move http heavy lifting to its own file/reorganize a bit
This commit is contained in:
parent
0727fb5585
commit
05fcc5755e
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@ -100,7 +100,12 @@ TODO List:
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Compiler wishlist/watchlist:
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* Fix the weirdness we see with comptime type generation (see aws.zig around line 251)
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* [Allow declarations for comptime type generation](https://github.com/ziglang/zig/issues/6709)
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* Fix the weirdness we see with comptime type generation (see aws.zig around line 135)
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* ~~[Allow declarations for comptime type generation](https://github.com/ziglang/zig/issues/6709)~~
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This is no longer as important. The primary issue was in the return value, but
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due to the way AWS responses are provided, we are able to statically declare a
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type and thus allow our types to be generated.
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* [Merge PR to allow stripping -static](https://github.com/ziglang/zig/pull/8248)
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* [comptime allocations](https://github.com/ziglang/zig/issues/1291) so we can read files, etc (or is there another way)
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947
src/aws.zig
947
src/aws.zig
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@ -1,41 +1,11 @@
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const std = @import("std");
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const awshttp = @import("awshttp.zig");
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const json = @import("json.zig");
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const c = @cImport({
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@cInclude("bitfield-workaround.h");
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@cInclude("aws/common/allocator.h");
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@cInclude("aws/common/error.h");
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@cInclude("aws/common/string.h");
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@cInclude("aws/auth/auth.h");
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@cInclude("aws/auth/credentials.h");
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@cInclude("aws/auth/signable.h");
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@cInclude("aws/auth/signing_config.h");
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@cInclude("aws/auth/signing_result.h");
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@cInclude("aws/auth/signing.h");
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@cInclude("aws/http/connection.h");
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@cInclude("aws/http/request_response.h");
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@cInclude("aws/io/channel_bootstrap.h");
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@cInclude("aws/io/tls_channel_handler.h");
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@cInclude("aws/io/event_loop.h");
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@cInclude("aws/io/socket.h");
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@cInclude("aws/io/stream.h");
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});
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const std_atomic_bool = @import("bool.zig"); // This is in std in 0.8.0
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const CN_NORTH_1_HASH = std.hash_map.hashString("cn-north-1");
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const CN_NORTHWEST_1_HASH = std.hash_map.hashString("cn-northwest-1");
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const US_ISO_EAST_1_HASH = std.hash_map.hashString("us-iso-east-1");
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const US_ISOB_EAST_1_HASH = std.hash_map.hashString("us-isob-east-1");
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var reference_count: u32 = 0;
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var c_allocator: ?*c.aws_allocator = null;
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var c_logger: c.aws_logger = .{
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.vtable = null,
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.allocator = null,
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.p_impl = null,
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};
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const log = std.log.scoped(.aws);
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const httplog = std.log.scoped(.awshttp);
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pub const Options = awshttp.Options;
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// Code "generation" prototype
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// TODO: Make generic
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@ -146,88 +116,20 @@ fn Service(comptime service: []const u8) type {
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pub const Aws = struct {
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allocator: *std.mem.Allocator,
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bootstrap: *c.aws_client_bootstrap,
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resolver: *c.aws_host_resolver,
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eventLoopGroup: *c.aws_event_loop_group,
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credentialsProvider: *c.aws_credentials_provider,
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var tls_ctx_options: ?*c.aws_tls_ctx_options = null;
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var tls_ctx: ?*c.aws_tls_ctx = null;
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fn AsyncResult(comptime T: type) type {
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return struct {
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result: *T,
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requiredCount: u32 = 1,
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sync: std_atomic_bool.Bool = std_atomic_bool.Bool.init(false), // This is a 0.8.0 feature... :(
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count: u8 = 0,
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};
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}
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fn AwsAsyncCallbackResult(comptime T: type) type {
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return struct {
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result: ?*T = null,
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error_code: i32 = c.AWS_ERROR_SUCCESS,
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};
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}
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aws_http: awshttp.AwsHttp,
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const Self = @This();
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pub fn init(allocator: *std.mem.Allocator) Self {
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if (reference_count == 0) cInit(allocator);
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reference_count += 1;
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log.debug("auth ref count: {}", .{reference_count});
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// TODO; determine appropriate lifetime for the bootstrap and credentials'
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// provider
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// Mostly stolen from aws_c_auth/credentials_tests.c
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const el_group = c.aws_event_loop_group_new_default(c_allocator, 1, null);
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var resolver_options = c.aws_host_resolver_default_options{
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.el_group = el_group,
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.max_entries = 8,
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.shutdown_options = null, // not set in test
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.system_clock_override_fn = null, // not set in test
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};
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const resolver = c.aws_host_resolver_new_default(c_allocator, &resolver_options);
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const bootstrap_options = c.aws_client_bootstrap_options{
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.host_resolver = resolver,
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.on_shutdown_complete = null, // was set in test
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.host_resolution_config = null,
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.user_data = null,
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.event_loop_group = el_group,
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};
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const bootstrap = c.aws_client_bootstrap_new(c_allocator, &bootstrap_options);
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const provider_chain_options = c.aws_credentials_provider_chain_default_options{
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.bootstrap = bootstrap,
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.shutdown_options = c.aws_credentials_provider_shutdown_options{
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.shutdown_callback = null, // was set on test
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.shutdown_user_data = null,
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},
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};
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return .{
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.allocator = allocator,
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.bootstrap = bootstrap,
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.resolver = resolver,
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.eventLoopGroup = el_group,
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.credentialsProvider = c.aws_credentials_provider_new_chain_default(c_allocator, &provider_chain_options),
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.aws_http = awshttp.AwsHttp.init(allocator),
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};
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}
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pub fn deinit(self: *Aws) void {
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if (reference_count > 0)
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reference_count -= 1;
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log.debug("deinit: auth ref count: {}", .{reference_count});
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c.aws_credentials_provider_release(self.credentialsProvider);
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// TODO: Wait for provider shutdown? https://github.com/awslabs/aws-c-auth/blob/c394e30808816a8edaab712e77f79f480c911d3a/tests/credentials_tests.c#L197
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c.aws_client_bootstrap_release(self.bootstrap);
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c.aws_host_resolver_release(self.resolver);
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c.aws_event_loop_group_release(self.eventLoopGroup);
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if (reference_count == 0) {
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cDeinit();
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log.debug("Deinit complete", .{});
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}
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self.aws_http.deinit();
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}
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pub fn call(self: Self, comptime request: anytype, options: Options) !FullResponse(request) {
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const action_info = actionForRequest(request);
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// This is true weirdness, but we are running into compiler bugs. Touch only if
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log.debug("service {s}", .{action_info.service});
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log.debug("version {s}", .{service.version});
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log.debug("action {s}", .{action.action_name});
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const response = try self.callApi(action_info.service, service.version, action.action_name, options);
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const response = try self.aws_http.callApi(action_info.service, service.version, action.action_name, options);
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defer response.deinit();
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// TODO: Check status code for badness
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var stream = json.TokenStream.init(response.body);
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@ -270,837 +172,11 @@ pub const Aws = struct {
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.request_id = real_response.ResponseMetadata.RequestId,
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},
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.parser_options = parser_options,
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// .ParsedType = ServerResponse,
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.raw_parsed = parsed_response,
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};
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}
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fn callApi(self: Self, service: []const u8, version: []const u8, action: []const u8, options: Options) !HttpResult {
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const endpoint = try regionSubDomain(self.allocator, service, options.region, options.dualstack);
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defer endpoint.deinit();
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const body = try std.fmt.allocPrint(self.allocator, "Action={s}&Version={s}\n", .{ action, version });
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defer self.allocator.free(body);
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httplog.debug("Calling {s}.{s}, endpoint {s}", .{ service, action, endpoint.uri });
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const signing_options: SigningOptions = .{
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.region = options.region,
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.service = service,
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};
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return try self.makeRequest(endpoint, "POST", "/", body, signing_options);
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}
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fn signRequest(self: Self, http_request: *c.aws_http_message, options: SigningOptions) !void {
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const creds = try self.getCredentials();
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defer c.aws_credentials_release(creds);
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// print the access key. Creds are an opaque C type, so we
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// use aws_credentials_get_access_key_id. That gets us an aws_byte_cursor,
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// from which we create a new aws_string with the contents. We need
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// to convert to c_str with aws_string_c_str
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const access_key = c.aws_string_new_from_cursor(c_allocator, &c.aws_credentials_get_access_key_id(creds));
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defer c.aws_mem_release(c_allocator, access_key);
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// defer c_allocator.*.mem_release.?(c_allocator, access_key);
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log.debug("Signing with access key: {s}", .{c.aws_string_c_str(access_key)});
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const signable = c.aws_signable_new_http_request(c_allocator, http_request);
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if (signable == null) {
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log.warn("Could not create signable request", .{});
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return AwsError.SignableError;
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}
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defer c.aws_signable_destroy(signable);
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const signing_region = try std.fmt.allocPrint(self.allocator, "{s}", .{options.region});
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defer self.allocator.free(signing_region);
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const signing_service = try std.fmt.allocPrint(self.allocator, "{s}", .{options.service});
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defer self.allocator.free(signing_service);
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const temp_signing_config = c.bitfield_workaround_aws_signing_config_aws{
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.algorithm = .AWS_SIGNING_ALGORITHM_V4,
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.config_type = .AWS_SIGNING_CONFIG_AWS,
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.signature_type = .AWS_ST_HTTP_REQUEST_HEADERS,
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.region = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, signing_region)),
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.service = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, signing_service)),
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.should_sign_header = null,
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.should_sign_header_ud = null,
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.flags = c.bitfield_workaround_aws_signing_config_aws_flags{
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.use_double_uri_encode = 0,
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.should_normalize_uri_path = 0,
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.omit_session_token = 1,
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},
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.signed_body_value = c.aws_byte_cursor_from_c_str(""),
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.signed_body_header = .AWS_SBHT_X_AMZ_CONTENT_SHA256, //or AWS_SBHT_NONE
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.credentials = creds,
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.credentials_provider = self.credentialsProvider,
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.expiration_in_seconds = 0,
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};
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var signing_config = c.new_aws_signing_config(c_allocator, &temp_signing_config);
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defer c.aws_mem_release(c_allocator, signing_config);
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var signing_result = AwsAsyncCallbackResult(c.aws_http_message){ .result = http_request };
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var sign_result_request = AsyncResult(AwsAsyncCallbackResult(c.aws_http_message)){ .result = &signing_result };
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if (c.aws_sign_request_aws(c_allocator, signable, fullCast([*c]const c.aws_signing_config_base, signing_config), signComplete, &sign_result_request) != c.AWS_OP_SUCCESS) {
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const error_code = c.aws_last_error();
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log.alert("Could not initiate signing request: {s}:{s}", .{ c.aws_error_name(error_code), c.aws_error_str(error_code) });
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return AwsError.SigningInitiationError;
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}
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// Wait for callback. Note that execution, including real work of signing
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// the http request, will continue in signComplete (below),
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// then continue beyond this line
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waitOnCallback(c.aws_http_message, &sign_result_request);
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if (sign_result_request.result.error_code != c.AWS_ERROR_SUCCESS) {
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return AwsError.SignableError;
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}
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}
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/// It's my theory that the aws event loop has a trigger to corrupt the
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/// signing result after this call completes. So the technique of assigning
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/// now, using later will not work
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fn signComplete(result: ?*c.aws_signing_result, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
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var async_result = userDataTo(AsyncResult(AwsAsyncCallbackResult(c.aws_http_message)), user_data);
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var http_request = async_result.result.result;
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async_result.sync.store(true, .SeqCst);
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async_result.count += 1;
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async_result.result.error_code = error_code;
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if (result) |res| {
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if (c.aws_apply_signing_result_to_http_request(http_request, c_allocator, result) != c.AWS_OP_SUCCESS) {
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log.alert("Could not apply signing request to http request: {s}", .{c.aws_error_debug_str(c.aws_last_error())});
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}
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log.debug("signing result applied", .{});
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} else {
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log.alert("Did not receive signing result: {s}", .{c.aws_error_debug_str(c.aws_last_error())});
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}
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async_result.sync.store(false, .SeqCst);
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}
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fn fullCast(comptime T: type, val: anytype) T {
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return @ptrCast(T, @alignCast(@alignOf(T), val));
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}
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const HttpResult = struct {
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body: []const u8,
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fn deinit(self: HttpResult) void {
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httplog.debug("http result deinit complete", .{});
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return;
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}
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};
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// This is a fairly generic "make an http/https request" method and could
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// potentially be extracted to another type that's non-AWS specific.
