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/** * Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved. * SPDX-License-Identifier: Apache-2.0. */#include "io.h"#include "logger.h" #include <aws/common/logging.h>#include <aws/common/mutex.h>#include <aws/io/channel_bootstrap.h>#include <aws/io/event_loop.h>#include <aws/io/pkcs11.h>#include <aws/io/socket.h>#include <aws/io/stream.h>#include <aws/io/tls_channel_handler.h> #ifdef _MSC_VER#    pragma warning(disable : 4456) /* When nesting AWS_NAPI_CALL and AWS_NAPI_ENSURE, status's shadow eachother */#endif napi_value aws_napi_error_code_to_string(napi_env env, napi_callback_info info) {     size_t num_args = 1;    napi_value node_args[1];    if (napi_ok != napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retreive callback information");        return NULL;    }    if (num_args != 1) {        napi_throw_error(env, NULL, "error_code_to_string needs exactly 1 argument");        return NULL;    }     napi_value error_number_val = NULL;    if (napi_coerce_to_number(env, node_args[0], &error_number_val)) {        return NULL;    }     int64_t error_code = 0;    if (napi_get_value_int64(env, error_number_val, &error_code)) {        AWS_ASSERT(false); /* Coerce should make this impossible */    }     const char *error_string = aws_error_debug_str((int)error_code);     napi_value error_string_val = NULL;    if (napi_create_string_utf8(env, error_string, NAPI_AUTO_LENGTH, &error_string_val)) {        napi_throw_error(env, NULL, "error_code_to_string failed to create return value");    }     return error_string_val;} napi_value aws_napi_error_code_to_name(napi_env env, napi_callback_info info) {     size_t num_args = 1;    napi_value node_args[1];    if (napi_ok != napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retreive callback information");        return NULL;    }    if (num_args != 1) {        napi_throw_error(env, NULL, "error_code_to_name needs exactly 1 argument");        return NULL;    }     napi_value error_number_val = NULL;    if (napi_coerce_to_number(env, node_args[0], &error_number_val)) {        return NULL;    }     int64_t error_code = 0;    if (napi_get_value_int64(env, error_number_val, &error_code)) {        AWS_ASSERT(false); /* Coerce should make this impossible */    }     const char *error_string = aws_error_name((int)error_code);     napi_value error_string_val = NULL;    if (napi_create_string_utf8(env, error_string, NAPI_AUTO_LENGTH, &error_string_val)) {        napi_throw_error(env, NULL, "error_code_to_name failed to create return value");    }     return error_string_val;} napi_value aws_napi_io_logging_enable(napi_env env, napi_callback_info info) {    napi_value node_args[2];    size_t num_args = AWS_ARRAY_SIZE(node_args);     if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }     enum aws_log_level log_level;    if (napi_get_value_int32(env, node_args[0], (int32_t *)&log_level)) {        napi_throw_error(env, NULL, "log_level must be an integer");        return NULL;    }     aws_napi_logger_set_level(log_level);     return NULL;} napi_value aws_napi_is_alpn_available(napi_env env, napi_callback_info info) {    (void)info;     const bool is_alpn_available = aws_tls_is_alpn_available();     napi_value node_bool = NULL;    if (napi_ok != napi_get_boolean(env, is_alpn_available, &node_bool)) {         napi_throw_error(env, NULL, "Failed to get boolean value");        return NULL;    }     return node_bool;} struct client_bootstrap_binding {    struct aws_client_bootstrap *bootstrap;    struct aws_host_resolver *resolver;}; struct aws_client_bootstrap *aws_napi_get_client_bootstrap(struct client_bootstrap_binding *binding) {    return binding->bootstrap;} /** Finalizer for an client_bootstrap external */static void s_client_bootstrap_finalize(napi_env env, void *finalize_data, void *finalize_hint) {     (void)env;    (void)finalize_hint;     struct client_bootstrap_binding *binding = finalize_data;    AWS_ASSERT(binding);     struct aws_allocator *allocator = binding->bootstrap->allocator;     aws_host_resolver_release(binding->resolver);    aws_client_bootstrap_release(binding->bootstrap);     aws_mem_release(allocator, binding);} #ifdef _MSC_VER#    pragma warning(push)#    pragma warning(disable : 4204 4221) /* non-standard aggregate initializer warnings */#endif napi_value aws_napi_io_client_bootstrap_new(napi_env env, napi_callback_info info) {    (void)info;     struct aws_allocator *allocator = aws_napi_get_allocator();     struct client_bootstrap_binding *binding = aws_mem_acquire(allocator, sizeof(struct client_bootstrap_binding));    AWS_ZERO_STRUCT(*binding);     