + "]"
+ if elem_ty.c_ty == "int64_t" or elem_ty.c_ty == "uint64_t":
+ return "InternalUtils.getU64ArrayElem(" + arr_name + ", " + idx + ")"
+ elif elem_ty.c_ty.endswith("Array") or elem_ty.c_ty == "uintptr_t" or elem_ty.rust_obj == "LDKStr":
+ return "InternalUtils.getU64ArrayElem(" + arr_name + ", " + idx + ")"
+ elif elem_ty.rust_obj == "LDKU5":
+ return "InternalUtils.getU8ArrayElem(" + arr_name + ", " + idx + ")"
+ else:
+ assert False
+
def constr_hu_array(self, ty_info, arr_len):
base_ty = ty_info.subty.java_hu_ty.split("[")[0].split("<")[0]
conv = "new " + base_ty + "[" + arr_len + "]"
conv += "[" + ty_info.subty.java_hu_ty.split("<")[0].split("[")[1]
return conv
def cleanup_converted_native_array(self, ty_info, arr_name):
- return None
+ return "bindings.free_buffer(" + arr_name + ");"
def primitive_arr_from_hu(self, arr_ty, fixed_len, arr_name):
mapped_ty = arr_ty.subty
+ inner = arr_name
if arr_ty.rust_obj == "LDKU128":
- return ("" + arr_name + ".getLEBytes()", "")
+ return ("InternalUtils.encodeUint8Array(" + arr_name + ".getLEBytes())", "")
if fixed_len is not None:
- return ("InternalUtils.check_arr_len(" + arr_name + ", " + fixed_len + ")", "")
- return None
+ inner = "InternalUtils.check_arr_len(" + arr_name + ", " + fixed_len + ")"
+ if mapped_ty.c_ty.endswith("Array"):
+ return ("InternalUtils.encodeUint64Array(" + inner + ")", "")
+ elif mapped_ty.c_ty == "uint8_t" or mapped_ty.c_ty == "int8_t":
+ return ("InternalUtils.encodeUint8Array(" + inner + ")", "")
+ elif mapped_ty.c_ty == "uint16_t" or mapped_ty.c_ty == "int16_t":
+ return ("InternalUtils.encodeUint16Array(" + inner + ")", "")
+ elif mapped_ty.c_ty == "uint32_t":
+ return ("InternalUtils.encodeUint32Array(" + inner + ")", "")
+ elif mapped_ty.c_ty == "int64_t" or mapped_ty.c_ty == "uint64_t" or mapped_ty.rust_obj == "LDKStr":
+ return ("InternalUtils.encodeUint64Array(" + inner + ")", "")
+ else:
+ print(mapped_ty.c_ty)
+ assert False
+
def primitive_arr_to_hu(self, arr_ty, fixed_len, arr_name, conv_name):
+ mapped_ty = arr_ty.subty
if arr_ty.rust_obj == "LDKU128":
return "org.ldk.util.UInt128 " + conv_name + " = new org.ldk.util.UInt128(" + arr_name + ");"
- return None
+ elif mapped_ty.c_ty == "uint8_t" or mapped_ty.c_ty == "int8_t":
+ return "byte[] " + conv_name + " = InternalUtils.decodeUint8Array(" + arr_name + ");"
+ elif mapped_ty.c_ty == "uint16_t" or mapped_ty.c_ty == "int16_t":
+ return "short[] " + conv_name + " = InternalUtils.decodeUint16Array(" + arr_name + ");"
+ elif mapped_ty.c_ty == "uint64_t" or mapped_ty.c_ty == "int64_t":
+ return "long[] " + conv_name + " = InternalUtils.decodeUint64Array(" + arr_name + ");"
+ else:
+ assert False
def java_arr_ty_str(self, elem_ty_str):
- return elem_ty_str + "[]"
+ return "long"
def for_n_in_range(self, n, minimum, maximum):
return "for (int " + n + " = " + minimum + "; " + n + " < " + maximum + "; " + n + "++) {"
ret = ret + ", " + param
return ret + ")"
- def native_c_map_trait(self, struct_name, field_vars, flattened_field_vars, field_fns, trait_doc_comment):
- out_java_trait = ""
- out_java = ""
-
- # First generate most of the Java code, note that we need information about java method argument strings for C
- out_java_trait += self.hu_struct_file_prefix
- if trait_doc_comment is not None:
- out_java_trait += "/**\n * " + trait_doc_comment.replace("\n", "\n * ") + "\n */\n"
- out_java_trait = out_java_trait + "public class " + struct_name.replace("LDK","") + " : CommonBase {\n"
- out_java_trait = out_java_trait + "\tinternal readonly bindings." + struct_name + " bindings_instance;\n"
- out_java_trait = out_java_trait + "\tinternal " + struct_name.replace("LDK", "") + "(object _dummy, long ptr) : base(ptr) { bindings_instance = null; }\n"
- out_java_trait = out_java_trait + "\tprivate " + struct_name.replace("LDK", "") + "(bindings." + struct_name + " arg"
- for var in flattened_field_vars:
- if isinstance(var, ConvInfo):
- out_java_trait += ", " + var.java_hu_ty + " " + var.arg_name
- else:
- out_java_trait += ", bindings." + var[0] + " " + var[1]
- out_java_trait += ") : base(bindings." + struct_name + "_new(arg"