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// It does make AWS signing if signingoptions are passed, which could be
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// some function passed in, or just left as needed.
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fn makeRequest(self: Self, endpoint: EndPoint, method: []const u8, path: []const u8, body: []const u8, signing_options: ?SigningOptions) !HttpResult {
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// TODO: Try to re-encapsulate this
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// var http_request = try createRequest(method, path, body);
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// TODO: Likely this should be encapsulated more
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var http_request = c.aws_http_message_new_request(c_allocator);
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defer c.aws_http_message_release(http_request);
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// TODO: Verify if AWS cares about these headers (probably should be passing them...)
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// Accept-Encoding: identity
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// Content-Type: application/x-www-form-urlencoded
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if (c.aws_http_message_set_request_method(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, method))) != c.AWS_OP_SUCCESS)
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return AwsError.SetRequestMethodError;
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if (c.aws_http_message_set_request_path(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, path))) != c.AWS_OP_SUCCESS)
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return AwsError.SetRequestPathError;
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httplog.debug("body length: {d}", .{body.len});
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const body_cursor = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, body));
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const request_body = c.aws_input_stream_new_from_cursor(c_allocator, &body_cursor);
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defer c.aws_input_stream_destroy(request_body);
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if (body.len > 0) {
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c.aws_http_message_set_body_stream(http_request, request_body);
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}
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// End CreateRequest. This should return a struct with a deinit function that can do
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// destroys, etc
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var context = RequestContext{
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.allocator = self.allocator,
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};
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var tls_connection_options: ?*c.aws_tls_connection_options = null;
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const host = try std.fmt.allocPrint(self.allocator, "{s}", .{endpoint.host});
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defer self.allocator.free(host);
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try self.addHeaders(http_request.?, host, body);
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if (std.mem.eql(u8, endpoint.scheme, "https")) {
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// TODO: Figure out why this needs to be inline vs function call
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// tls_connection_options = try self.setupTls(host);
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if (Aws.tls_ctx_options == null) {
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httplog.debug("Setting up tls options", .{});
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var opts: c.aws_tls_ctx_options = .{
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.allocator = c_allocator,
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.minimum_tls_version = @intToEnum(c.aws_tls_versions, c.AWS_IO_TLS_VER_SYS_DEFAULTS),
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.cipher_pref = @intToEnum(c.aws_tls_cipher_pref, c.AWS_IO_TLS_CIPHER_PREF_SYSTEM_DEFAULT),
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.ca_file = c.aws_byte_buf_from_c_str(""),
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.ca_path = c.aws_string_new_from_c_str(c_allocator, ""),
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.alpn_list = null,
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.certificate = c.aws_byte_buf_from_c_str(""),
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.private_key = c.aws_byte_buf_from_c_str(""),
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.max_fragment_size = 0,
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.verify_peer = true,
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};
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Aws.tls_ctx_options = &opts;
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c.aws_tls_ctx_options_init_default_client(Aws.tls_ctx_options.?, c_allocator);
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// h2;http/1.1
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if (c.aws_tls_ctx_options_set_alpn_list(Aws.tls_ctx_options, "http/1.1") != c.AWS_OP_SUCCESS) {
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httplog.alert("Failed to load alpn list with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
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return AwsError.AlpnError;
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}
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Aws.tls_ctx = c.aws_tls_client_ctx_new(c_allocator, Aws.tls_ctx_options.?);
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if (Aws.tls_ctx == null) {
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std.debug.panic("Failed to initialize TLS context with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
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}
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httplog.debug("tls options setup applied", .{});
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}
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var conn_opts = c.aws_tls_connection_options{
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.alpn_list = null,
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.server_name = null,
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.on_negotiation_result = null,
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.on_data_read = null,
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.on_error = null,
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.user_data = null,
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.ctx = null,
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.advertise_alpn_message = false,
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.timeout_ms = 0,
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};
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tls_connection_options = &conn_opts;
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c.aws_tls_connection_options_init_from_ctx(tls_connection_options, tls_ctx);
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var host_var = host;
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var host_cur = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host_var));
|
||||
if (c.aws_tls_connection_options_set_server_name(tls_connection_options, c_allocator, &host_cur) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to set servername with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.TlsError;
|
||||
}
|
||||
}
|
||||
if (signing_options) |opts| try self.signRequest(http_request.?, opts);
|
||||
const socket_options = c.aws_socket_options{
|
||||
.type = @intToEnum(c.aws_socket_type, c.AWS_SOCKET_STREAM),
|
||||
.domain = @intToEnum(c.aws_socket_domain, c.AWS_SOCKET_IPV4),
|
||||
.connect_timeout_ms = 3000, // TODO: change hardcoded 3s value
|
||||
.keep_alive_timeout_sec = 0,
|
||||
.keepalive = false,
|
||||
.keep_alive_interval_sec = 0,
|
||||
// If set, sets the number of keep alive probes allowed to fail before the connection is considered
|
||||
// lost. If zero OS defaults are used. On Windows, this option is meaningless until Windows 10 1703.
|
||||
.keep_alive_max_failed_probes = 0,
|
||||
};
|
||||
const http_client_options = c.aws_http_client_connection_options{
|
||||
.self_size = @sizeOf(c.aws_http_client_connection_options),
|
||||
.socket_options = &socket_options,
|
||||
.allocator = c_allocator,
|
||||
.port = endpoint.port,
|
||||
.host_name = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host)),
|
||||
.bootstrap = self.bootstrap,
|
||||
.initial_window_size = c.SIZE_MAX,
|
||||
.tls_options = tls_connection_options,
|
||||
.user_data = &context,
|
||||
.proxy_options = null,
|
||||
.monitoring_options = null,
|
||||
.http1_options = null,
|
||||
.http2_options = null,
|
||||
.manual_window_management = false,
|
||||
.on_setup = connectionSetupCallback,
|
||||
.on_shutdown = connectionShutdownCallback,
|
||||
};
|
||||
if (c.aws_http_client_connect(&http_client_options) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("HTTP client connect failed with {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.HttpClientConnectError;
|
||||
}
|
||||
// TODO: Timeout
|
||||
// Wait for connection to setup
|
||||
while (!context.connection_complete.load(.SeqCst)) {
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
if (context.return_error) |e| return e;
|
||||
|
||||
const request_options = c.aws_http_make_request_options{
|
||||
.self_size = @sizeOf(c.aws_http_make_request_options),
|
||||
.on_response_headers = incomingHeadersCallback,
|
||||
.on_response_header_block_done = null,
|
||||
.on_response_body = incomingBodyCallback,
|
||||
.on_complete = requestCompleteCallback,
|
||||
.user_data = @ptrCast(*c_void, &context),
|
||||
.request = http_request,
|
||||
};
|
||||
|
||||
// C code
|
||||
// app_ctx->response_code_written = false;
|
||||
const stream = c.aws_http_connection_make_request(context.connection, &request_options);
|
||||
if (stream == null) {
|
||||
httplog.alert("failed to create request.", .{});
|
||||
return AwsError.RequestCreateError;
|
||||
}
|
||||
if (c.aws_http_stream_activate(stream) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("HTTP request failed with {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.HttpRequestError;
|
||||
}
|
||||
// TODO: Timeout
|
||||
while (!context.request_complete.load(.SeqCst)) {
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
httplog.debug("request_complete. Response code {d}", .{context.response_code.?});
|
||||
httplog.debug("headers:", .{});
|
||||
for (context.headers.?.items) |h| {
|
||||
httplog.debug(" {s}: {s}", .{ h.name, h.value });
|
||||
}
|
||||
httplog.debug("raw response body:\n{s}", .{context.body});
|
||||
// Connection will stay alive until stream completes
|
||||
c.aws_http_connection_release(context.connection);
|
||||
context.connection = null;
|
||||
if (tls_connection_options) |opts| {
|
||||
c.aws_tls_connection_options_clean_up(opts);
|
||||
}
|
||||
var final_body: []const u8 = "";
|
||||
if (context.body) |b| {
|
||||
final_body = b;
|
||||
}
|
||||
const rc = HttpResult{
|
||||
.body = final_body,
|
||||
};
|
||||
return rc;
|
||||
}
|
||||
|
||||
// TODO: Re-encapsulate or delete this function. It is not currently
|
||||
// used and will not be touched by the compiler
|
||||
fn createRequest(method: []const u8, path: []const u8, body: []const u8) !*c.aws_http_message {
|
||||
// TODO: Likely this should be encapsulated more
|
||||
var http_request = c.aws_http_message_new_request(c_allocator);
|
||||
// TODO: Verify if AWS cares about these headers (probably should be passing them...)