struct aws_host_resolver_default_options resolver_options = {        .max_entries = 64,        .el_group = aws_napi_get_node_elg(),    };     binding->resolver = aws_host_resolver_new_default(allocator, &resolver_options);    if (binding->resolver == NULL) {        goto clean_up;    }     struct aws_client_bootstrap_options options = {        .event_loop_group = aws_napi_get_node_elg(),        .host_resolver = binding->resolver,    };     binding->bootstrap = aws_client_bootstrap_new(allocator, &options);    if (!binding->bootstrap) {        napi_throw_error(env, NULL, "Failed init client_bootstrap");        goto clean_up;    }     napi_value node_external = NULL;    if (napi_ok != napi_create_external(env, binding, s_client_bootstrap_finalize, NULL, &node_external)) {        napi_throw_error(env, NULL, "Failed create n-api external");        goto clean_up;    }     return node_external; clean_up:    if (binding->bootstrap) {        aws_client_bootstrap_release(binding->bootstrap);    }    if (binding->resolver) {        aws_host_resolver_release(binding->resolver);    }    if (binding) {        aws_mem_release(allocator, binding);    }     return NULL;} #ifdef _MSC_VER#    pragma warning(pop)#endif struct pkcs11_lib_binding {    struct aws_pkcs11_lib *native;}; static void s_pkcs11_lib_finalize(napi_env env, void *finalize_data, void *finalize_hint) {    (void)env;    (void)finalize_hint;     struct pkcs11_lib_binding *binding = finalize_data;    if (binding->native) {        aws_pkcs11_lib_release(binding->native);    }    aws_mem_release(aws_napi_get_allocator(), binding);} napi_value aws_napi_io_pkcs11_lib_new(napi_env env, napi_callback_info info) {    napi_value node_args[2];    size_t num_args = AWS_ARRAY_SIZE(node_args);    napi_value *arg = &node_args[0];    if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "io_pkcs11_lib_new called with wrong number of args");        return NULL;    }     /* From hereon, need to clean up if errors occur */    struct aws_string *path = NULL;    napi_value node_external = NULL;    bool success = false;     /* parse path */    napi_value node_path = *arg++;    path = aws_string_new_from_napi(env, node_path);    if (path == NULL) {        napi_throw_type_error(env, NULL, "Cannot convert path to string");        goto cleanup;    }     struct aws_pkcs11_lib_options options = {        .filename = aws_byte_cursor_from_string(path),    };     /* parse behavior */    napi_value node_behavior_arg = *arg++;    napi_value node_behavior_val = NULL;    if (napi_coerce_to_number(env, node_behavior_arg, &node_behavior_val)) {        napi_throw_type_error(env, NULL, "Invalid behavior arg (cannot coerce to number)");        goto cleanup;    }     int32_t behavior_int = 0;    if (napi_get_value_int32(env, node_behavior_val, &behavior_int)) {        napi_throw_type_error(env, NULL, "Invalid behavior arg (cannot get int value)");        goto cleanup;    }    options.initialize_finalize_behavior = (enum aws_pcks11_lib_behavior)behavior_int;     /* create external */    struct pkcs11_lib_binding *binding = aws_mem_calloc(aws_napi_get_allocator(), 1, sizeof(struct pkcs11_lib_binding));    if (napi_create_external(env, binding, s_pkcs11_lib_finalize, NULL, &node_external)) {        napi_throw_error(env, NULL, "Failed to create n-api external");        goto cleanup;    }     /* create pkcs11_lib */    binding->native = aws_pkcs11_lib_new(aws_napi_get_allocator(), &options);    if (binding->native == NULL) {        aws_napi_throw_last_error(env);        goto cleanup;    }     success = true;cleanup:    aws_string_destroy(path);     /* NOTE: don't need to clean up node_external, the finalizer will handle that the GC collects it */     return success ? node_external : NULL;} napi_value aws_napi_io_pkcs11_lib_close(napi_env env, napi_callback_info info) {    napi_value node_args[1];    size_t num_args = AWS_ARRAY_SIZE(node_args);    napi_value *arg = &node_args[0];    if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "aws_napi_io_pkcs11_lib_close called with wrong number of args");        return NULL;    }     napi_value node_external = *arg++;     struct pkcs11_lib_binding *binding = NULL;    AWS_NAPI_CALL(env, napi_get_value_external(env, node_external, (void **)&binding), {        AWS_NAPI_ENSURE(env, napi_throw_type_error(env, NULL, "expected valid Pkcs11Lib.handle"));        return NULL;    });     if (binding->native) {        aws_pkcs11_lib_release(binding->native);        binding->native = NULL;    }     return NULL;} /** Finalizer for a tls_ctx external */static void s_tls_ctx_finalize(napi_env env, void *finalize_data, void *finalize_hint) {     (void)env;    (void)finalize_hint;     struct aws_tls_ctx *tls_ctx = finalize_data;    AWS_ASSERT(tls_ctx);     aws_tls_ctx_release(tls_ctx);} napi_value aws_napi_io_tls_ctx_new(napi_env env, napi_callback_info info) {     struct aws_allocator *alloc = aws_napi_get_allocator();    napi_status status = napi_ok;    (void)status;     napi_value node_args[14];    size_t num_args = AWS_ARRAY_SIZE(node_args);    napi_value *arg = &node_args[0];    if (napi_ok != napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retreive callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "aws_nodejs_io_client_tls_ctx_new called with wrong number of arguments");        return NULL;    }     napi_value result = NULL;     struct aws_string *pkcs12_path = NULL;    struct aws_byte_buf pkcs12_pwd;    AWS_ZERO_STRUCT(pkcs12_pwd);     struct aws_tls_ctx_options ctx_options;    AWS_ZERO_STRUCT(ctx_options);     struct aws_string *ca_path = NULL;    struct aws_string *ca_file = NULL;     struct aws_byte_buf certificate;    AWS_ZERO_STRUCT(certificate);    struct aws_byte_buf private_key;    AWS_ZERO_STRUCT(private_key);    struct aws_byte_buf ca_buf;    AWS_ZERO_STRUCT(ca_buf);     struct aws_string *cert_path = NULL;    struct aws_string *pkey_path = NULL;    struct aws_string *alpn_list = NULL;     struct aws_tls_ctx_pkcs11_options pkcs11_options;    AWS_ZERO_STRUCT(pkcs11_options);    struct aws_byte_buf pkcs11_pin;    AWS_ZERO_STRUCT(pkcs11_pin);    uint64_t pkcs11_slot_id = 0;    struct aws_byte_buf pkcs11_token_label;    AWS_ZERO_STRUCT(pkcs11_token_label);    struct aws_byte_buf pkcs11_key_label;    AWS_ZERO_STRUCT(pkcs11_key_label);    struct aws_byte_buf pkcs11_cert_path;    AWS_ZERO_STRUCT(pkcs11_cert_path);    struct aws_byte_buf pkcs11_cert_contents;    AWS_ZERO_STRUCT(pkcs11_cert_contents);     struct aws_string *windows_cert_store_path = NULL;     uint32_t min_tls_version = AWS_IO_TLS_VER_SYS_DEFAULTS;    napi_value node_tls_version = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_tls_version)) {        napi_value node_number;        if (napi_ok != napi_coerce_to_number(env, node_tls_version, &node_number)) {            napi_throw_type_error(env, NULL, "min_tls_version must be an enum/Number (or convertible to a Number)");            return result;        }        status = napi_get_value_uint32(env, node_number, &min_tls_version);        AWS_FATAL_ASSERT(status == napi_ok); /* We coerced the value to a number, so this must return ok */    }     napi_value node_ca_file = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_ca_file)) {        ca_file = aws_string_new_from_napi(env, node_ca_file);        if (!ca_file) {            napi_throw_type_error(env, NULL, "ca_filepath must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_ca_path = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_ca_path)) {        ca_path = aws_string_new_from_napi(env, node_ca_path);        if (!ca_path) {            napi_throw_type_error(env, NULL, "ca_dirpath must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_ca_buf = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_ca_buf)) {        if (aws_byte_buf_init_from_napi(&ca_buf, env, node_ca_buf)) {            napi_throw_type_error(env, NULL, "certificate_authority must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_alpn = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_alpn)) {        alpn_list = aws_string_new_from_napi(env, node_alpn);        if (!alpn_list) {            napi_throw_type_error(env, NULL, "alpn_list must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_cert_path = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_cert_path)) {        cert_path = aws_string_new_from_napi(env, node_cert_path);        if (!cert_path) {            napi_throw_type_error(env, NULL, "cert_path must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_cert_buf = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_cert_buf)) {        if (aws_byte_buf_init_from_napi(&certificate, env, node_cert_buf)) {            napi_throw_type_error(env, NULL, "certificate must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_key_path = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_key_path)) {        pkey_path = aws_string_new_from_napi(env, node_key_path);        if (!pkey_path) {            napi_throw_type_error(env, NULL, "private_key_path must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_key_buf = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_key_buf)) {        if (aws_byte_buf_init_from_napi(&private_key, env, node_key_buf)) {            napi_throw_type_error(env, NULL, "private_key