- for var in flattened_field_vars:
+ def native_c_map_trait(self, struct_name, field_var_conversions, flattened_field_var_conversions, field_function_lines, trait_doc_comment):
+ out_typescript_bindings = ""
+ super_instantiator = ""
+ bindings_instantiator = ""
+ pointer_to_adder = ""
+ impl_constructor_arguments = ""
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo):
+ impl_constructor_arguments += f", {var.java_hu_ty} {var.arg_name}"
if var.from_hu_conv is not None:
- out_java_trait = out_java_trait + ", " + var.from_hu_conv[0]
+ bindings_instantiator += ", " + var.from_hu_conv[0]
+ if var.from_hu_conv[1] != "":
+ pointer_to_adder += "\t\t\t" + var.from_hu_conv[1] + ";\n"
else:
- out_java_trait = out_java_trait + ", " + var.arg_name
+ bindings_instantiator += ", " + first_to_lower(var.arg_name)
else:
- out_java_trait = out_java_trait + ", " + var[1]
- out_java_trait = out_java_trait + ")) {\n"
- out_java_trait = out_java_trait + "\t\tthis.ptrs_to.AddLast(arg);\n"
- for var in flattened_field_vars:
+ bindings_instantiator += ", " + first_to_lower(var[1]) + ".instance_idx"
+ pointer_to_adder += "\t\timpl_holder.held.ptrs_to.AddLast(" + first_to_lower(var[1]) + ");\n"
+ impl_constructor_arguments += f", {var[0].replace('LDK', '')}Interface {first_to_lower(var[1])}_impl"
+
+ super_constructor_statements = ""
+ trait_constructor_arguments = ""
+ for var in field_var_conversions:
if isinstance(var, ConvInfo):
- if var.from_hu_conv is not None and var.from_hu_conv[1] != "":
- out_java_trait = out_java_trait + "\t\t" + var.from_hu_conv[1].replace("\n", "\n\t\t") + ";\n"
+ trait_constructor_arguments += ", " + var.arg_name
else:
- out_java_trait = out_java_trait + "\t\tthis.ptrs_to.AddLast(" + var[1] + ");\n"
- out_java_trait = out_java_trait + "\t\tthis.bindings_instance = arg;\n"
- out_java_trait = out_java_trait + "\t}\n"
- out_java_trait = out_java_trait + "\t~" + struct_name.replace("LDK","") + "() {\n"
- out_java_trait = out_java_trait + "\t\tif (ptr != 0) { bindings." + struct_name.replace("LDK","") + "_free(ptr); }\n"
- out_java_trait = out_java_trait + "\t}\n\n"
+ super_constructor_statements += "\t\t" + var[1] + " " + first_to_lower(var[1]) + " = " + var[1] + ".new_impl(" + first_to_lower(var[1]) + "_impl"
+ super_instantiator = ""
+ for suparg in var[2]:
+ if isinstance(suparg, ConvInfo):
+ super_instantiator += ", " + suparg.arg_name
+ else:
+ super_instantiator += ", " + first_to_lower(suparg[1]) + "_impl"
+ super_constructor_statements += super_instantiator + ");\n"
+ trait_constructor_arguments += ", " + first_to_lower(var[1]) + ".instance_idx"
+ for suparg in var[2]:
+ if isinstance(suparg, ConvInfo):
+ trait_constructor_arguments += ", " + suparg.arg_name
+ else:
+ # Blindly assume that we can just strip the first arg to build the args for the supertrait
+ super_constructor_statements += "\t\t" + suparg[1] + " " + first_to_lower(suparg[1]) + " = " + suparg[1] + ".new_impl(" + super_instantiator.split(", ", 1)[1] + ");\n"
+ trait_constructor_arguments += ", " + suparg[1]
+
+ # BUILD INTERFACE METHODS
java_trait_wrapper = "\tprivate class " + struct_name + "Holder { internal " + struct_name.replace("LDK", "") + " held; }\n"
java_trait_wrapper += "\tprivate class " + struct_name + "Impl : bindings." + struct_name + " {\n"
java_trait_wrapper += "\t\tinternal " + struct_name + "Impl(" + struct_name.replace("LDK", "") + "Interface arg, " + struct_name + "Holder impl_holder) { this.arg = arg; this.impl_holder = impl_holder; }\n"
java_trait_wrapper += "\t\tprivate " + struct_name.replace("LDK", "") + "Interface arg;\n"
java_trait_wrapper += "\t\tprivate " + struct_name + "Holder impl_holder;\n"
- java_trait_constr = "\tpublic static " + struct_name.replace("LDK", "") + " new_impl(" + struct_name.replace("LDK", "") + "Interface arg"
- for var in flattened_field_vars:
- if isinstance(var, ConvInfo):
- java_trait_constr += ", " + var.java_hu_ty + " " + var.arg_name
- else:
- # Ideally we'd be able to take any instance of the interface, but our C code can only represent
- # Java-implemented version, so we require users pass a Java implementation here :/