|
||||
// Accept-Encoding: identity
|
||||
// Content-Type: application/x-www-form-urlencoded
|
||||
|
||||
if (c.aws_http_message_set_request_method(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, method))) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.SetRequestMethodError;
|
||||
|
||||
if (c.aws_http_message_set_request_path(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, path))) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.SetRequestPathError;
|
||||
|
||||
const body_cursor = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, body));
|
||||
const request_body = c.aws_input_stream_new_from_cursor(c_allocator, &body_cursor);
|
||||
defer c.aws_input_stream_destroy(request_body);
|
||||
c.aws_http_message_set_body_stream(http_request, request_body);
|
||||
return http_request.?;
|
||||
}
|
||||
fn addHeaders(self: Self, request: *c.aws_http_message, host: []const u8, body: []const u8) !void {
|
||||
const accept_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Accept"),
|
||||
.value = c.aws_byte_cursor_from_c_str("application/json"),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, accept_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
const host_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Host"),
|
||||
.value = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host)),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, host_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
const user_agent_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("User-Agent"),
|
||||
.value = c.aws_byte_cursor_from_c_str("zig-aws 1.0, Powered by the AWS Common Runtime."),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, user_agent_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
// AWS does not seem to care about Accept-Encoding
|
||||
// Accept-Encoding: identity
|
||||
// Content-Type: application/x-www-form-urlencoded
|
||||
// const accept_encoding_header = c.aws_http_header{
|
||||
// .name = c.aws_byte_cursor_from_c_str("Accept-Encoding"),
|
||||
// .value = c.aws_byte_cursor_from_c_str("identity"),
|
||||
// .compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
// };
|
||||
// if (c.aws_http_message_add_header(request, accept_encoding_header) != c.AWS_OP_SUCCESS)
|
||||
// return AwsError.AddHeaderError;
|
||||
|
||||
// AWS *does* seem to care about Content-Type. I don't think this header
|
||||
// will hold for all APIs
|
||||
// TODO: Work out Content-type
|
||||
const content_type_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Content-Type"),
|
||||
.value = c.aws_byte_cursor_from_c_str("application/x-www-form-urlencoded"),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, content_type_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
if (body.len > 0) {
|
||||
const len = try std.fmt.allocPrint(self.allocator, "{d}", .{body.len});
|
||||
// This defer seems to work ok, but I'm a bit concerned about why
|
||||
defer self.allocator.free(len);
|
||||
const content_length_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Content-Length"),
|
||||
.value = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, len)),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, content_length_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
}
|
||||
}
|
||||
|
||||
fn connectionSetupCallback(connection: ?*c.aws_http_connection, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
httplog.debug("connection setup callback start", .{});
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
if (error_code != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to setup connection: {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
context.return_error = AwsError.SetupConnectionError;
|
||||
}
|
||||
context.connection = connection;
|
||||
context.connection_complete.store(true, .SeqCst);
|
||||
httplog.debug("connection setup callback end", .{});
|
||||
}
|
||||
|
||||
fn connectionShutdownCallback(connection: ?*c.aws_http_connection, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
httplog.debug("connection shutdown callback start", .{});
|
||||
httplog.debug("connection shutdown callback end", .{});
|
||||
}
|
||||
|
||||
fn incomingHeadersCallback(stream: ?*c.aws_http_stream, header_block: c.aws_http_header_block, headers: [*c]const c.aws_http_header, num_headers: usize, user_data: ?*c_void) callconv(.C) c_int {
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
|
||||
if (context.response_code == null) {
|
||||
var status: c_int = 0;
|
||||
if (c.aws_http_stream_get_incoming_response_status(stream, &status) == c.AWS_OP_SUCCESS) {
|
||||
context.response_code = @intCast(u16, status); // RFC says this is a 3 digit number, so c_int is silly
|
||||
httplog.debug("response status code from callback: {d}", .{status});
|
||||
} else {
|
||||
httplog.alert("could not get status code", .{});
|
||||
context.return_error = AwsError.StatusCodeError;
|
||||
}
|
||||
}
|
||||
for (headers[0..num_headers]) |header| {
|
||||
const name = header.name.ptr[0..header.name.len];
|
||||
const value = header.value.ptr[0..header.value.len];
|
||||
httplog.debug("header from callback: {s}: {s}", .{ name, value });
|
||||
context.addHeader(name, value) catch
|
||||
httplog.alert("could not append header to request context", .{});
|
||||
}
|
||||
return c.AWS_OP_SUCCESS;
|
||||
}
|
||||
fn incomingBodyCallback(stream: ?*c.aws_http_stream, data: [*c]const c.aws_byte_cursor, user_data: ?*c_void) callconv(.C) c_int {
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
|
||||
httplog.debug("inbound body, len {d}", .{data.*.len});
|
||||
const array = @ptrCast(*const []u8, &data.*.ptr).*;
|
||||
// Need this to be a slice because it does not necessarily have a \0 sentinal
|
||||
const body_chunk = array[0..data.*.len];
|
||||
context.appendToBody(body_chunk) catch
|
||||
httplog.alert("could not append to body!", .{});
|
||||
return c.AWS_OP_SUCCESS;
|
||||
}
|
||||
fn requestCompleteCallback(stream: ?*c.aws_http_stream, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
context.request_complete.store(true, .SeqCst);
|
||||
c.aws_http_stream_release(stream);
|
||||
httplog.debug("request complete", .{});
|
||||
}
|
||||
|
||||
// TODO: Re-encapsulate or delete this function. It is not currently
|
||||
// used and will not be touched by the compiler
|
||||
fn setupTls(self: Self, host: []const u8) !*c.aws_tls_connection_options {
|
||||
if (Aws.tls_ctx_options == null) {
|
||||
httplog.debug("Setting up tls options", .{});
|
||||
var opts: c.aws_tls_ctx_options = .{
|
||||
.allocator = c_allocator,
|
||||
.minimum_tls_version = @intToEnum(c.aws_tls_versions, c.AWS_IO_TLS_VER_SYS_DEFAULTS),
|
||||
.cipher_pref = @intToEnum(c.aws_tls_cipher_pref, c.AWS_IO_TLS_CIPHER_PREF_SYSTEM_DEFAULT),
|
||||
.ca_file = c.aws_byte_buf_from_c_str(""),
|
||||
.ca_path = c.aws_string_new_from_c_str(c_allocator, ""),
|
||||
.alpn_list = null,
|
||||
.certificate = c.aws_byte_buf_from_c_str(""),
|
||||
.private_key = c.aws_byte_buf_from_c_str(""),
|
||||
.max_fragment_size = 0,
|
||||
.verify_peer = true,
|
||||
};
|
||||
Aws.tls_ctx_options = &opts;
|
||||
|
||||
c.aws_tls_ctx_options_init_default_client(Aws.tls_ctx_options.?, c_allocator);
|
||||
// h2;http/1.1
|
||||
if (c.aws_tls_ctx_options_set_alpn_list(Aws.tls_ctx_options, "http/1.1") != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to load alpn list with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.AlpnError;
|
||||
}
|
||||
|
||||
Aws.tls_ctx = c.aws_tls_client_ctx_new(c_allocator, Aws.tls_ctx_options.?);
|
||||
|
||||
if (Aws.tls_ctx == null) {
|
||||
std.debug.panic("Failed to initialize TLS context with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
httplog.debug("tls options setup applied", .{});
|
||||
}
|
||||
|
||||
var tls_connection_options = c.aws_tls_connection_options{
|
||||
.alpn_list = null,
|
||||
.server_name = null,
|
||||
.on_negotiation_result = null,
|
||||
.on_data_read = null,
|
||||
.on_error = null,
|
||||
.user_data = null,
|
||||
.ctx = null,
|
||||
.advertise_alpn_message = false,
|
||||
.timeout_ms = 0,
|
||||
};
|
||||
c.aws_tls_connection_options_init_from_ctx(&tls_connection_options, tls_ctx);
|
||||
var host_var = host;
|
||||
var host_cur = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host_var));
|
||||
if (c.aws_tls_connection_options_set_server_name(&tls_connection_options, c_allocator, &host_cur) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to set servername with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.TlsError;
|
||||
}
|
||||
return &tls_connection_options;
|
||||
|
||||
// if (app_ctx.uri.port) {
|
||||
// port = app_ctx.uri.port;
|
||||
// }
|
||||
}
|
||||
|
||||
pub const AwsError = error{
|
||||
AddHeaderError,
|
||||
AlpnError,
|
||||
CredentialsError,
|
||||
HttpClientConnectError,
|
||||
HttpRequestError,
|
||||
SignableError,
|
||||
SigningInitiationError,
|
||||
TlsError,
|
||||
RequestCreateError,
|
||||
SetupConnectionError,
|
||||
StatusCodeError,
|
||||
SetRequestMethodError,
|
||||
SetRequestPathError,
|
||||
};
|
||||
|
||||
fn getCredentials(self: Self) !*c.aws_credentials {
|
||||
var credential_result = AwsAsyncCallbackResult(c.aws_credentials){};
|
||||
var callback_results = AsyncResult(AwsAsyncCallbackResult(c.aws_credentials)){ .result = &credential_result };
|
||||
|
||||
const callback = awsAsyncCallbackResult(c.aws_credentials, "got credentials", assignCredentialsOnCallback);
|
||||
const get_async_result =
|
||||
c.aws_credentials_provider_get_credentials(self.credentialsProvider, callback, &callback_results);
|
||||
|
||||
waitOnCallback(c.aws_credentials, &callback_results);
|
||||
if (credential_result.error_code != c.AWS_ERROR_SUCCESS) {
|
||||
httplog.alert("Could not acquire credentials: {s}:{s}", .{ c.aws_error_name(credential_result.error_code), c.aws_error_str(credential_result.error_code) });
|
||||
return AwsError.CredentialsError;
|
||||
}
|
||||
return credential_result.result orelse unreachable;
|
||||
}
|
||||
|
||||
// Generic wait on callback function
|
||||
fn waitOnCallback(comptime T: type, results: *AsyncResult(AwsAsyncCallbackResult(T))) void {
|
||||
var done = false;
|
||||
while (!done) {
|
||||
// TODO: Timeout
|
||||
// More context: https://github.com/ziglang/zig/blob/119fc318a753f57b55809e9256e823accba6b56a/lib/std/crypto/benchmark.zig#L45-L54
|
||||
// var timer = try std.time.Timer.start();
|
||||
// const start = timer.lap();
|
||||
// while (offset < bytes) : (offset += block.len) {
|
||||
// do work
|
||||
//
|
||||
// h.update(block[0..]);
|
||||
// }
|
||||
// mem.doNotOptimizeAway(&h);
|
||||
// const end = timer.read();
|
||||
//
|
||||
// const elapsed_s = @intToFloat(f64, end - start) / time.ns_per_s;
|
||||
while (results.sync.load(.SeqCst)) {
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
done = results.count >= results.requiredCount;
|
||||
// TODO: Timeout
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
}
|
||||
|
||||
// Generic function that generates a type-specific funtion for callback use
|
||||
fn awsAsyncCallback(comptime T: type, comptime message: []const u8) (fn (result: ?*T, error_code: c_int, user_data: ?*c_void) callconv(.C) void) {
|
||||
const inner = struct {
|
||||
fn func(userData: *AsyncResult(AwsAsyncCallbackResult(T)), apiData: ?*T) void {
|
||||
userData.result.result = apiData;
|
||||
}
|
||||
};
|
||||
return awsAsyncCallbackResult(T, message, inner.func);
|
||||
}
|
||||
|
||||
// used by awsAsyncCallbackResult to cast our generic userdata void *
|
||||
// into a type known to zig
|
||||
fn userDataTo(comptime T: type, userData: ?*c_void) *T {
|
||||
return @ptrCast(*T, @alignCast(@alignOf(T), userData));
|
||||
}
|
||||
|
||||
// generic callback ability. Takes a function for the actual assignment
|
||||
// If you need a standard assignment, use awsAsyncCallback instead
|
||||
fn awsAsyncCallbackResult(comptime T: type, comptime message: []const u8, comptime resultAssignment: (fn (user: *AsyncResult(AwsAsyncCallbackResult(T)), apiData: ?*T) void)) (fn (result: ?*T, error_code: c_int, user_data: ?*c_void) callconv(.C) void) {
|
||||
const inner = struct {
|
||||
fn innerfunc(result: ?*T, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
httplog.debug(message, .{});
|
||||
var asyncResult = userDataTo(AsyncResult(AwsAsyncCallbackResult(T)), user_data);
|
||||
|
||||
asyncResult.sync.store(true, .SeqCst);
|
||||
|
||||
asyncResult.count += 1;
|
||||
asyncResult.result.error_code = error_code;
|
||||
|
||||
resultAssignment(asyncResult, result);
|
||||
// asyncResult.result.result = result;
|
||||
|
||||
asyncResult.sync.store(false, .SeqCst);
|
||||
}
|
||||
};
|
||||
return inner.innerfunc;
|
||||
}
|
||||
|
||||
fn assignCredentialsOnCallback(asyncResult: *AsyncResult(AwsAsyncCallbackResult(c.aws_credentials)), credentials: ?*c.aws_credentials) void {
|
||||
if (asyncResult.result.result) |result| {
|
||||
c.aws_credentials_release(result);
|
||||
}
|
||||
|
||||
asyncResult.result.result = credentials;
|
||||
|
||||
if (credentials) |cred| {
|
||||
c.aws_credentials_acquire(cred);
|
||||
}
|
||||
}
|
||||
};
|
||||
|
||||
fn cInit(allocator: *std.mem.Allocator) void {
|
||||
// TODO: what happens if we actually get an allocator?