must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_pkcs12_path = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_pkcs12_path)) {        pkcs12_path = aws_string_new_from_napi(env, node_pkcs12_path);        if (!pkcs12_path) {            napi_throw_type_error(env, NULL, "pkcs12_path must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_pkcs12_password = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_pkcs12_password)) {        if (napi_ok != aws_byte_buf_init_from_napi(&pkcs12_pwd, env, node_pkcs12_password)) {            napi_throw_type_error(env, NULL, "pkcs12_password must be a String (or convertible to a String)");            goto cleanup;        }    }     napi_value node_pkcs11_options = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_pkcs11_options)) {         napi_value node_pkcs11_lib = NULL;        AWS_NAPI_CALL(env, napi_get_named_property(env, node_pkcs11_options, "pkcs11_lib", &node_pkcs11_lib), {            napi_throw_type_error(env, NULL, "'pkcs11_lib' is required for PKCS#11");            goto cleanup;        });         napi_value node_pkcs11_lib_handle = NULL;        AWS_NAPI_CALL(env, napi_get_named_property(env, node_pkcs11_lib, "handle", &node_pkcs11_lib_handle), {            napi_throw_type_error(env, NULL, "'pkcs11_lib' must be a Pkcs11Lib");            goto cleanup;        });         struct pkcs11_lib_binding *pkcs11_lib_binding = NULL;        AWS_NAPI_CALL(env, napi_get_value_external(env, node_pkcs11_lib_handle, (void **)&pkcs11_lib_binding), {            napi_throw_type_error(env, NULL, "'pkcs11_lib' must be a Pkcs11Lib");            goto cleanup;        });        pkcs11_options.pkcs11_lib = pkcs11_lib_binding->native;         /* user_pin property is required. null is allowed, but this is unusual, so we require the user to set it */        napi_value node_user_pin = NULL;        AWS_NAPI_CALL(env, napi_get_named_property(env, node_pkcs11_options, "user_pin", &node_user_pin), {            napi_throw_type_error(env, NULL, "'user_pin' is required for PKCS#11 (must be string or null)");            goto cleanup;        });         napi_valuetype node_user_pin_type = napi_undefined;        napi_typeof(env, node_user_pin, &node_user_pin_type);        if (node_user_pin_type == napi_undefined) {            napi_throw_type_error(env, NULL, "user_pin' is required for PKCS#11 (must be string or null)");            goto cleanup;        }         if (node_user_pin_type != napi_null) {            if (napi_ok != aws_byte_buf_init_from_napi(&pkcs11_pin, env, node_user_pin)) {                napi_throw_type_error(env, NULL, "PKCS#11 'user_pin' must be a string or null");                goto cleanup;            }            pkcs11_options.user_pin = aws_byte_cursor_from_buf(&pkcs11_pin);        }         napi_value node_slot_id = NULL;        if (napi_ok == napi_get_named_property(env, node_pkcs11_options, "slot_id", &node_slot_id)) {            if (!aws_napi_is_null_or_undefined(env, node_slot_id)) {                if (napi_ok != napi_get_value_int64(env, node_slot_id, (int64_t *)&pkcs11_slot_id)) {                    napi_throw_type_error(env, NULL, "PKCS#11 'slot_id' must be an int");                    goto cleanup;                }                pkcs11_options.slot_id = &pkcs11_slot_id;            }        }         /* clang-format off */         #define PARSE_PKCS11_OPTION_STR(property_name, option_cursor, storage_buffer) {                                \            napi_value node_property = NULL;                                                                           \            if (napi_ok == napi_get_named_property(env, node_pkcs11_options, property_name, &node_property)) {         \                if (!aws_napi_is_null_or_undefined(env, node_property)) {                                              \                    if (napi_ok != aws_byte_buf_init_from_napi(&storage_buffer, env, node_property)) {                 \                        napi_throw_type_error(                                                                         \                            env, NULL, "PKCS#11 '" property_name "' must be a string (or convertible to string)");     \                        goto cleanup;                                                                                  \                    }                                                                                                  \                    option_cursor = aws_byte_cursor_from_buf(&storage_buffer);                                         \                }                                                                                                      \            }                                                                                                          \        }        /* clang-format on */         PARSE_PKCS11_OPTION_STR("token_label", pkcs11_options.token_label, pkcs11_token_label);        PARSE_PKCS11_OPTION_STR("private_key_object_label", pkcs11_options.private_key_object_label, pkcs11_key_label);        PARSE_PKCS11_OPTION_STR("cert_file_path", pkcs11_options.cert_file_path, pkcs11_cert_path);        PARSE_PKCS11_OPTION_STR("cert_file_contents", pkcs11_options.cert_file_contents, pkcs11_cert_contents);    }     napi_value node_windows_cert_store_path = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_windows_cert_store_path)) {        windows_cert_store_path = aws_string_new_from_napi(env, node_windows_cert_store_path);        if (!windows_cert_store_path) {            napi_throw_type_error(env, NULL, "windows_cert_store_path must be a String (or convertible to a String)");            goto cleanup;        }    }     bool verify_peer = true;    napi_value node_verify_peer = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_verify_peer)) {        napi_value node_bool;        if (napi_ok != napi_coerce_to_bool(env, node_verify_peer, &node_bool)) {            napi_throw_type_error(env, NULL, "verify_peer must be a boolean (or convertible to a boolean)");            goto cleanup;        }         status = napi_get_value_bool(env, node_bool, &verify_peer);        AWS_FATAL_ASSERT(status == napi_ok);    }     if (certificate.buffer && private_key.buffer) {        struct aws_byte_cursor cert_cursor = aws_byte_cursor_from_buf(&certificate);        struct aws_byte_cursor pkey_cursor = aws_byte_cursor_from_buf(&private_key);        if (aws_tls_ctx_options_init_client_mtls(&ctx_options, alloc, &cert_cursor, &pkey_cursor)) {            aws_napi_throw_last_error(env);            goto cleanup;        }    } else if (cert_path && pkey_path) {        if (aws_tls_ctx_options_init_client_mtls_from_path(                &ctx_options, alloc, aws_string_c_str(cert_path), aws_string_c_str(pkey_path))) {            aws_napi_throw_last_error(env);            goto cleanup;        }    } else if (pkcs12_path && pkcs12_pwd.buffer) {        struct aws_byte_cursor pwd_cursor = aws_byte_cursor_from_buf(&pkcs12_pwd);        if (aws_tls_ctx_options_init_client_mtls_pkcs12_from_path(                &ctx_options, alloc, aws_string_c_str(pkcs12_path), &pwd_cursor)) {            aws_napi_throw_last_error(env);            goto cleanup;        }    } else if (!aws_napi_is_null_or_undefined(env, node_pkcs11_options)) {        if (aws_tls_ctx_options_init_client_mtls_with_pkcs11(&ctx_options, alloc, &pkcs11_options)) {            aws_napi_throw_last_error(env);            goto cleanup;        }    } else if (windows_cert_store_path) {        if (aws_tls_ctx_options_init_client_mtls_from_system_path(                &ctx_options, alloc, aws_string_c_str(windows_cert_store_path))) {            aws_napi_throw_last_error(env);            goto cleanup;        }    } else {        aws_tls_ctx_options_init_default_client(&ctx_options, alloc);    }     if (ca_buf.buffer) {        struct aws_byte_cursor ca_cursor = aws_byte_cursor_from_buf(&ca_buf);        if (aws_tls_ctx_options_override_default_trust_store(&ctx_options, &ca_cursor)) {            aws_napi_throw_last_error(env);            goto cleanup;        }    } else if (ca_path || ca_file) {        if (aws_tls_ctx_options_override_default_trust_store_from_path(                &ctx_options, ca_path ? aws_string_c_str(ca_path) : NULL, ca_file ? aws_string_c_str(ca_file) : NULL)) {            aws_napi_throw_last_error(env);            goto cleanup;        }    }     if (alpn_list) {        aws_tls_ctx_options_set_alpn_list(&ctx_options, aws_string_c_str(alpn_list));    }     aws_tls_ctx_options_set_verify_peer(&ctx_options, verify_peer);     struct aws_tls_ctx *tls_ctx = aws_tls_client_ctx_new(alloc, &ctx_options);    if (!tls_ctx) {        aws_napi_throw_last_error(env);        goto cleanup;    }     napi_value node_external;    if (napi_ok != napi_create_external(env, tls_ctx, s_tls_ctx_finalize, NULL, &node_external)) {        napi_throw_error(env, NULL, "Failed create n-api external");        goto cleanup;    }     result = node_external; cleanup:    aws_string_destroy_secure(pkcs12_path);    aws_byte_buf_clean_up_secure(&pkcs12_pwd);    aws_string_destroy_secure(cert_path);    aws_byte_buf_clean_up_secure(&certificate);    aws_string_destroy_secure(pkey_path);    aws_byte_buf_clean_up_secure(&private_key);    aws_byte_buf_clean_up_secure(&ca_buf);    aws_string_destroy(alpn_list);    