- java_trait_constr += ", " + var[0].replace("LDK", "") + "." + var[0].replace("LDK", "") + "Interface " + var[1] + "_impl"
- java_trait_constr = java_trait_constr + ") {\n\t\t" + struct_name + "Holder impl_holder = new " + struct_name + "Holder();\n"
- java_trait_constr = java_trait_constr + "\t\timpl_holder.held = new " + struct_name.replace("LDK", "") + "(new " + struct_name + "Impl(arg, impl_holder)"
- out_java_trait += "\tpublic interface " + struct_name.replace("LDK", "") + "Interface {\n"
- out_java += "\tpublic interface " + struct_name + " {\n"
- java_meths = []
- for fn_line in field_fns:
- java_meth_descr = "("
+
+ for fn_line in field_function_lines:
if fn_line.fn_name != "free" and fn_line.fn_name != "cloned":
fn_name = fn_line.fn_name
if fn_name == "lock": # reserved symbol
fn_name = "do_lock"
- out_java += "\t\t" + fn_line.ret_ty_info.java_ty + " " + fn_name + "("
java_trait_wrapper += "\t\tpublic " + fn_line.ret_ty_info.java_ty + " " + fn_name + "("
- out_java_trait += "\t\t/**\n\t\t * " + fn_line.docs.replace("\n", "\n\t\t * ") + "\n\t\t */\n"
- out_java_trait += "\t\t" + fn_line.ret_ty_info.java_hu_ty + " " + fn_name + "("
for idx, arg_conv_info in enumerate(fn_line.args_ty):
if idx >= 1:
- out_java += ", "
java_trait_wrapper += ", "
- out_java_trait += ", "
- out_java += arg_conv_info.java_ty + " _" + arg_conv_info.arg_name
- out_java_trait += arg_conv_info.java_hu_ty + " _" + arg_conv_info.arg_name
java_trait_wrapper += arg_conv_info.java_ty + " _" + arg_conv_info.arg_name
- java_meth_descr = java_meth_descr + arg_conv_info.java_fn_ty_arg
- java_meth_descr = java_meth_descr + ")" + fn_line.ret_ty_info.java_fn_ty_arg
- java_meths.append((fn_line.fn_name, java_meth_descr))
- out_java += ");\n"
- out_java_trait += ");\n"
java_trait_wrapper += ") {\n"
for arg_info in fn_line.args_ty:
java_trait_wrapper += "\t\t\treturn ret;\n"
java_trait_wrapper += "\t\t}\n"
java_trait_wrapper += "\t}"
- for var in field_vars:
- if isinstance(var, ConvInfo):
- java_trait_constr = java_trait_constr + ", " + var.arg_name
- else:
- java_trait_constr += ", " + var[1] + ".new_impl(" + var[1] + "_impl"
- suptrait_constr = ""
- for suparg in var[2]:
- if isinstance(suparg, ConvInfo):
- suptrait_constr += ", " + suparg.arg_name
- else:
- suptrait_constr += ", " + suparg[1] + "_impl"
- java_trait_constr += suptrait_constr + ").bindings_instance"
- for suparg in var[2]:
- if isinstance(suparg, ConvInfo):
- java_trait_constr += ", " + suparg.arg_name
- else:
- java_trait_constr += ", " + suparg[1] + ".new_impl("
- # Blindly assume that we can just strip the first arg to build the args for the supertrait
- java_trait_constr += suptrait_constr.split(", ", 1)[1]
- java_trait_constr += ").bindings_instance"
- out_java_trait += "\t}\n" + java_trait_wrapper + "\n"
- out_java_trait += java_trait_constr + ");\n\t\treturn impl_holder.held;\n\t}\n"
- out_java += "\t}\n"
+ out_java_interface = ""
+ java_methods = []
+ for fn_line in field_function_lines:
+ java_method_descriptor = ""
+ if fn_line.fn_name != "free" and fn_line.fn_name != "cloned":
+ out_java_interface += "\t/**" + fn_line.docs.replace("\n", "\n\t * ") + "\n\t */\n"
+ out_java_interface += "\t" + fn_line.ret_ty_info.java_hu_ty + " " + fn_line.fn_name + "("
+
+ for idx, arg_conv_info in enumerate(fn_line.args_ty):
+ if idx >= 1:
+ out_java_interface += ", "
+ out_java_interface += f"{arg_conv_info.java_hu_ty} {safe_arg_name(arg_conv_info.arg_name)}"
+ java_method_descriptor += arg_conv_info.java_fn_ty_arg
+ out_java_interface += f");\n"
+ java_method_descriptor += ")" + fn_line.ret_ty_info.java_fn_ty_arg
+ java_methods.append((fn_line.fn_name, java_method_descriptor))
+
+ formatted_trait_docs = trait_doc_comment.replace("\n", "\n * ")
+ out_typescript_human = f"""
+{self.hu_struct_file_prefix}
+
+/** An implementation of {struct_name.replace("LDK","")} */
+public interface {struct_name.replace("LDK", "")}Interface {{
+{out_java_interface}}}
+
+/**
+ * {formatted_trait_docs}
+ */
+public class {struct_name.replace("LDK","")} : CommonBase {{
+ internal bindings.{struct_name} bindings_instance;
+ internal long instance_idx;