|
||||
log.debug("auth init", .{});
|
||||
c_allocator = c.aws_default_allocator();
|
||||
// TODO: Grab logging level from environment
|
||||
// See levels here:
|
||||
// https://github.com/awslabs/aws-c-common/blob/ce964ca459759e685547e8aa95cada50fd078eeb/include/aws/common/logging.h#L13-L19
|
||||
// We set this to FATAL mostly because we're handling errors for the most
|
||||
// part here in zig-land. We would therefore set up for something like
|
||||
// AWS_LL_WARN, but the auth library is bubbling up an AWS_LL_ERROR
|
||||
// level message about not being able to open an aws config file. This
|
||||
// could be an error, but we don't need to panic people if configuration
|
||||
// is done via environment variables
|
||||
var logger_options = c.aws_logger_standard_options{
|
||||
// .level = .AWS_LL_WARN,
|
||||
// .level = .AWS_LL_INFO,
|
||||
// .level = .AWS_LL_DEBUG,
|
||||
// .level = .AWS_LL_TRACE,
|
||||
.level = .AWS_LL_FATAL,
|
||||
.file = c.get_std_err(),
|
||||
.filename = null,
|
||||
};
|
||||
const rc = c.aws_logger_init_standard(&c_logger, c_allocator, &logger_options);
|
||||
if (rc != c.AWS_OP_SUCCESS) {
|
||||
std.debug.panic("Could not configure logging: {s}", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
|
||||
c.aws_logger_set(&c_logger);
|
||||
// auth could use http library, so we'll init http, then auth
|
||||
// TODO: determine deallocation of ca_path
|
||||
c.aws_http_library_init(c_allocator);
|
||||
c.aws_auth_library_init(c_allocator);
|
||||
}
|
||||
|
||||
fn cDeinit() void { // probably the wrong name
|
||||
if (Aws.tls_ctx) |ctx| {
|
||||
httplog.debug("tls_ctx deinit start", .{});
|
||||
c.aws_tls_ctx_release(ctx);
|
||||
httplog.debug("tls_ctx deinit end", .{});
|
||||
}
|
||||
if (Aws.tls_ctx_options) |opts| {
|
||||
// See:
|
||||
// https://github.com/awslabs/aws-c-io/blob/6c7bae503961545c5e99c6c836c4b37749cfc4ad/source/tls_channel_handler.c#L25
|
||||
//
|
||||
// The way this structure is constructed (setupTls/makeRequest), the only
|
||||
// thing we need to clean up here is the alpn_list, which is set by
|
||||
// aws_tls_ctx_options_set_alpn_list to a constant value. My guess here
|
||||
// is that memory is not allocated - the pointer is looking at the program data.
|
||||
// So the pointer is non-zero, but cannot be deallocated, and we segfault
|
||||
httplog.debug("tls_ctx_options deinit unnecessary - skipping", .{});
|
||||
// log.debug("tls_ctx_options deinit start. alpn_list: {*}", .{opts.alpn_list});
|
||||
// c.aws_string_destroy(opts.alpn_list);
|
||||
// c.aws_tls_ctx_options_clean_up(opts);
|
||||
// log.debug("tls_ctx_options deinit end", .{});
|
||||
}
|
||||
c.aws_http_library_clean_up();
|
||||
log.debug("auth clean up start", .{});
|
||||
c.aws_auth_library_clean_up();
|
||||
log.debug("auth clean up complete", .{});
|
||||
}
|
||||
|
||||
pub const Options = struct {
|
||||
region: []const u8 = "aws-global",
|
||||
dualstack: bool = false,
|
||||
};
|
||||
|
||||
pub const SigningOptions = struct {
|
||||
region: []const u8 = "aws-global",
|
||||
service: []const u8,
|
||||
};
|
||||
|
||||
const EndPoint = struct {
|
||||
uri: []const u8,
|
||||
host: []const u8,
|
||||
scheme: []const u8,
|
||||
port: u16,
|
||||
allocator: *std.mem.Allocator,
|
||||
|
||||
fn deinit(self: EndPoint) void {
|
||||
self.allocator.free(self.uri);
|
||||
}
|
||||
};
|
||||
|
||||
pub fn metadataFromResponse(allocator: *std.mem.Allocator, responseXml: []const u8) !ResponseMetadata {
|
||||
const doc = try xml.parse(allocator, responseXml);
|
||||
defer doc.deinit();
|
||||
const meta = doc.root.findChildByTag("ResponseMetadata");
|
||||
const request_id_src = meta.?.getCharData("RequestId");
|
||||
// requestIdSrc will be deallocated when deinit is called
|
||||
// so we need to copy it locally
|
||||
const request_id = if (request_id_src) |id|
|
||||
try std.mem.dupe(allocator, u8, id)
|
||||
else
|
||||
null;
|
||||
|
||||
return ResponseMetadata{
|
||||
.request_id = request_id,
|
||||
.allocator = allocator,
|
||||
};
|
||||
}
|
||||
|
||||
fn regionSubDomain(allocator: *std.mem.Allocator, service: []const u8, region: []const u8, useDualStack: bool) !EndPoint {
|
||||
const environment_override = std.os.getenv("AWS_ENDPOINT_URL");
|
||||
if (environment_override) |override| {
|
||||
const uri = try std.fmt.allocPrint(allocator, "{s}", .{override});
|
||||
return endPointFromUri(allocator, uri);
|
||||
}
|
||||
// Fallback to us-east-1 if global endpoint does not exist.
|
||||
const realregion = if (std.mem.eql(u8, region, "aws-global")) "us-east-1" else region;
|
||||
const dualstack = if (useDualStack) ".dualstack" else "";
|
||||
|
||||
const domain = switch (std.hash_map.hashString(region)) {
|
||||
US_ISO_EAST_1_HASH => "c2s.ic.gov",
|
||||
CN_NORTH_1_HASH, CN_NORTHWEST_1_HASH => "amazonaws.com.cn",
|
||||
US_ISOB_EAST_1_HASH => "sc2s.sgov.gov",
|
||||
else => "amazonaws.com",
|
||||
};
|
||||
|
||||
const uri = try std.fmt.allocPrint(allocator, "https://{s}{s}.{s}.{s}", .{ service, dualstack, realregion, domain });
|
||||
const host = uri["https://".len..];
|
||||
log.debug("host: {s}, scheme: {s}, port: {}", .{ host, "https", 443 });
|
||||
return EndPoint{
|
||||
.uri = uri,
|
||||
.host = host,
|
||||
.scheme = "https",
|
||||
.port = 443,
|
||||
.allocator = allocator,
|
||||
};
|
||||
}
|
||||
|
||||
/// creates an endpoint from a uri string.
|
||||
///
|
||||
/// allocator: Will be used only to construct the EndPoint struct
|
||||
/// uri: string constructed in such a way that deallocation is needed
|
||||
fn endPointFromUri(allocator: *std.mem.Allocator, uri: []const u8) !EndPoint {
|
||||
var scheme: []const u8 = "";
|
||||
var host: []const u8 = "";
|
||||
var port: u16 = 443;
|
||||
var host_start: usize = 0;
|
||||
var host_end: usize = 0;
|
||||
for (uri) |ch, i| {
|
||||
switch (ch) {
|
||||
':' => {
|
||||
if (!std.mem.eql(u8, scheme, "")) {
|
||||
// here to end is port - this is likely a bug if ipv6 address used
|
||||
const rest_of_uri = uri[i + 1 ..];
|
||||
port = try std.fmt.parseUnsigned(u16, rest_of_uri, 10);
|
||||
host_end = i;
|
||||
}
|
||||
},
|
||||
'/' => {
|
||||
if (host_start == 0) {
|
||||
host_start = i + 2;
|
||||
scheme = uri[0 .. i - 1];
|
||||
if (std.mem.eql(u8, scheme, "http")) {
|
||||
port = 80;
|
||||
} else {
|
||||
port = 443;
|
||||
}
|
||||
}
|
||||
},
|
||||
else => continue,
|
||||
}
|
||||
}
|
||||
if (host_end == 0) {
|
||||
host_end = uri.len;
|
||||
}
|
||||
host = uri[host_start..host_end];
|
||||
|
||||
log.debug("host: {s}, scheme: {s}, port: {}", .{ host, scheme, port });
|
||||
return EndPoint{
|
||||
.uri = uri,
|
||||
.host = host,
|
||||
.scheme = scheme,
|
||||
.allocator = allocator,
|
||||
.port = port,
|
||||
};
|
||||
}
|
||||
|
||||
const Header = struct {
|
||||
name: []const u8,
|
||||
value: []const u8,
|
||||
};
|
||||
const RequestContext = struct {
|
||||
connection: ?*c.aws_http_connection = null,
|
||||
connection_complete: std_atomic_bool.Bool = std_atomic_bool.Bool.init(false), // This is a 0.8.0 feature... :(
|
||||
request_complete: std_atomic_bool.Bool = std_atomic_bool.Bool.init(false), // This is a 0.8.0 feature... :(
|
||||
return_error: ?Aws.AwsError = null,
|
||||
allocator: *std.mem.Allocator,
|
||||
body: ?[]const u8 = null,
|
||||
response_code: ?u16 = null,
|
||||
headers: ?std.ArrayList(Header) = null,
|
||||
|
||||
const Self = @This();
|
||||
|
||||
pub fn deinit(self: Self) void {
|
||||
self.allocator.free(self.body);
|
||||
if (self.headers) |hs| {
|
||||
for (hs) |h| {
|
||||
// deallocate the copied values
|
||||
self.allocator.free(h.name);
|
||||
self.allocator.free(h.value);
|
||||
}
|
||||
// deallocate the structure itself
|
||||
h.deinit();
|
||||
}
|
||||
}
|
||||
|
||||
pub fn appendToBody(self: *Self, fragment: []const u8) !void {
|
||||
var orig_body: []const u8 = "";
|
||||
if (self.body) |b| {
|
||||
orig_body = try self.allocator.dupeZ(u8, b);
|
||||
self.allocator.free(self.body.?);
|
||||
self.body = null;
|
||||
}
|
||||
defer self.allocator.free(orig_body);
|
||||
self.body = try std.fmt.allocPrint(self.allocator, "{s}{s}", .{ orig_body, fragment });
|
||||
}
|
||||
|
||||
pub fn addHeader(self: *Self, name: []const u8, value: []const u8) !void {
|
||||
if (self.headers == null)
|
||||
self.headers = std.ArrayList(Header).init(self.allocator);
|
||||
|
||||
const name_copy = try self.allocator.dupeZ(u8, name);
|
||||
const value_copy = try self.allocator.dupeZ(u8, value);
|
||||
|
||||
try self.headers.?.append(.{
|
||||
.name = name_copy,
|
||||
.value = value_copy,
|
||||
});
|
||||
}
|
||||
};
|
||||
fn actionForRequest(comptime request: anytype) struct { service: []const u8, action: []const u8, service_obj: anytype } {
|
||||
const type_name = @typeName(@TypeOf(request));
|
||||
var service_start: usize = 0;
|
||||
|
@ -1135,8 +211,9 @@ fn ServerResponse(comptime request: anytype) type {
|
|||
const action_info = actionForRequest(request);
|
||||
const service = @field(services, action_info.service);
|
||||
const action = @field(service, action_info.action);
|
||||
// NOTE: This is weird capitalization as a performance enhancement and to reduce
|
||||
// allocations in json.zig
|
||||
// NOTE: The non-standard capitalization here is used as a performance
|
||||
// enhancement and to reduce allocations in json.zig. These fields are
|
||||
// not (nor are they ever intended to be) exposed outside this codebase
|
||||
const ResponseMetadata = struct {