aws_byte_buf_clean_up_secure(&pkcs11_pin);    aws_byte_buf_clean_up(&pkcs11_token_label);    aws_byte_buf_clean_up(&pkcs11_key_label);    aws_byte_buf_clean_up(&pkcs11_cert_path);    aws_byte_buf_clean_up(&pkcs11_cert_contents);    aws_string_destroy(windows_cert_store_path);    aws_tls_ctx_options_clean_up(&ctx_options);     return result;} void s_tls_connection_options_finalize(napi_env env, void *finalize_data, void *finalize_hint) {    (void)env;    (void)finalize_hint;    struct aws_tls_connection_options *tls_opts = finalize_data;    aws_tls_connection_options_clean_up(tls_opts);    aws_mem_release(aws_napi_get_allocator(), tls_opts);} napi_value aws_napi_io_tls_connection_options_new(napi_env env, napi_callback_info info) {    napi_value node_args[3];    size_t num_args = AWS_ARRAY_SIZE(node_args);    napi_value *arg = &node_args[0];    if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "io_tls_connection_options_new requires exactly 3 arguments");        return NULL;    }     napi_value node_external = NULL; /* return value, external that wraps the aws_tls_connection_options */    struct aws_string *server_name = NULL;    struct aws_string *alpn_list = NULL;     napi_value node_tls_ctx = *arg++;    struct aws_tls_ctx *tls_ctx = NULL;    AWS_NAPI_CALL(env, napi_get_value_external(env, node_tls_ctx, (void **)&tls_ctx), {        AWS_NAPI_ENSURE(env, napi_throw_type_error(env, NULL, "Unable to extract aws_tls_ctx from tls_ctx external"));        return NULL;    });     napi_value node_server_name = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_server_name)) {        server_name = aws_string_new_from_napi(env, node_server_name);        if (!server_name) {            AWS_NAPI_ENSURE(env, napi_throw_type_error(env, NULL, "Unable to convert server_name to string"));            goto cleanup;        }    }     napi_value node_alpn_list = *arg++;    if (!aws_napi_is_null_or_undefined(env, node_alpn_list)) {        alpn_list = aws_string_new_from_napi(env, node_alpn_list);        if (!alpn_list) {            AWS_NAPI_ENSURE(env, napi_throw_type_error(env, NULL, "Unable to convert alpn_list to string"));            goto cleanup;        }    }     struct aws_allocator *allocator = aws_napi_get_allocator();    struct aws_tls_connection_options *tls_opts =        aws_mem_calloc(allocator, 1, sizeof(struct aws_tls_connection_options));    AWS_FATAL_ASSERT(tls_opts && "Failed to allocate new aws_tls_connection_options");     aws_tls_connection_options_init_from_ctx(tls_opts, tls_ctx);     if (server_name) {        struct aws_byte_cursor server_name_cursor = aws_byte_cursor_from_string(server_name);        aws_tls_connection_options_set_server_name(tls_opts, allocator, &server_name_cursor);    }     if (alpn_list) {        aws_tls_connection_options_set_alpn_list(tls_opts, allocator, aws_string_c_str(alpn_list));    }     AWS_NAPI_CALL(env, napi_create_external(env, tls_opts, s_tls_connection_options_finalize, NULL, &node_external), {        goto cleanup;    }); cleanup:    aws_string_destroy(server_name);    aws_string_destroy(alpn_list);    return node_external;} void s_socket_options_finalize(napi_env env, void *finalize_data, void *finalize_hint) {    (void)env;    (void)finalize_hint;     struct aws_socket_options *socket_options = finalize_data;    aws_mem_release(aws_napi_get_allocator(), socket_options);} napi_value aws_napi_io_socket_options_new(napi_env env, napi_callback_info info) {    napi_value node_args[7];    size_t num_args = AWS_ARRAY_SIZE(node_args);    if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "io_socket_options_new requires exactly 7 arguments");        return NULL;    }     struct aws_socket_options options;    AWS_ZERO_STRUCT(options);     uint32_t enum_value = 0;    if (napi_get_value_uint32(env, node_args[0], &enum_value) || enum_value > AWS_SOCKET_DGRAM) {        napi_throw_type_error(env, NULL, "First argument (type) must be a Number between 0 and 1");        return NULL;    }    options.type = (enum aws_socket_type)enum_value;     if (napi_get_value_uint32(env, node_args[1], &enum_value) || enum_value > AWS_SOCKET_LOCAL) {        napi_throw_type_error(env, NULL, "Second argument (domain) must be a Number between 0 and 2");        return NULL;    }    options.domain = (enum aws_socket_domain)enum_value;     if (napi_get_value_uint32(env, node_args[2], &enum_value) || enum_value > UINT16_MAX) {        napi_throw_type_error(env, NULL, "Third argument (connect_timeout_ms) must be a Number");        return NULL;    }    options.connect_timeout_ms = (uint16_t)enum_value;     uint32_t keep_alive_interval_sec;    if (napi_get_value_uint32(env, node_args[3], &keep_alive_interval_sec)) {        napi_throw_type_error(            env, NULL, "Fourth argument (keep_alive_interval_sec) must be a Number between 0 and 32767");        return NULL;    }    options.keep_alive_interval_sec = (keep_alive_interval_sec > 0x7fff) ? 