+
+ internal {struct_name.replace("LDK","")}(object _dummy, long ptr) : base(ptr) {{ bindings_instance = null; }}
+ ~{struct_name.replace("LDK","")}() {{
+ if (ptr != 0) {{ bindings.{struct_name.replace("LDK","")}_free(ptr); }}
+ }}
+
+{java_trait_wrapper}
+
+ /** Creates a new instance of {struct_name.replace("LDK","")} from a given implementation */
+ public static {struct_name.replace("LDK", "")} new_impl({struct_name.replace("LDK", "")}Interface arg{impl_constructor_arguments}) {{
+ {struct_name}Holder impl_holder = new {struct_name}Holder();
+ {struct_name}Impl impl = new {struct_name}Impl(arg, impl_holder);
+{super_constructor_statements} long[] ptr_idx = bindings.{struct_name}_new(impl{bindings_instantiator});
+
+ impl_holder.held = new {struct_name.replace("LDK", "")}(null, ptr_idx[0]);
+ impl_holder.held.instance_idx = ptr_idx[1];
+ impl_holder.held.bindings_instance = impl;
+{pointer_to_adder} return impl_holder.held;
+ }}
+
+"""
+
+ out_typescript_bindings += "\tpublic interface " + struct_name + " {\n"
+ java_meths = []
+ for fn_line in field_function_lines:
+ if fn_line.fn_name != "free" and fn_line.fn_name != "cloned":
+ out_typescript_bindings += f"\t\t{fn_line.ret_ty_info.java_ty} {fn_line.fn_name}("
+
+ for idx, arg_conv_info in enumerate(fn_line.args_ty):
+ if idx >= 1:
+ out_typescript_bindings = out_typescript_bindings + ", "
+ out_typescript_bindings += f"{arg_conv_info.java_ty} {safe_arg_name(arg_conv_info.arg_name)}"
+
+ out_typescript_bindings += f");\n"
- out_java += self.native_meth_decl(struct_name + "_new", "long") + "(" + struct_name + " impl"
- for var in flattened_field_vars:
+ out_typescript_bindings += "\t}\n"
+
+ c_call_extra_args = ""
+ native_fn_args = "long impl_idx"
+ for var in flattened_field_var_conversions:
+ if isinstance(var, ConvInfo):
+ native_fn_args += ", " + var.java_ty + " " + var.arg_name
+ else:
+ native_fn_args += ", long " + var[1]
+ out_typescript_bindings += self.native_meth_decl(struct_name + "_new", "long") + "_native(" + native_fn_args + ");\n"
+ out_typescript_bindings += f"\tpublic static long[] {struct_name}_new({struct_name} impl"
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo):
- out_java += ", " + var.java_ty + " " + var.arg_name
+ out_typescript_bindings += f", {var.java_ty} {var.arg_name}"
+ c_call_extra_args += f", {var.arg_name}"
else:
- out_java += ", " + var[0] + " " + var[1]
- out_java += ");\n"
+ out_typescript_bindings += f", long {var[1]}"
+ c_call_extra_args += f", {var[1]}"
+
+
+ out_typescript_bindings += f""") {{
+ long new_obj_idx = js_objs.Count;
+ int i = 0;
+ for (; i < js_objs.Count; i++) {{
+ if (js_objs[i] == null || !js_objs[i].IsAlive) {{ new_obj_idx = i; break; }}
+ }}
+ if (i == js_objs.Count) {{
+ js_objs.Add(new WeakReference(impl));
+ }} else {{
+ js_objs[i] = new WeakReference(impl);
+ }}
+ long[] ret = new long[2];
+ ret[0] = {struct_name}_new_native(i{c_call_extra_args});
+ ret[1] = i;
+ return ret;
+ }}
+"""
# Now that we've written out our java code (and created java_meths), generate C
out_c = "typedef struct " + struct_name + "_JCalls {\n"
- out_c = out_c + "\tatomic_size_t refcnt;\n"
- out_c = out_c + "\tJavaVM *vm;\n"
- out_c = out_c + "\tjweak o;\n"
- for var in flattened_field_vars:
+ out_c += "\tatomic_size_t refcnt;\n"
+ out_c += "\tuint32_t instance_ptr;\n"
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo):
# We're a regular ol' field
pass
else:
# We're a supertrait
out_c = out_c + "\t" + var[0] + "_JCalls* " + var[1] + ";\n"
- for fn in field_fns:
- if fn.fn_name != "free" and fn.fn_name != "cloned":
- out_c = out_c + "\tjmethodID " + fn.fn_name + "_meth;\n"
out_c = out_c + "} " + struct_name + "_JCalls;\n"
- for fn_line in field_fns:
+ for fn_line in field_function_lines:
if fn_line.fn_name == "free":
out_c = out_c + "static void " + struct_name + "_JCalls_free(void* this_arg) {\n"
out_c = out_c + "\t" + struct_name + "_JCalls *j_calls = (" + struct_name + "_JCalls*) this_arg;\n"
out_c = out_c + "\tif (atomic_fetch_sub_explicit(&j_calls->refcnt, 1, memory_order_acquire) == 1) {\n"
- out_c = out_c + "\t\t(*env)->DeleteWeakGlobalRef(env, j_calls->o);\n"