|
||||
RequestId: []u8,
|
||||
};
|
||||
|
|
930
src/awshttp.zig
Normal file
930
src/awshttp.zig
Normal file
|
@ -0,0 +1,930 @@
|
|||
const std = @import("std");
|
||||
const c = @cImport({
|
||||
@cInclude("bitfield-workaround.h");
|
||||
@cInclude("aws/common/allocator.h");
|
||||
@cInclude("aws/common/error.h");
|
||||
@cInclude("aws/common/string.h");
|
||||
@cInclude("aws/auth/auth.h");
|
||||
@cInclude("aws/auth/credentials.h");
|
||||
@cInclude("aws/auth/signable.h");
|
||||
@cInclude("aws/auth/signing_config.h");
|
||||
@cInclude("aws/auth/signing_result.h");
|
||||
@cInclude("aws/auth/signing.h");
|
||||
@cInclude("aws/http/connection.h");
|
||||
@cInclude("aws/http/request_response.h");
|
||||
@cInclude("aws/io/channel_bootstrap.h");
|
||||
@cInclude("aws/io/tls_channel_handler.h");
|
||||
@cInclude("aws/io/event_loop.h");
|
||||
@cInclude("aws/io/socket.h");
|
||||
@cInclude("aws/io/stream.h");
|
||||
});
|
||||
const std_atomic_bool = @import("bool.zig"); // This is in std in 0.8.0
|
||||
|
||||
const CN_NORTH_1_HASH = std.hash_map.hashString("cn-north-1");
|
||||
const CN_NORTHWEST_1_HASH = std.hash_map.hashString("cn-northwest-1");
|
||||
const US_ISO_EAST_1_HASH = std.hash_map.hashString("us-iso-east-1");
|
||||
const US_ISOB_EAST_1_HASH = std.hash_map.hashString("us-isob-east-1");
|
||||
|
||||
const httplog = std.log.scoped(.awshttp);
|
||||
|
||||
// Variables that can be re-used globally
|
||||
var reference_count: u32 = 0;
|
||||
var c_allocator: ?*c.aws_allocator = null;
|
||||
var c_logger: c.aws_logger = .{
|
||||
.vtable = null,
|
||||
.allocator = null,
|
||||
.p_impl = null,
|
||||
};
|
||||
// tls stuff initialized on demand, then destroyed in cDeinit
|
||||
var tls_ctx_options: ?*c.aws_tls_ctx_options = null;
|
||||
var tls_ctx: ?*c.aws_tls_ctx = null;
|
||||
|
||||
pub const AwsError = error{
|
||||
AddHeaderError,
|
||||
AlpnError,
|
||||
CredentialsError,
|
||||
HttpClientConnectError,
|
||||
HttpRequestError,
|
||||
SignableError,
|
||||
SigningInitiationError,
|
||||
TlsError,
|
||||
RequestCreateError,
|
||||
SetupConnectionError,
|
||||
StatusCodeError,
|
||||
SetRequestMethodError,
|
||||
SetRequestPathError,
|
||||
};
|
||||
|
||||
pub const Options = struct {
|
||||
region: []const u8 = "aws-global",
|
||||
dualstack: bool = false,
|
||||
};
|
||||
|
||||
pub const SigningOptions = struct {
|
||||
region: []const u8 = "aws-global",
|
||||
service: []const u8,
|
||||
};
|
||||
|
||||
const HttpResult = struct {
|
||||
body: []const u8,
|
||||
pub fn deinit(self: HttpResult) void {
|
||||
httplog.debug("http result deinit complete", .{});
|
||||
return;
|
||||
}
|
||||
};
|
||||
|
||||
const Header = struct {
|
||||
name: []const u8,
|
||||
value: []const u8,
|
||||
};
|
||||
|
||||
const EndPoint = struct {
|
||||
uri: []const u8,
|
||||
host: []const u8,
|
||||
scheme: []const u8,
|
||||
port: u16,
|
||||
allocator: *std.mem.Allocator,
|
||||
|
||||
fn deinit(self: EndPoint) void {
|
||||
self.allocator.free(self.uri);
|
||||
}
|
||||
};
|
||||
|
||||
fn cInit(allocator: *std.mem.Allocator) void {
|
||||
// TODO: what happens if we actually get an allocator?
|
||||
httplog.debug("auth init", .{});
|
||||
c_allocator = c.aws_default_allocator();
|
||||
// TODO: Grab logging level from environment
|
||||
// See levels here:
|
||||
// https://github.com/awslabs/aws-c-common/blob/ce964ca459759e685547e8aa95cada50fd078eeb/include/aws/common/logging.h#L13-L19
|
||||
// We set this to FATAL mostly because we're handling errors for the most
|
||||
// part here in zig-land. We would therefore set up for something like
|
||||
// AWS_LL_WARN, but the auth library is bubbling up an AWS_LL_ERROR
|
||||
// level message about not being able to open an aws config file. This
|
||||
// could be an error, but we don't need to panic people if configuration
|
||||
// is done via environment variables
|
||||
var logger_options = c.aws_logger_standard_options{
|
||||
// .level = .AWS_LL_WARN,
|
||||
// .level = .AWS_LL_INFO,
|
||||
// .level = .AWS_LL_DEBUG,
|
||||
// .level = .AWS_LL_TRACE,
|
||||
.level = .AWS_LL_FATAL,
|
||||
.file = c.get_std_err(),
|
||||
.filename = null,
|
||||
};
|
||||
const rc = c.aws_logger_init_standard(&c_logger, c_allocator, &logger_options);
|
||||
if (rc != c.AWS_OP_SUCCESS) {
|
||||
std.debug.panic("Could not configure logging: {s}", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
|
||||
c.aws_logger_set(&c_logger);
|
||||
// auth could use http library, so we'll init http, then auth
|
||||
// TODO: determine deallocation of ca_path
|
||||
c.aws_http_library_init(c_allocator);
|
||||
c.aws_auth_library_init(c_allocator);
|
||||
}
|
||||
|
||||
fn cDeinit() void { // probably the wrong name
|
||||
if (tls_ctx) |ctx| {
|
||||
httplog.debug("tls_ctx deinit start", .{});
|
||||
c.aws_tls_ctx_release(ctx);
|
||||
httplog.debug("tls_ctx deinit end", .{});
|
||||
}
|
||||
if (tls_ctx_options) |opts| {
|
||||
// See:
|
||||
// https://github.com/awslabs/aws-c-io/blob/6c7bae503961545c5e99c6c836c4b37749cfc4ad/source/tls_channel_handler.c#L25
|
||||
//
|
||||
// The way this structure is constructed (setupTls/makeRequest), the only
|
||||
// thing we need to clean up here is the alpn_list, which is set by
|
||||
// aws_tls_ctx_options_set_alpn_list to a constant value. My guess here
|
||||
// is that memory is not allocated - the pointer is looking at the program data.
|
||||
// So the pointer is non-zero, but cannot be deallocated, and we segfault
|
||||
httplog.debug("tls_ctx_options deinit unnecessary - skipping", .{});
|
||||
// log.debug("tls_ctx_options deinit start. alpn_list: {*}", .{opts.alpn_list});
|
||||
// c.aws_string_destroy(opts.alpn_list);
|
||||
// c.aws_tls_ctx_options_clean_up(opts);
|
||||
// log.debug("tls_ctx_options deinit end", .{});
|
||||
}
|
||||
c.aws_http_library_clean_up();
|
||||
httplog.debug("auth clean up start", .{});
|
||||
c.aws_auth_library_clean_up();
|
||||
httplog.debug("auth clean up complete", .{});
|
||||
}
|
||||
|
||||
pub const AwsHttp = struct {
|
||||
allocator: *std.mem.Allocator,
|
||||
bootstrap: *c.aws_client_bootstrap,
|
||||
resolver: *c.aws_host_resolver,
|
||||
eventLoopGroup: *c.aws_event_loop_group,
|
||||
credentialsProvider: *c.aws_credentials_provider,
|
||||
|
||||
const Self = @This();
|
||||
|
||||
pub fn init(allocator: *std.mem.Allocator) Self {
|
||||
if (reference_count == 0) cInit(allocator);
|
||||
reference_count += 1;
|
||||
httplog.debug("auth ref count: {}", .{reference_count});
|
||||
// TODO; determine appropriate lifetime for the bootstrap and credentials'
|
||||
// provider
|
||||
// Mostly stolen from aws_c_auth/credentials_tests.c
|
||||
const el_group = c.aws_event_loop_group_new_default(c_allocator, 1, null);
|
||||
|
||||
var resolver_options = c.aws_host_resolver_default_options{
|
||||
.el_group = el_group,
|
||||
.max_entries = 8,
|
||||
.shutdown_options = null, // not set in test
|
||||
.system_clock_override_fn = null, // not set in test
|
||||
};
|
||||
|
||||
const resolver = c.aws_host_resolver_new_default(c_allocator, &resolver_options);
|
||||
|
||||
const bootstrap_options = c.aws_client_bootstrap_options{
|
||||
.host_resolver = resolver,
|
||||
.on_shutdown_complete = null, // was set in test
|
||||
.host_resolution_config = null,
|
||||
.user_data = null,
|
||||
.event_loop_group = el_group,
|
||||
};
|
||||
|
||||
const bootstrap = c.aws_client_bootstrap_new(c_allocator, &bootstrap_options);
|
||||
const provider_chain_options = c.aws_credentials_provider_chain_default_options{
|
||||
.bootstrap = bootstrap,
|
||||
.shutdown_options = c.aws_credentials_provider_shutdown_options{
|
||||
.shutdown_callback = null, // was set on test
|
||||
.shutdown_user_data = null,
|
||||
},
|
||||
};
|
||||
return .{
|
||||
.allocator = allocator,
|
||||
.bootstrap = bootstrap,
|
||||
.resolver = resolver,
|
||||
.eventLoopGroup = el_group,
|
||||
.credentialsProvider = c.aws_credentials_provider_new_chain_default(c_allocator, &provider_chain_options),
|
||||
};
|
||||
}
|
||||
|
||||
pub fn deinit(self: *AwsHttp) void {
|
||||
if (reference_count > 0)
|
||||
reference_count -= 1;
|
||||
httplog.debug("deinit: auth ref count: {}", .{reference_count});
|
||||
c.aws_credentials_provider_release(self.credentialsProvider);
|
||||
// TODO: Wait for provider shutdown? https://github.com/awslabs/aws-c-auth/blob/c394e30808816a8edaab712e77f79f480c911d3a/tests/credentials_tests.c#L197
|
||||
c.aws_client_bootstrap_release(self.bootstrap);
|
||||
c.aws_host_resolver_release(self.resolver);
|
||||
c.aws_event_loop_group_release(self.eventLoopGroup);
|
||||
if (reference_count == 0) {
|
||||
cDeinit();
|
||||
httplog.debug("Deinit complete", .{});
|
||||
}
|
||||
}
|
||||
|
||||
pub fn callApi(self: Self, service: []const u8, version: []const u8, action: []const u8, options: Options) !HttpResult {
|
||||
const endpoint = try regionSubDomain(self.allocator, service, options.region, options.dualstack);
|
||||
defer endpoint.deinit();
|
||||
const body = try std.fmt.allocPrint(self.allocator, "Action={s}&Version={s}\n", .{ action, version });
|
||||
defer self.allocator.free(body);
|
||||
httplog.debug("Calling {s}.{s}, endpoint {s}", .{ service, action, endpoint.uri });
|
||||
const signing_options: SigningOptions = .{
|
||||
.region = options.region,
|
||||
.service = service,
|
||||
};
|
||||
return try self.makeRequest(endpoint, "POST", "/", body, signing_options);
|
||||
}
|
||||
|
||||