0x7fff : (uint16_t)keep_alive_interval_sec;     uint32_t keep_alive_timeout_sec;    if (napi_get_value_uint32(env, node_args[4], &keep_alive_timeout_sec)) {        napi_throw_type_error(            env, NULL, "Fifth argument (keep_alive_timeout_sec) must be a Number between 0 and 32767");        return NULL;    }    options.keep_alive_timeout_sec = (keep_alive_timeout_sec > 0x7fff) ? 0x7fff : (uint16_t)keep_alive_timeout_sec;     uint32_t keep_alive_max_failed_probes;    if (napi_get_value_uint32(env, node_args[5], &keep_alive_max_failed_probes)) {        napi_throw_type_error(            env, NULL, "Sixth argument (keep_alive_max_failed_probes) must be a Number between 0 and 32767");        return NULL;    }    options.keep_alive_max_failed_probes =        (keep_alive_max_failed_probes > 0x7fff) ? 0x7fff : (uint16_t)keep_alive_max_failed_probes;     if (napi_get_value_bool(env, node_args[6], &options.keepalive)) {        napi_throw_type_error(env, NULL, "Seventh argument (keepalive) must be a Boolean value");        return NULL;    }     struct aws_allocator *allocator = aws_napi_get_allocator();    struct aws_socket_options *socket_options = aws_mem_acquire(allocator, sizeof(struct aws_socket_options));    if (!socket_options) {        aws_napi_throw_last_error(env);        return NULL;    }     *socket_options = options;     napi_value node_external;    if (napi_create_external(env, socket_options, s_socket_options_finalize, NULL, &node_external)) {        aws_mem_release(allocator, socket_options);        aws_napi_throw_last_error(env);        return NULL;    }     return node_external;} struct aws_napi_input_stream_impl {    /* this MUST be the first member, allows polymorphism with aws_input_stream* */    struct aws_input_stream base;    struct aws_byte_buf buffer;    struct aws_byte_cursor cursor;    struct aws_mutex mutex;    size_t bytes_read; /* bytes already consumed by the reader, flushed from the buffer */    bool eos;          /* end of stream */}; static int s_input_stream_seek(struct aws_input_stream *stream, int64_t offset, enum aws_stream_seek_basis basis) {    struct aws_napi_input_stream_impl *impl = AWS_CONTAINER_OF(stream, struct aws_napi_input_stream_impl, base);     int result = AWS_OP_SUCCESS;    uint64_t final_offset = 0;     aws_mutex_lock(&impl->mutex);    uint64_t total_bytes = impl->bytes_read + impl->buffer.len;     switch (basis) {        case AWS_SSB_BEGIN:            /* Offset must be positive, must be greater than the bytes already read (because those             * bytes are gone from the buffer), and must not be greater than the sum of the bytes             * read so far and the size of the buffer             */            if (offset < 0 || (uint64_t)offset > total_bytes || (uint64_t)offset < impl->bytes_read) {                result = aws_raise_error(AWS_IO_STREAM_INVALID_SEEK_POSITION);                goto failed;            }            final_offset = (uint64_t)offset - impl->bytes_read;            break;        case AWS_SSB_END:            /* Offset must be negative, and must not be trying to go further back than the             * current length of the buffer, because those bytes have been purged             */            if (offset > 0 || offset == INT64_MIN || (uint64_t)(-offset) > impl->buffer.len) {                result = aws_raise_error(AWS_IO_STREAM_INVALID_SEEK_POSITION);                goto failed;            }            final_offset = (uint64_t)impl->buffer.len - (uint64_t)(-offset);            break;        default:            result = aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);            goto failed;    }     AWS_ASSERT(final_offset <= SIZE_MAX);    size_t buf_offset = (size_t)final_offset;    AWS_ASSERT(buf_offset <= impl->buffer.len);     if (buf_offset == impl->buffer.len) {        impl->bytes_read += impl->buffer.len;        impl->buffer.len = 0;    } else if (buf_offset > 0) {        size_t new_len = impl->buffer.len - buf_offset;        memmove(impl->buffer.buffer, impl->buffer.buffer + buf_offset, new_len);        impl->buffer.len = new_len;    } failed:    aws_mutex_unlock(&impl->mutex);    return result;} static int s_input_stream_read(struct aws_input_stream *stream, struct aws_byte_buf *dest) {    struct aws_napi_input_stream_impl *impl = AWS_CONTAINER_OF(stream, struct aws_napi_input_stream_impl, base);     size_t bytes_to_read = dest->capacity - dest->len;    if (bytes_to_read > impl->buffer.len) {        bytes_to_read = impl->buffer.len;    }     aws_mutex_lock(&impl->mutex);    if (!aws_byte_buf_write(dest, impl->buffer.buffer, bytes_to_read)) {        aws_mutex_unlock(&impl->mutex);        return AWS_OP_ERR;    }    aws_mutex_unlock(&impl->mutex);     /* seek the stream past what's been read to advance the buffer/bytes_read */    aws_input_stream_seek(&impl->base, impl->bytes_read + bytes_to_read, AWS_SSB_BEGIN);    return AWS_OP_SUCCESS;} static int s_input_stream_get_status(struct aws_input_stream *stream, struct aws_stream_status *status) {    struct aws_napi_input_stream_impl *impl = AWS_CONTAINER_OF(stream, struct aws_napi_input_stream_impl, base);    aws_mutex_lock(&impl->mutex);    status->is_end_of_stream = impl->eos;    aws_mutex_unlock(&impl->mutex);    status->is_valid = true;    return AWS_OP_SUCCESS;} static int s_input_stream_get_length(struct aws_input_stream *stream, int64_t *out_length) {    (void)stream;    (void)out_length;    return aws_raise_error(AWS_ERROR_UNIMPLEMENTED);} static void s_input_stream_destroy(struct aws_napi_input_stream_impl *impl) {    struct aws_allocator *allocator = impl->buffer.allocator;    aws_mutex_clean_up(&impl->mutex);    aws_byte_buf_clean_up(&impl->buffer);    aws_mem_release(allocator, impl);} static struct aws_input_stream_vtable s_input_stream_vtable = {    .seek = s_input_stream_seek,    .read = s_input_stream_read,    .get_status = s_input_stream_get_status,    .get_length = s_input_stream_get_length,}; napi_value aws_napi_io_input_stream_new(napi_env env, napi_callback_info info) {    napi_value node_args[1];    size_t num_args = AWS_ARRAY_SIZE(node_args);    if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "io_input_stream_new requires exactly 1 arguments");        return NULL;    }     int64_t capacity = 0;    if (napi_get_value_int64(env, node_args[0], &capacity)) {        napi_throw_error(env, NULL, "capacity must be a number");        return NULL;    }     struct aws_allocator *allocator = aws_napi_get_allocator();    struct aws_napi_input_stream_impl *impl = aws_mem_calloc(allocator, 1, sizeof(struct aws_napi_input_stream_impl));    if (!impl) {        napi_throw_error(env, NULL, "Unable to allocate native aws_input_stream");        return NULL;    }     impl->base.vtable = &s_input_stream_vtable;    aws_ref_count_init(&impl->base.ref_count, impl, (aws_simple_completion_callback *)s_input_stream_destroy);    if (aws_mutex_init(&impl->mutex)) {        aws_napi_throw_last_error(env);        goto failed;    }     if (aws_byte_buf_init(&impl->buffer, allocator, 16 * 1024)) {        napi_throw_error(env, NULL, "Unable to allocate stream buffer");        goto failed;    }     napi_value node_external = NULL;    if (napi_create_external(env, impl, NULL, NULL, &node_external)) {        napi_throw_error(env, NULL, "Unable to create external for native aws_input_stream");        goto failed;    }     return node_external; failed:    if (impl) {        aws_input_stream_release(&impl->base);    }     return NULL;} napi_value aws_napi_io_input_stream_append(napi_env env, napi_callback_info info) {    napi_value node_args[2];    size_t num_args = AWS_ARRAY_SIZE(node_args);    if (napi_get_cb_info(env, info, &num_args, node_args, NULL, NULL)) {        napi_throw_error(env, NULL, "Failed to retrieve callback information");        return NULL;    }    if (num_args != AWS_ARRAY_SIZE(node_args)) {        napi_throw_error(env, NULL, "io_input_stream_append requires exactly 2 arguments");        return NULL;    }     struct aws_napi_input_stream_impl *impl = NULL;    if (napi_get_value_external(env, node_args[0], (void **)&impl)) {        napi_throw_error(env, NULL, "stream must be a node external");        return NULL;    }     /* null means end of stream */    if (aws_napi_is_null_or_undefined(env, node_args[1])) {        aws_mutex_lock(&impl->mutex);        impl->eos = true;        aws_mutex_unlock(&impl->mutex);        return NULL;    }     /* not null or undefined, so it should be a buffer */    bool is_buffer = false;    if (napi_is_buffer(env, node_args[1], &is_buffer) || !is_buffer) {        napi_throw_error(env, NULL, "buffer must be a valid Buffer object or undefined/null");        return NULL;    }     struct aws_byte_cursor data;    if (napi_get_buffer_info(env, node_args[1], (void **)&data.ptr, &data.len)) {        napi_throw_error(env, NULL, "Unable to extract data from buffer");        return NULL;    }     aws_mutex_lock(&impl->mutex);    aws_byte_buf_append(&impl->buffer, &data);    aws_mutex_unlock(&impl->mutex);     return NULL;}