out_c = out_c + "\t\tFREE(j_calls);\n"
out_c = out_c + "\t}\n}\n"
- for idx, fn_line in enumerate(field_fns):
+ for idx, fn_line in enumerate(field_function_lines):
if fn_line.fn_name != "free" and fn_line.fn_name != "cloned":
assert fn_line.ret_ty_info.ty_info.get_full_rust_ty()[1] == ""
out_c = out_c + fn_line.ret_ty_info.ty_info.get_full_rust_ty()[0] + " " + fn_line.fn_name + "_" + struct_name + "_jcall("
out_c = out_c + arg_info.arg_name
out_c = out_c + arg_info.ret_conv[1].replace('\n', '\n\t') + "\n"
- out_c = out_c + "\tjobject obj = (*env)->NewLocalRef(env, j_calls->o);\n\tCHECK(obj != NULL);\n"
+ ty_to_c = lambda jty, ty: "b" if jty == "bool" else "c" if jty == "char" else "s" if jty == "short" else "i" if jty == "int" else "l" if jty == "long" else "void" if jty == "void" else jty
+
+ fn_java_callback_args = ""
+ fn_c_callback_args = ""
+ fn_callback_call_args = ""
+ fn_suffix = ty_to_c(fn_line.ret_ty_info.java_ty, fn_line.ret_ty_info) + "_"
+ idx = 0
+ for arg_info in fn_line.args_ty:
+ fn_suffix += ty_to_c(arg_info.java_ty, arg_info)
+ fn_java_callback_args += ", " + arg_info.java_ty + " " + chr(ord("a") + idx)
+ if arg_info.c_ty.endswith("Array") or arg_info.c_ty == "jstring":
+ fn_c_callback_args += ", int64_t " + chr(ord("a") + idx)
+ else:
+ fn_c_callback_args += ", " + arg_info.c_ty + " " + chr(ord("a") + idx)
+ if idx != 0:
+ fn_callback_call_args += ", "
+ fn_callback_call_args += chr(ord("a") + idx)
+ idx += 1
if fn_line.ret_ty_info.c_ty.endswith("Array"):
- out_c = out_c + "\t" + fn_line.ret_ty_info.c_ty + " ret = (*env)->CallObjectMethod(env, obj, j_calls->" + fn_line.fn_name + "_meth"
- elif fn_line.ret_ty_info.c_ty == "void":
- out_c += "\t(*env)->CallVoidMethod(env, obj, j_calls->" + fn_line.fn_name + "_meth"
- elif fn_line.ret_ty_info.java_hu_ty == "string" or "org/ldk/enums" in fn_line.ret_ty_info.java_fn_ty_arg:
- # Manually write out string methods as they're just an Object
- out_c += "\t" + fn_line.ret_ty_info.c_ty + " ret = (*env)->CallObjectMethod(env, obj, j_calls->" + fn_line.fn_name + "_meth"
- elif not fn_line.ret_ty_info.passed_as_ptr:
- out_c += "\t" + fn_line.ret_ty_info.c_ty + " ret = (*env)->Call" + fn_line.ret_ty_info.java_ty.title() + "Method(env, obj, j_calls->" + fn_line.fn_name + "_meth"
+ out_c += "\t" + fn_line.ret_ty_info.c_ty + " ret = (" + fn_line.ret_ty_info.c_ty + ")"
+ out_c += "js_invoke_function_" + fn_suffix + "(j_calls->instance_ptr, " + str(self.function_ptr_counter)
+ elif fn_line.ret_ty_info.java_ty == "void":
+ out_c = out_c + "\tjs_invoke_function_" + fn_suffix + "(j_calls->instance_ptr, " + str(self.function_ptr_counter)
+ elif fn_line.ret_ty_info.java_hu_ty == "string":
+ out_c += "\tjstring ret = (jstring)js_invoke_function_" + fn_suffix + "(j_calls->instance_ptr, " + str(self.function_ptr_counter)
+ elif fn_line.ret_ty_info.arg_conv is None:
+ out_c += "\treturn js_invoke_function_" + fn_suffix + "(j_calls->instance_ptr, " + str(self.function_ptr_counter)
else:
- out_c = out_c + "\tuint64_t ret = (*env)->CallLongMethod(env, obj, j_calls->" + fn_line.fn_name + "_meth"
+ out_c += "\tuint64_t ret = js_invoke_function_" + fn_suffix + "(j_calls->instance_ptr, " + str(self.function_ptr_counter)
+
+ if fn_suffix not in self.function_ptrs:
+ caller_ret_c_ty = fn_line.ret_ty_info.c_ty
+ if fn_line.ret_ty_info.c_ty.endswith("Array") or fn_line.ret_ty_info.c_ty == "jstring":
+ caller_ret_c_ty = "int64_t"
+ self.function_ptrs[fn_suffix] = {"args": [fn_java_callback_args, fn_c_callback_args], "ret": [fn_line.ret_ty_info.java_ty, caller_ret_c_ty]}
+ self.function_ptrs[fn_suffix][self.function_ptr_counter] = (struct_name, fn_line.fn_name, fn_callback_call_args)
+ self.function_ptr_counter += 1
for idx, arg_info in enumerate(fn_line.args_ty):
if arg_info.ret_conv is not None:
- out_c = out_c + ", " + arg_info.ret_conv_name
+ if arg_info.c_ty.endswith("Array") or arg_info.c_ty == "jstring":
+ out_c += ", (int64_t)" + arg_info.ret_conv_name
+ else:
+ out_c += ", " + arg_info.ret_conv_name
else:
- out_c = out_c + ", " + arg_info.arg_name
+ assert False # TODO: Would we need some conversion here?