fn signRequest(self: Self, http_request: *c.aws_http_message, options: SigningOptions) !void {
|
||||
const creds = try self.getCredentials();
|
||||
defer c.aws_credentials_release(creds);
|
||||
// print the access key. Creds are an opaque C type, so we
|
||||
// use aws_credentials_get_access_key_id. That gets us an aws_byte_cursor,
|
||||
// from which we create a new aws_string with the contents. We need
|
||||
// to convert to c_str with aws_string_c_str
|
||||
const access_key = c.aws_string_new_from_cursor(c_allocator, &c.aws_credentials_get_access_key_id(creds));
|
||||
defer c.aws_mem_release(c_allocator, access_key);
|
||||
// defer c_allocator.*.mem_release.?(c_allocator, access_key);
|
||||
httplog.debug("Signing with access key: {s}", .{c.aws_string_c_str(access_key)});
|
||||
|
||||
const signable = c.aws_signable_new_http_request(c_allocator, http_request);
|
||||
if (signable == null) {
|
||||
httplog.warn("Could not create signable request", .{});
|
||||
return AwsError.SignableError;
|
||||
}
|
||||
defer c.aws_signable_destroy(signable);
|
||||
|
||||
const signing_region = try std.fmt.allocPrint(self.allocator, "{s}", .{options.region});
|
||||
defer self.allocator.free(signing_region);
|
||||
const signing_service = try std.fmt.allocPrint(self.allocator, "{s}", .{options.service});
|
||||
defer self.allocator.free(signing_service);
|
||||
const temp_signing_config = c.bitfield_workaround_aws_signing_config_aws{
|
||||
.algorithm = .AWS_SIGNING_ALGORITHM_V4,
|
||||
.config_type = .AWS_SIGNING_CONFIG_AWS,
|
||||
.signature_type = .AWS_ST_HTTP_REQUEST_HEADERS,
|
||||
.region = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, signing_region)),
|
||||
.service = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, signing_service)),
|
||||
.should_sign_header = null,
|
||||
.should_sign_header_ud = null,
|
||||
.flags = c.bitfield_workaround_aws_signing_config_aws_flags{
|
||||
.use_double_uri_encode = 0,
|
||||
.should_normalize_uri_path = 0,
|
||||
.omit_session_token = 1,
|
||||
},
|
||||
.signed_body_value = c.aws_byte_cursor_from_c_str(""),
|
||||
.signed_body_header = .AWS_SBHT_X_AMZ_CONTENT_SHA256, //or AWS_SBHT_NONE
|
||||
.credentials = creds,
|
||||
.credentials_provider = self.credentialsProvider,
|
||||
.expiration_in_seconds = 0,
|
||||
};
|
||||
var signing_config = c.new_aws_signing_config(c_allocator, &temp_signing_config);
|
||||
defer c.aws_mem_release(c_allocator, signing_config);
|
||||
var signing_result = AwsAsyncCallbackResult(c.aws_http_message){ .result = http_request };
|
||||
var sign_result_request = AsyncResult(AwsAsyncCallbackResult(c.aws_http_message)){ .result = &signing_result };
|
||||
if (c.aws_sign_request_aws(c_allocator, signable, fullCast([*c]const c.aws_signing_config_base, signing_config), signComplete, &sign_result_request) != c.AWS_OP_SUCCESS) {
|
||||
const error_code = c.aws_last_error();
|
||||
httplog.alert("Could not initiate signing request: {s}:{s}", .{ c.aws_error_name(error_code), c.aws_error_str(error_code) });
|
||||
return AwsError.SigningInitiationError;
|
||||
}
|
||||
|
||||
// Wait for callback. Note that execution, including real work of signing
|
||||
// the http request, will continue in signComplete (below),
|
||||
// then continue beyond this line
|
||||
waitOnCallback(c.aws_http_message, &sign_result_request);
|
||||
if (sign_result_request.result.error_code != c.AWS_ERROR_SUCCESS) {
|
||||
return AwsError.SignableError;
|
||||
}
|
||||
}
|
||||
|
||||
/// It's my theory that the aws event loop has a trigger to corrupt the
|
||||
/// signing result after this call completes. So the technique of assigning
|
||||
/// now, using later will not work
|
||||
fn signComplete(result: ?*c.aws_signing_result, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
var async_result = userDataTo(AsyncResult(AwsAsyncCallbackResult(c.aws_http_message)), user_data);
|
||||
var http_request = async_result.result.result;
|
||||
async_result.sync.store(true, .SeqCst);
|
||||
|
||||
async_result.count += 1;
|
||||
async_result.result.error_code = error_code;
|
||||
|
||||
if (result) |res| {
|
||||
if (c.aws_apply_signing_result_to_http_request(http_request, c_allocator, result) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Could not apply signing request to http request: {s}", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
httplog.debug("signing result applied", .{});
|
||||
} else {
|
||||
httplog.alert("Did not receive signing result: {s}", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
async_result.sync.store(false, .SeqCst);
|
||||
}
|
||||
|
||||
pub fn makeRequest(self: Self, endpoint: EndPoint, method: []const u8, path: []const u8, body: []const u8, signing_options: ?SigningOptions) !HttpResult {
|
||||
// TODO: Try to re-encapsulate this
|
||||
// var http_request = try createRequest(method, path, body);
|
||||
|
||||
// TODO: Likely this should be encapsulated more
|
||||
var http_request = c.aws_http_message_new_request(c_allocator);
|
||||
defer c.aws_http_message_release(http_request);
|
||||
// TODO: Verify if AWS cares about these headers (probably should be passing them...)
|
||||
// Accept-Encoding: identity
|
||||
// Content-Type: application/x-www-form-urlencoded
|
||||
|
||||
if (c.aws_http_message_set_request_method(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, method))) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.SetRequestMethodError;
|
||||
|
||||
if (c.aws_http_message_set_request_path(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, path))) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.SetRequestPathError;
|
||||
|
||||
httplog.debug("body length: {d}", .{body.len});
|
||||
const body_cursor = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, body));
|
||||
const request_body = c.aws_input_stream_new_from_cursor(c_allocator, &body_cursor);
|
||||
defer c.aws_input_stream_destroy(request_body);
|
||||
if (body.len > 0) {
|
||||
c.aws_http_message_set_body_stream(http_request, request_body);
|
||||
}
|
||||
|
||||
// End CreateRequest. This should return a struct with a deinit function that can do
|
||||
// destroys, etc
|
||||
|
||||
var context = RequestContext{
|
||||
.allocator = self.allocator,
|
||||
};
|
||||
var tls_connection_options: ?*c.aws_tls_connection_options = null;
|
||||
const host = try std.fmt.allocPrint(self.allocator, "{s}", .{endpoint.host});
|
||||
defer self.allocator.free(host);
|
||||
try self.addHeaders(http_request.?, host, body);
|
||||
if (std.mem.eql(u8, endpoint.scheme, "https")) {
|
||||
// TODO: Figure out why this needs to be inline vs function call
|
||||
// tls_connection_options = try self.setupTls(host);
|
||||
if (tls_ctx_options == null) {
|
||||
httplog.debug("Setting up tls options", .{});
|
||||
var opts: c.aws_tls_ctx_options = .{
|
||||
.allocator = c_allocator,
|
||||
.minimum_tls_version = @intToEnum(c.aws_tls_versions, c.AWS_IO_TLS_VER_SYS_DEFAULTS),
|
||||
.cipher_pref = @intToEnum(c.aws_tls_cipher_pref, c.AWS_IO_TLS_CIPHER_PREF_SYSTEM_DEFAULT),
|
||||
.ca_file = c.aws_byte_buf_from_c_str(""),
|
||||
.ca_path = c.aws_string_new_from_c_str(c_allocator, ""),
|
||||
.alpn_list = null,
|
||||
.certificate = c.aws_byte_buf_from_c_str(""),
|
||||
.private_key = c.aws_byte_buf_from_c_str(""),
|
||||
.max_fragment_size = 0,
|
||||
.verify_peer = true,
|
||||
};
|
||||
tls_ctx_options = &opts;
|
||||
|
||||
c.aws_tls_ctx_options_init_default_client(tls_ctx_options.?, c_allocator);
|
||||
// h2;http/1.1
|
||||
if (c.aws_tls_ctx_options_set_alpn_list(tls_ctx_options, "http/1.1") != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to load alpn list with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.AlpnError;
|
||||
}
|
||||
|
||||
tls_ctx = c.aws_tls_client_ctx_new(c_allocator, tls_ctx_options.?);
|
||||
|
||||
if (tls_ctx == null) {
|
||||
std.debug.panic("Failed to initialize TLS context with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
httplog.debug("tls options setup applied", .{});
|
||||
}
|
||||
var conn_opts = c.aws_tls_connection_options{
|
||||
.alpn_list = null,
|
||||
.server_name = null,
|
||||
.on_negotiation_result = null,
|
||||
.on_data_read = null,
|
||||
.on_error = null,
|
||||
.user_data = null,
|
||||
.ctx = null,
|
||||
.advertise_alpn_message = false,
|
||||
.timeout_ms = 0,
|
||||
};
|
||||
tls_connection_options = &conn_opts;
|
||||
c.aws_tls_connection_options_init_from_ctx(tls_connection_options, tls_ctx);
|
||||
var host_var = host;
|
||||
var host_cur = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host_var));
|
||||
if (c.aws_tls_connection_options_set_server_name(tls_connection_options, c_allocator, &host_cur) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to set servername with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.TlsError;
|
||||
}
|
||||
}
|
||||
if (signing_options) |opts| try self.signRequest(http_request.?, opts);
|
||||
const socket_options = c.aws_socket_options{
|
||||
.type = @intToEnum(c.aws_socket_type, c.AWS_SOCKET_STREAM),
|
||||
.domain = @intToEnum(c.aws_socket_domain, c.AWS_SOCKET_IPV4),
|
||||
.connect_timeout_ms = 3000, // TODO: change hardcoded 3s value
|
||||
.keep_alive_timeout_sec = 0,
|
||||
.keepalive = false,
|
||||
.keep_alive_interval_sec = 0,
|
||||
// If set, sets the number of keep alive probes allowed to fail before the connection is considered
|
||||
// lost. If zero OS defaults are used. On Windows, this option is meaningless until Windows 10 1703.