+ out_c += ", (int64_t)" + arg_info.arg_name
out_c = out_c + ");\n"
-
- out_c += "\tif (UNLIKELY((*env)->ExceptionCheck(env))) {\n"
- out_c += "\t\t(*env)->ExceptionDescribe(env);\n"
- out_c += "\t\t(*env)->FatalError(env, \"A call to " + fn_line.fn_name + " in " + struct_name + " from rust threw an exception.\");\n"
- out_c += "\t}\n"
-
if fn_line.ret_ty_info.arg_conv is not None:
- out_c += "\t" + fn_line.ret_ty_info.arg_conv.replace("\n", "\n\t") + "\n"
- out_c += "\treturn " + fn_line.ret_ty_info.arg_conv_name + ";\n"
- else:
- if not fn_line.ret_ty_info.passed_as_ptr and fn_line.ret_ty_info.c_ty != "void":
- out_c += "\treturn ret;\n"
+ out_c = out_c + "\t" + fn_line.ret_ty_info.arg_conv.replace("\n", "\n\t") + "\n\treturn " + fn_line.ret_ty_info.arg_conv_name + ";\n"
out_c = out_c + "}\n"
- # If we can, write out a clone function whether we need one or not, as we use them in moving to rust
- can_clone_with_ptr = True
- for var in field_vars:
- if isinstance(var, ConvInfo):
- can_clone_with_ptr = False
- if can_clone_with_ptr:
- out_c = out_c + "static void " + struct_name + "_JCalls_cloned(" + struct_name + "* new_obj) {\n"
- out_c = out_c + "\t" + struct_name + "_JCalls *j_calls = (" + struct_name + "_JCalls*) new_obj->this_arg;\n"
- out_c = out_c + "\tatomic_fetch_add_explicit(&j_calls->refcnt, 1, memory_order_release);\n"
- for var in field_vars:
- if not isinstance(var, ConvInfo):
- out_c = out_c + "\tatomic_fetch_add_explicit(&j_calls->" + var[1] + "->refcnt, 1, memory_order_release);\n"
- out_c = out_c + "}\n"
-
- out_c = out_c + "static inline " + struct_name + " " + struct_name + "_init (" + self.c_fn_args_pfx + ", jobject o"
- for var in flattened_field_vars:
+ # Write out a clone function whether we need one or not, as we use them in moving to rust
+ out_c = out_c + "static void " + struct_name + "_JCalls_cloned(" + struct_name + "* new_obj) {\n"
+ out_c = out_c + "\t" + struct_name + "_JCalls *j_calls = (" + struct_name + "_JCalls*) new_obj->this_arg;\n"
+ out_c = out_c + "\tatomic_fetch_add_explicit(&j_calls->refcnt, 1, memory_order_release);\n"
+ for var in flattened_field_var_conversions:
+ if not isinstance(var, ConvInfo):
+ out_c = out_c + "\tatomic_fetch_add_explicit(&j_calls->" + var[2].replace(".", "->") + "->refcnt, 1, memory_order_release);\n"
+ out_c = out_c + "}\n"
+
+ out_c = out_c + "static inline " + struct_name + " " + struct_name + "_init (int64_t o"
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo):
out_c = out_c + ", " + var.c_ty + " " + var.arg_name
else:
- out_c = out_c + ", jobject " + var[1]
+ out_c = out_c + ", int64_t " + var[1]
out_c = out_c + ") {\n"
- out_c = out_c + "\tjclass c = (*env)->GetObjectClass(env, o);\n"
- out_c = out_c + "\tCHECK(c != NULL);\n"
out_c = out_c + "\t" + struct_name + "_JCalls *calls = MALLOC(sizeof(" + struct_name + "_JCalls), \"" + struct_name + "_JCalls\");\n"
out_c = out_c + "\tatomic_init(&calls->refcnt, 1);\n"
- out_c = out_c + "\tDO_ASSERT((*env)->GetJavaVM(env, &calls->vm) == 0);\n"
- out_c = out_c + "\tcalls->o = (*env)->NewWeakGlobalRef(env, o);\n"
+ out_c = out_c + "\tcalls->instance_ptr = o;\n"
for (fn_name, java_meth_descr) in java_meths:
if fn_name != "free" and fn_name != "cloned":
out_c = out_c + "\tcalls->" + fn_name + "_meth = (*env)->GetMethodID(env, c, \"" + fn_name + "\", \"" + java_meth_descr + "\");\n"
out_c = out_c + "\tCHECK(calls->" + fn_name + "_meth != NULL);\n"
- for var in flattened_field_vars:
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo) and var.arg_conv is not None:
out_c = out_c + "\n\t" + var.arg_conv.replace("\n", "\n\t") +"\n"
out_c = out_c + "\n\t" + struct_name + " ret = {\n"
out_c = out_c + "\t\t.this_arg = (void*) calls,\n"
- for fn_line in field_fns:
+ for fn_line in field_function_lines:
if fn_line.fn_name != "free" and fn_line.fn_name != "cloned":
out_c = out_c + "\t\t." + fn_line.fn_name + " = " + fn_line.fn_name + "_" + struct_name + "_jcall,\n"
elif fn_line.fn_name == "free":
out_c = out_c + "\t\t.free = " + struct_name + "_JCalls_free,\n"
else:
out_c = out_c + "\t\t.cloned = " + struct_name + "_JCalls_cloned,\n"
- for var in field_vars:
+ for var in field_var_conversions:
if isinstance(var, ConvInfo):
if var.arg_conv_name is not None:
out_c = out_c + "\t\t." + var.arg_name + " = " + var.arg_conv_name + ",\n"
out_c = out_c + "\t\t." + var.var_name + " = " + var.var_name + ",\n"
out_c = out_c + "\t\t.set_" + var.var_name + " = NULL,\n"
else:
- out_c += "\t\t." + var[1] + " = " + var[0] + "_init(env, clz, " + var[1]
+ out_c += "\t\t." + var[1] + " = " + var[0] + "_init(" + var[1]
for suparg in var[2]:
if isinstance(suparg, ConvInfo):
- out_c = out_c + ", " + suparg.arg_name
+ out_c += ", " + suparg.arg_name
else:
- out_c = out_c + ", " + suparg[1]
+ out_c += ", " + suparg[1]
out_c += "),\n"
out_c = out_c + "\t};\n"
- for var in flattened_field_vars:
+ for var in flattened_field_var_conversions:
if not isinstance(var, ConvInfo):
- out_c = out_c + "\tcalls->" + var[1] + " = ret." + var[1] + ".this_arg;\n"
+ out_c = out_c + "\tcalls->" + var[1] + " = ret." + var[2] + ".this_arg;\n"
out_c = out_c + "\treturn ret;\n"
out_c = out_c + "}\n"
- out_c += "int64_t " + self.c_fn_name_define_pfx(struct_name + "_new", True) + "jobject o"
- for var in flattened_field_vars:
+ out_c = out_c + self.c_fn_ty_pfx + "uint64_t " + self.c_fn_name_define_pfx(struct_name + "_new", True) + "int32_t o"
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo):
out_c = out_c + ", " + var.c_ty + " " + var.arg_name
else:
- out_c = out_c + ", jobject " + var[1]
+ out_c = out_c + ", int32_t " + var[1]
out_c = out_c + ") {\n"
out_c = out_c + "\t" + struct_name + " *res_ptr = MALLOC(sizeof(" + struct_name + "), \"" + struct_name + "\");\n"
- out_c = out_c + "\t*res_ptr = " + struct_name + "_init(env, clz, o"
- for var in flattened_field_vars:
+ out_c = out_c + "\t*res_ptr = " + struct_name + "_init(o"
+ for var in flattened_field_var_conversions:
if isinstance(var, ConvInfo):
out_c = out_c + ", " + var.arg_name
else:
out_c = out_c + "\treturn tag_ptr(res_ptr, true);\n"
out_c = out_c + "}\n"
- for var in flattened_field_vars:
- if not isinstance(var, ConvInfo):
- out_java_trait += "\n\t/**\n"
- out_java_trait += "\t * Gets the underlying " + var[1] + ".\n"
- out_java_trait += "\t */\n"
- underscore_name = ''.join('_' + c.lower() if c.isupper() else c for c in var[1]).strip('_')
- out_java_trait += "\tpublic " + var[1] + " get_" + underscore_name + "() {\n"
- out_java_trait += "\t\t" + var[1] + " res = new " + var[1] + "(null, bindings." + struct_name + "_get_" + var[1] + "(this.ptr));\n"
- out_java_trait += "\t\tthis.ptrs_to.AddLast(res);\n"
- out_java_trait += "\t\treturn res;\n"
- out_java_trait += "\t}\n"
- out_java_trait += "\n"
-
- out_java += self.native_meth_decl(struct_name + "_get_" + var[1], "long") + "(long arg);\n"
-
- out_c += "int64_t " + self.c_fn_name_define_pfx(struct_name + "_get_" + var[1], True) + "int64_t arg) {\n"
- out_c += "\t" + struct_name + " *inp = (" + struct_name + " *)untag_ptr(arg);\n"
- out_c += "\treturn tag_ptr(&inp->" + var[1] + ", false);\n"
- out_c += "}\n"
-
- return (out_java, out_java_trait, out_c)
+ return (out_typescript_bindings, out_typescript_human, out_c)
def trait_struct_inc_refcnt(self, ty_info):
base_conv = "\nif (" + ty_info.var_name + "_conv.free == " + ty_info.rust_obj + "_JCalls_free) {\n"
out_c += f"\t\tcase {struct_name}_{var.var_name}: return {var_idx};\n"
hu_conv_body = ""
for idx, (field_ty, field_docs) in enumerate(var.fields):
+ arg_name = safe_arg_name(field_ty.arg_name)
if field_docs is not None:
java_hu_subclasses += "\t\t/**\n\t\t * " + field_docs.replace("\n", "\n\t\t * ") + "\n\t\t */\n"
- java_hu_subclasses += f"\t\tpublic {field_ty.java_hu_ty} {field_ty.arg_name};\n"
+ java_hu_subclasses += f"\t\tpublic {field_ty.java_hu_ty} {arg_name};\n"
if field_ty.to_hu_conv is not None:
- hu_conv_body += f"\t\t\t{field_ty.java_ty} {field_ty.arg_name} = bindings.{struct_name}_{var.var_name}_get_{field_ty.arg_name}(ptr);\n"
- hu_conv_body += f"\t\t\t" + field_ty.to_hu_conv.replace("\n", "\n\t\t\t") + "\n"
- hu_conv_body += f"\t\t\tthis." + field_ty.arg_name + " = " + field_ty.to_hu_conv_name + ";\n"
+ hu_conv_body += f"\t\t\t{field_ty.java_ty} {arg_name} = bindings.{struct_name}_{var.var_name}_get_{field_ty.arg_name}(ptr);\n"
+ hu_conv_body += f"\t\t\t" + arg_name_repl(field_ty.to_hu_conv.replace("\n", "\n\t\t\t"), field_ty.arg_name) + "\n"
+ hu_conv_body += f"\t\t\tthis." + arg_name + " = " + arg_name_repl(field_ty.to_hu_conv_name, field_ty.arg_name) + ";\n"
else:
- hu_conv_body += f"\t\t\tthis.{field_ty.arg_name} = bindings.{struct_name}_{var.var_name}_get_{field_ty.arg_name}(ptr);\n"
+ hu_conv_body += f"\t\t\tthis.{arg_name} = bindings.{struct_name}_{var.var_name}_get_{arg_name}(ptr);\n"
java_hu_subclasses += "\t\tinternal " + java_hu_type + "_" + var.var_name + "(long ptr) : base(null, ptr) {\n"