|
||||
.keep_alive_max_failed_probes = 0,
|
||||
};
|
||||
const http_client_options = c.aws_http_client_connection_options{
|
||||
.self_size = @sizeOf(c.aws_http_client_connection_options),
|
||||
.socket_options = &socket_options,
|
||||
.allocator = c_allocator,
|
||||
.port = endpoint.port,
|
||||
.host_name = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host)),
|
||||
.bootstrap = self.bootstrap,
|
||||
.initial_window_size = c.SIZE_MAX,
|
||||
.tls_options = tls_connection_options,
|
||||
.user_data = &context,
|
||||
.proxy_options = null,
|
||||
.monitoring_options = null,
|
||||
.http1_options = null,
|
||||
.http2_options = null,
|
||||
.manual_window_management = false,
|
||||
.on_setup = connectionSetupCallback,
|
||||
.on_shutdown = connectionShutdownCallback,
|
||||
};
|
||||
if (c.aws_http_client_connect(&http_client_options) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("HTTP client connect failed with {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.HttpClientConnectError;
|
||||
}
|
||||
// TODO: Timeout
|
||||
// Wait for connection to setup
|
||||
while (!context.connection_complete.load(.SeqCst)) {
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
if (context.return_error) |e| return e;
|
||||
|
||||
const request_options = c.aws_http_make_request_options{
|
||||
.self_size = @sizeOf(c.aws_http_make_request_options),
|
||||
.on_response_headers = incomingHeadersCallback,
|
||||
.on_response_header_block_done = null,
|
||||
.on_response_body = incomingBodyCallback,
|
||||
.on_complete = requestCompleteCallback,
|
||||
.user_data = @ptrCast(*c_void, &context),
|
||||
.request = http_request,
|
||||
};
|
||||
|
||||
// C code
|
||||
// app_ctx->response_code_written = false;
|
||||
const stream = c.aws_http_connection_make_request(context.connection, &request_options);
|
||||
if (stream == null) {
|
||||
httplog.alert("failed to create request.", .{});
|
||||
return AwsError.RequestCreateError;
|
||||
}
|
||||
if (c.aws_http_stream_activate(stream) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("HTTP request failed with {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.HttpRequestError;
|
||||
}
|
||||
// TODO: Timeout
|
||||
while (!context.request_complete.load(.SeqCst)) {
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
httplog.debug("request_complete. Response code {d}", .{context.response_code.?});
|
||||
httplog.debug("headers:", .{});
|
||||
for (context.headers.?.items) |h| {
|
||||
httplog.debug(" {s}: {s}", .{ h.name, h.value });
|
||||
}
|
||||
httplog.debug("raw response body:\n{s}", .{context.body});
|
||||
// Connection will stay alive until stream completes
|
||||
c.aws_http_connection_release(context.connection);
|
||||
context.connection = null;
|
||||
if (tls_connection_options) |opts| {
|
||||
c.aws_tls_connection_options_clean_up(opts);
|
||||
}
|
||||
var final_body: []const u8 = "";
|
||||
if (context.body) |b| {
|
||||
final_body = b;
|
||||
}
|
||||
const rc = HttpResult{
|
||||
.body = final_body,
|
||||
};
|
||||
return rc;
|
||||
}
|
||||
|
||||
// TODO: Re-encapsulate or delete this function. It is not currently
|
||||
// used and will not be touched by the compiler
|
||||
fn createRequest(method: []const u8, path: []const u8, body: []const u8) !*c.aws_http_message {
|
||||
// TODO: Likely this should be encapsulated more
|
||||
var http_request = c.aws_http_message_new_request(c_allocator);
|
||||
// TODO: Verify if AWS cares about these headers (probably should be passing them...)
|
||||
// Accept-Encoding: identity
|
||||
// Content-Type: application/x-www-form-urlencoded
|
||||
|
||||
if (c.aws_http_message_set_request_method(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, method))) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.SetRequestMethodError;
|
||||
|
||||
if (c.aws_http_message_set_request_path(http_request, c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, path))) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.SetRequestPathError;
|
||||
|
||||
const body_cursor = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, body));
|
||||
const request_body = c.aws_input_stream_new_from_cursor(c_allocator, &body_cursor);
|
||||
defer c.aws_input_stream_destroy(request_body);
|
||||
c.aws_http_message_set_body_stream(http_request, request_body);
|
||||
return http_request.?;
|
||||
}
|
||||
fn addHeaders(self: Self, request: *c.aws_http_message, host: []const u8, body: []const u8) !void {
|
||||
const accept_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Accept"),
|
||||
.value = c.aws_byte_cursor_from_c_str("application/json"),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, accept_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
const host_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Host"),
|
||||
.value = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host)),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, host_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
const user_agent_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("User-Agent"),
|
||||
.value = c.aws_byte_cursor_from_c_str("zig-aws 1.0, Powered by the AWS Common Runtime."),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, user_agent_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
// AWS does not seem to care about Accept-Encoding
|
||||
// Accept-Encoding: identity
|
||||
// Content-Type: application/x-www-form-urlencoded
|
||||
// const accept_encoding_header = c.aws_http_header{
|
||||
// .name = c.aws_byte_cursor_from_c_str("Accept-Encoding"),
|
||||
// .value = c.aws_byte_cursor_from_c_str("identity"),
|
||||
// .compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
// };
|
||||
// if (c.aws_http_message_add_header(request, accept_encoding_header) != c.AWS_OP_SUCCESS)
|
||||
// return AwsError.AddHeaderError;
|
||||
|
||||
// AWS *does* seem to care about Content-Type. I don't think this header
|
||||
// will hold for all APIs
|
||||
// TODO: Work out Content-type
|
||||
const content_type_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Content-Type"),
|
||||
.value = c.aws_byte_cursor_from_c_str("application/x-www-form-urlencoded"),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, content_type_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
|
||||
if (body.len > 0) {
|
||||
const len = try std.fmt.allocPrint(self.allocator, "{d}", .{body.len});
|
||||
// This defer seems to work ok, but I'm a bit concerned about why
|
||||
defer self.allocator.free(len);
|
||||
const content_length_header = c.aws_http_header{
|
||||
.name = c.aws_byte_cursor_from_c_str("Content-Length"),
|
||||
.value = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, len)),
|
||||
.compression = .AWS_HTTP_HEADER_COMPRESSION_USE_CACHE,
|
||||
};
|
||||
if (c.aws_http_message_add_header(request, content_length_header) != c.AWS_OP_SUCCESS)
|
||||
return AwsError.AddHeaderError;
|
||||
}
|
||||
}
|
||||
|
||||
fn connectionSetupCallback(connection: ?*c.aws_http_connection, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
httplog.debug("connection setup callback start", .{});
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
if (error_code != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to setup connection: {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
context.return_error = AwsError.SetupConnectionError;
|
||||
}
|
||||
context.connection = connection;
|
||||
context.connection_complete.store(true, .SeqCst);
|
||||
httplog.debug("connection setup callback end", .{});
|
||||
}
|
||||
|
||||
fn connectionShutdownCallback(connection: ?*c.aws_http_connection, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
httplog.debug("connection shutdown callback start", .{});
|
||||
httplog.debug("connection shutdown callback end", .{});
|
||||
}
|
||||
|
||||
fn incomingHeadersCallback(stream: ?*c.aws_http_stream, header_block: c.aws_http_header_block, headers: [*c]const c.aws_http_header, num_headers: usize, user_data: ?*c_void) callconv(.C) c_int {
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
|
||||
if (context.response_code == null) {
|
||||
var status: c_int = 0;
|
||||
if (c.aws_http_stream_get_incoming_response_status(stream, &status) == c.AWS_OP_SUCCESS) {
|
||||
context.response_code = @intCast(u16, status); // RFC says this is a 3 digit number, so c_int is silly
|
||||
httplog.debug("response status code from callback: {d}", .{status});
|
||||
} else {
|
||||
httplog.alert("could not get status code", .{});
|
||||
context.return_error = AwsError.StatusCodeError;
|
||||
}
|
||||
}
|
||||
for (headers[0..num_headers]) |header| {
|
||||
const name = header.name.ptr[0..header.name.len];
|
||||
const value = header.value.ptr[0..header.value.len];
|
||||
httplog.debug("header from callback: {s}: {s}", .{ name, value });
|
||||
context.addHeader(name, value) catch
|
||||
httplog.alert("could not append header to request context", .{});
|
||||
}
|
||||
return c.AWS_OP_SUCCESS;
|
||||
}
|
||||
fn incomingBodyCallback(stream: ?*c.aws_http_stream, data: [*c]const c.aws_byte_cursor, user_data: ?*c_void) callconv(.C) c_int {
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
|
||||
httplog.debug("inbound body, len {d}", .{data.*.len});
|
||||
const array = @ptrCast(*const []u8, &data.*.ptr).*;
|
||||
// Need this to be a slice because it does not necessarily have a \0 sentinal
|
||||
const body_chunk = array[0..data.*.len];
|
||||
context.appendToBody(body_chunk) catch
|
||||
httplog.alert("could not append to body!", .{});
|
||||
return c.AWS_OP_SUCCESS;
|
||||
}
|
||||
fn requestCompleteCallback(stream: ?*c.aws_http_stream, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
var context = userDataTo(RequestContext, user_data);
|
||||
context.request_complete.store(true, .SeqCst);
|
||||
c.aws_http_stream_release(stream);
|
||||
httplog.debug("request complete", .{});
|
||||
}
|
||||
|
||||
// TODO: Re-encapsulate or delete this function. It is not currently
|
||||
// used and will not be touched by the compiler
|
||||
fn setupTls(self: Self, host: []const u8) !*c.aws_tls_connection_options {
|
||||
if (tls_ctx_options == null) {
|
||||
httplog.debug("Setting up tls options", .{});
|
||||
var opts: c.aws_tls_ctx_options = .{
|
||||
.allocator = c_allocator,
|
||||
.minimum_tls_version = @intToEnum(c.aws_tls_versions, c.AWS_IO_TLS_VER_SYS_DEFAULTS),
|
||||
.cipher_pref = @intToEnum(c.aws_tls_cipher_pref, c.AWS_IO_TLS_CIPHER_PREF_SYSTEM_DEFAULT),
|
||||
.ca_file = c.aws_byte_buf_from_c_str(""),
|
||||
.ca_path = c.aws_string_new_from_c_str(c_allocator, ""),
|
||||
.alpn_list = null,
|
||||
.certificate = c.aws_byte_buf_from_c_str(""),
|
||||
.private_key = c.aws_byte_buf_from_c_str(""),
|
||||
.max_fragment_size = 0,
|
||||
.verify_peer = true,
|
||||
};
|
||||
tls_ctx_options = &opts;
|
||||
|
||||
c.aws_tls_ctx_options_init_default_client(tls_ctx_options.?, c_allocator);
|
||||
// h2;http/1.1
|
||||
if (c.aws_tls_ctx_options_set_alpn_list(tls_ctx_options, "http/1.1") != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to load alpn list with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.AlpnError;
|
||||
}
|
||||
|
||||
tls_ctx = c.aws_tls_client_ctx_new(c_allocator, tls_ctx_options.?);
|
||||
|
||||
if (tls_ctx == null) {
|
||||
std.debug.panic("Failed to initialize TLS context with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
}
|
||||
httplog.debug("tls options setup applied", .{});
|
||||
}
|
||||
|
||||
var tls_connection_options = c.aws_tls_connection_options{
|
||||
.alpn_list = null,
|
||||
.server_name = null,
|
||||
.on_negotiation_result = null,
|
||||
.on_data_read = null,
|
||||
.on_error = null,
|
||||
.user_data = null,
|
||||
.ctx = null,
|
||||
.advertise_alpn_message = false,
|
||||
.timeout_ms = 0,
|
||||
};
|
||||
c.aws_tls_connection_options_init_from_ctx(&tls_connection_options, tls_ctx);
|
||||
var host_var = host;
|
||||
var host_cur = c.aws_byte_cursor_from_c_str(@ptrCast([*c]const u8, host_var));
|
||||
if (c.aws_tls_connection_options_set_server_name(&tls_connection_options, c_allocator, &host_cur) != c.AWS_OP_SUCCESS) {
|
||||
httplog.alert("Failed to set servername with error {s}.", .{c.aws_error_debug_str(c.aws_last_error())});
|
||||
return AwsError.TlsError;
|
||||
}
|
||||
return &tls_connection_options;
|
||||
|
||||
// if (app_ctx.uri.port) {
|
||||
// port = app_ctx.uri.port;
|
||||
// }
|
||||
}
|
||||
|
||||
fn getCredentials(self: Self) !*c.aws_credentials {
|
||||
var credential_result = AwsAsyncCallbackResult(c.aws_credentials){};
|
||||
var callback_results = AsyncResult(AwsAsyncCallbackResult(c.aws_credentials)){ .result = &credential_result };
|
||||
|
||||
const callback = awsAsyncCallbackResult(c.aws_credentials, "got credentials", assignCredentialsOnCallback);
|
||||
const get_async_result =
|
||||
c.aws_credentials_provider_get_credentials(self.credentialsProvider, callback, &callback_results);
|
||||
|
||||
waitOnCallback(c.aws_credentials, &callback_results);
|
||||
if (credential_result.error_code != c.AWS_ERROR_SUCCESS) {
|
||||
httplog.alert("Could not acquire credentials: {s}:{s}", .{ c.aws_error_name(credential_result.error_code), c.aws_error_str(credential_result.error_code) });
|
||||
return AwsError.CredentialsError;
|
||||
}
|
||||
return credential_result.result orelse unreachable;
|
||||
}
|
||||
|
||||
// Generic wait on callback function
|
||||
fn waitOnCallback(comptime T: type, results: *AsyncResult(AwsAsyncCallbackResult(T))) void {
|
||||
var done = false;
|
||||
while (!done) {
|
||||
// TODO: Timeout
|
||||
// More context: https://github.com/ziglang/zig/blob/119fc318a753f57b55809e9256e823accba6b56a/lib/std/crypto/benchmark.zig#L45-L54
|
||||
// var timer = try std.time.Timer.start();
|
||||
// const start = timer.lap();
|
||||
// while (offset < bytes) : (offset += block.len) {
|
||||
// do work
|
||||
//
|
||||
// h.update(block[0..]);
|
||||
// }
|
||||
// mem.doNotOptimizeAway(&h);
|
||||
// const end = timer.read();
|
||||
//
|
||||
// const elapsed_s = @intToFloat(f64, end - start) / time.ns_per_s;
|
||||
while (results.sync.load(.SeqCst)) {
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
done = results.count >= results.requiredCount;
|
||||
// TODO: Timeout
|
||||
std.time.sleep(1 * std.time.ns_per_ms);
|
||||
}
|
||||
}
|
||||
|
||||
// Generic function that generates a type-specific funtion for callback use
|
||||
fn awsAsyncCallback(comptime T: type, comptime message: []const u8) (fn (result: ?*T, error_code: c_int, user_data: ?*c_void) callconv(.C) void) {
|
||||
const inner = struct {
|
||||
fn func(userData: *AsyncResult(AwsAsyncCallbackResult(T)), apiData: ?*T) void {
|
||||
userData.result.result = apiData;
|
||||
}
|
||||
};
|
||||
return awsAsyncCallbackResult(T, message, inner.func);
|
||||
}
|
||||
|
||||
// used by awsAsyncCallbackResult to cast our generic userdata void *
|
||||
// into a type known to zig
|
||||
fn userDataTo(comptime T: type, userData: ?*c_void) *T {
|
||||
return @ptrCast(*T, @alignCast(@alignOf(T), userData));
|
||||
}
|
||||
|
||||
// generic callback ability. Takes a function for the actual assignment
|
||||
// If you need a standard assignment, use awsAsyncCallback instead
|
||||
fn awsAsyncCallbackResult(comptime T: type, comptime message: []const u8, comptime resultAssignment: (fn (user: *AsyncResult(AwsAsyncCallbackResult(T)), apiData: ?*T) void)) (fn (result: ?*T, error_code: c_int, user_data: ?*c_void) callconv(.C) void) {
|
||||
const inner = struct {
|
||||
fn innerfunc(result: ?*T, error_code: c_int, user_data: ?*c_void) callconv(.C) void {
|
||||
httplog.debug(message, .{});
|
||||
var asyncResult = userDataTo(AsyncResult(AwsAsyncCallbackResult(T)), user_data);
|
||||
|
||||
asyncResult.sync.store(true, .SeqCst);
|
||||
|
||||
asyncResult.count += 1;
|
||||
asyncResult.result.error_code = error_code;
|
||||
|
||||
resultAssignment(asyncResult, result);
|
||||
// asyncResult.result.result = result;
|
||||
|
||||
asyncResult.sync.store(false, .SeqCst);
|
||||
}
|
||||
};
|
||||
return inner.innerfunc;
|
||||
}
|
||||
|
||||
fn assignCredentialsOnCallback(asyncResult: *AsyncResult(AwsAsyncCallbackResult(c.aws_credentials)), credentials: ?*c.aws_credentials) void {
|
||||
if (asyncResult.result.result) |result| {
|
||||
c.aws_credentials_release(result);
|
||||
}
|
||||
|
||||
asyncResult.result.result = credentials;
|
||||
|
||||
if (credentials) |cred| {
|
||||
c.aws_credentials_acquire(cred);
|
||||
}
|
||||
}
|
||||
};
|
||||
|
||||
fn AsyncResult(comptime T: type) type {
|
||||
return struct {
|
||||
result: *T,
|
||||
requiredCount: u32 = 1,
|
||||
sync: std_atomic_bool.Bool = std_atomic_bool.Bool.init(false), // This is a 0.8.0 feature... :(
|
||||
count: u8 = 0,
|
||||
};
|
||||
}
|
||||
|
||||
fn AwsAsyncCallbackResult(comptime T: type) type {
|
||||
return struct {
|
||||
result: ?*T = null,
|
||||
error_code: i32 = c.AWS_ERROR_SUCCESS,
|
||||
};
|
||||
}
|
||||
|
||||
fn fullCast(comptime T: type, val: anytype) T {
|
||||
return @ptrCast(T, @alignCast(@alignOf(T), val));
|
||||
}
|
||||
|
||||
fn regionSubDomain(allocator: *std.mem.Allocator, service: []const u8, region: []const u8, useDualStack: bool) !EndPoint {
|
||||
const environment_override = std.os.getenv("AWS_ENDPOINT_URL");
|
||||
if (environment_override) |override| {
|
||||
const uri = try std.fmt.allocPrint(allocator, "{s}", .{override});
|
||||
return endPointFromUri(allocator, uri);
|
||||
}
|
||||
// Fallback to us-east-1 if global endpoint does not exist.
|
||||
const realregion = if (std.mem.eql(u8, region, "aws-global")) "us-east-1" else region;
|
||||
const dualstack = if (useDualStack) ".dualstack" else "";
|
||||
|
||||
const domain = switch (std.hash_map.hashString(region)) {
|
||||
US_ISO_EAST_1_HASH => "c2s.ic.gov",
|
||||
CN_NORTH_1_HASH, CN_NORTHWEST_1_HASH => "amazonaws.com.cn",
|
||||
US_ISOB_EAST_1_HASH => "sc2s.sgov.gov",
|
||||
else => "amazonaws.com",
|
||||
};
|
||||
|
||||
const uri = try std.fmt.allocPrint(allocator, "https://{s}{s}.{s}.{s}", .{ service, dualstack, realregion, domain });
|
||||
const host = uri["https://".len..];
|
||||
httplog.debug("host: {s}, scheme: {s}, port: {}", .{ host, "https", 443 });
|
||||
return EndPoint{
|
||||
.uri = uri,
|
||||
.host = host,
|
||||
.scheme = "https",
|
||||
.port = 443,
|
||||
.allocator = allocator,
|
||||
};
|
||||
}
|
||||
|
||||
/// creates an endpoint from a uri string.
|
||||
///
|
||||
/// allocator: Will be used only to construct the EndPoint struct
|
||||
/// uri: string constructed in such a way that deallocation is needed
|
||||
fn endPointFromUri(allocator: *std.mem.Allocator, uri: []const u8) !EndPoint {
|
||||
var scheme: []const u8 = "";
|
||||
var host: []const u8 = "";
|
||||
var port: u16 = 443;
|
||||
var host_start: usize = 0;
|
||||
var host_end: usize = 0;
|
||||
for (uri) |ch, i| {
|
||||
switch (ch) {
|
||||
':' => {
|
||||
if (!std.mem.eql(u8, scheme, "")) {
|
||||
// here to end is port - this is likely a bug if ipv6 address used
|
||||
const rest_of_uri = uri[i + 1 ..];
|
||||
port = try std.fmt.parseUnsigned(u16, rest_of_uri, 10);
|
||||
host_end = i;
|
||||
}
|
||||
},
|
||||
'/' => {
|
||||
if (host_start == 0) {
|
||||
host_start = i + 2;
|
||||
scheme = uri[0 .. i - 1];
|
||||
if (std.mem.eql(u8, scheme, "http")) {
|
||||
port = 80;
|
||||
} else {
|
||||
port = 443;
|
||||
}
|
||||
}
|
||||
},
|
||||
else => continue,
|
||||
}
|
||||
}
|
||||
if (host_end == 0) {
|
||||
host_end = uri.len;
|
||||
}
|
||||
host = uri[host_start..host_end];
|
||||
|
||||
httplog.debug("host: {s}, scheme: {s}, port: {}", .{ host, scheme, port });
|
||||
return EndPoint{
|
||||
.uri = uri,
|
||||
.host = host,
|
||||
.scheme = scheme,
|
||||
.allocator = allocator,
|
||||
.port = port,
|
||||
};
|
||||
}
|
||||
|
||||
const RequestContext = struct {
|
||||
connection: ?*c.aws_http_connection = null,
|
||||
connection_complete: std_atomic_bool.Bool = std_atomic_bool.Bool.init(false), // This is a 0.8.0 feature... :(
|
||||
request_complete: std_atomic_bool.Bool = std_atomic_bool.Bool.init(false), // This is a 0.8.0 feature... :(
|
||||
return_error: ?AwsError = null,
|
||||
allocator: *std.mem.Allocator,
|
||||
body: ?[]const u8 = null,
|
||||
response_code: ?u16 = null,
|
||||
headers: ?std.ArrayList(Header) = null,
|
||||
|
||||
const Self = @This();
|
||||
|
||||
pub fn deinit(self: Self) void {
|
||||
self.allocator.free(self.body);
|
||||
if (self.headers) |hs| {
|
||||
for (hs) |h| {
|
||||
// deallocate the copied values
|
||||
self.allocator.free(h.name);
|
||||
self.allocator.free(h.value);
|
||||
}
|
||||
// deallocate the structure itself
|
||||
h.deinit();
|
||||
}
|
||||
}
|
||||
|
||||
pub fn appendToBody(self: *Self, fragment: []const u8) !void {
|
||||
var orig_body: []const u8 = "";
|
||||
if (self.body) |b| {
|
||||
orig_body = try self.allocator.dupeZ(u8, b);
|
||||
self.allocator.free(self.body.?);
|
||||
self.body = null;
|
||||
}
|
||||
defer self.allocator.free(orig_body);
|
||||
self.body = try std.fmt.allocPrint(self.allocator, "{s}{s}", .{ orig_body, fragment });
|
||||
}
|
||||
|
||||
pub fn addHeader(self: *Self, name: []const u8, value: []const u8) !void {
|
||||
if (self.headers == null)
|
||||
self.headers = std.ArrayList(Header).init(self.allocator);
|
||||
|
||||
const name_copy = try self.allocator.dupeZ(u8, name);
|
||||
const value_copy = try self.allocator.dupeZ(u8, value);
|
||||
|
||||
try self.headers.?.append(.{
|
||||
.name = name_copy,
|
||||
.value = value_copy,
|
||||
});
|
||||
}
|
||||
};
|
Loading…
Reference in New Issue
Block a user