java_hu_subclasses += hu_conv_body
java_hu_subclasses += "\t\t}\n\t}\n"
fn_name = f"{struct_name}_{var.var_name}_get_{field_map.arg_name}"
out_c += self.c_fn_ty_pfx + field_map.c_ty + self.c_fn_name_define_pfx(fn_name, True) + self.ptr_c_ty + " ptr) {\n"
out_c += "\t" + struct_name + " *obj = (" + struct_name + "*)untag_ptr(ptr);\n"
- out_c += f"\tassert(obj->tag == {struct_name}_{var.var_name});\n"
+ out_c += f"\tCHECK(obj->tag == {struct_name}_{var.var_name});\n"
if field_map.ret_conv is not None:
- out_c += ("\t\t\t" + field_map.ret_conv[0].replace("\n", "\n\t\t\t"))
+ out_c += ("\t" + field_map.ret_conv[0].replace("\n", "\n\t"))
if var.tuple_variant:
out_c += "obj->" + camel_to_snake(var.var_name)
else:
out_opaque_struct_human = ""
out_opaque_struct_human += self.hu_struct_file_prefix
out_opaque_struct_human += "\n/**\n * " + struct_doc_comment.replace("\n", "\n * ") + "\n */\n"
- hu_name = struct_name.replace("LDKC2Tuple", "TwoTuple").replace("LDKC3Tuple", "ThreeTuple").replace("LDK", "")
+ hu_name = struct_name.replace("LDKC2Tuple", "TwoTuple").replace("LDKC3Tuple", "ThreeTuple").replace("LDKC4Tuple", "FourTuple").replace("LDK", "")
out_opaque_struct_human += ("public class " + hu_name + " : CommonBase")
if struct_name.startswith("LDKLocked") or struct_name.startswith("LDKReadOnly"):
out_opaque_struct_human += (", IDisposable")
return java_hu_struct
def map_function(self, argument_types, c_call_string, method_name, meth_n, return_type_info, struct_meth, default_constructor_args, takes_self, takes_self_as_ref, args_known, type_mapping_generator, doc_comment):
- arg_name_repl = lambda s, arg_name: s.replace(arg_name, "_" + arg_name) if arg_name == "lock" or arg_name == "event" or arg_name == "params" else s
out_java = ""
out_c = ""
out_java_struct = None
out_c += (", ")
if arg_conv_info.c_ty != "void":
out_c += (arg_conv_info.c_ty + " " + arg_conv_info.arg_name)
- if "[]" in arg_conv_info.java_ty:
- out_java += "[MarshalAs(UnmanagedType.CustomMarshaler, MarshalType=\"org.ldk.impl.ArrayCoder\")] "
out_java += (arg_conv_info.java_ty + " _" + arg_conv_info.arg_name) # Add a _ to avoid using reserved words
out_java_struct = ""
return (out_java, out_c, out_java_struct + extra_java_struct_out)
def cleanup(self):
- pass
+ with open(self.outdir + "src/org/ldk/impl/bindings.cs", "a") as bindings:
+ for fn_suffix in self.function_ptrs:
+ jret = self.function_ptrs[fn_suffix]["ret"][0]
+ jargs = self.function_ptrs[fn_suffix]["args"][0]
+
+ bindings.write(f"""
+ static {jret} c_callback_{fn_suffix}(int obj_ptr, int fn_id{jargs}) {{
+ if (obj_ptr >= js_objs.Count) {{
+ Console.Error.WriteLine("Got function call on unknown/free'd JS object in {fn_suffix}");
+ Console.Error.Flush();
+ Environment.Exit(42);
+ }}
+ object obj = js_objs[obj_ptr].Target;
+ if (obj == null) {{
+ Console.Error.WriteLine("Got function call on GC'd JS object in {fn_suffix}");
+ Console.Error.Flush();
+ Environment.Exit(43);
+ }}
+""")
+ bindings.write("\t\tswitch (fn_id) {\n")
+ for f in self.function_ptrs[fn_suffix]:
+ if f != "ret" and f != "args" and f != "call":
+ bindings.write(f"""\t\t\tcase {str(f)}:
+ if (!(obj is {self.function_ptrs[fn_suffix][f][0]})) {{
+ Console.Error.WriteLine("Got function call to object that wasn't a {self.function_ptrs[fn_suffix][f][0]} in {fn_suffix}");
+ Console.Error.Flush();
+ Environment.Exit(44);
+ }}\n""")
+ call = f"(({self.function_ptrs[fn_suffix][f][0]})obj).{self.function_ptrs[fn_suffix][f][1]}({self.function_ptrs[fn_suffix][f][2]});"
+ if jret != "void":
+ bindings.write("\t\t\t\treturn " + call)
+ else:
+ bindings.write("\t\t\t\t" + call + "\n\t\t\t\treturn;")
+ bindings.write("\n")
+
+ bindings.write(f"""\t\t\tdefault:
+ Console.Error.WriteLine("Got unknown function call with id " + fn_id + " from C in {fn_suffix}");
+ Console.Error.Flush();
+ Environment.Exit(45);
+ return{" false" if jret == "bool" else " 0" if jret != "void" else ""};
+ }}
+ }}
+ public delegate {jret} {fn_suffix}_callback(int obj_ptr, int fn_id{jargs});
+ static {fn_suffix}_callback {fn_suffix}_callback_inst = c_callback_{fn_suffix};
+""")
+ bindings.write(self.native_meth_decl(f"register_{fn_suffix}_invoker", "int") + f"({fn_suffix}_callback callee);\n")
+ # Easiest way to get a static run is just define a variable, even if we dont care
+ bindings.write(f"\tstatic int _run_{fn_suffix}_registration = register_{fn_suffix}_invoker({fn_suffix}_callback_inst);")
+
+ bindings.write("""
+}
+} } }""")