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https://github.com/denoland/deno.git
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b8a537d020
A new low-level crate with focus on speed. This doesn't yet hook into the existing code base.
329 lines
12 KiB
C++
329 lines
12 KiB
C++
// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
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#include "test.h"
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TEST(LibDenoTest, InitializesCorrectly) {
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EXPECT_NE(snapshot.data_ptr, nullptr);
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "1 + 2");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, Snapshotter) {
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Deno* d1 = deno_new(deno_config{1, empty, empty, nullptr});
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deno_execute(d1, nullptr, "a.js", "a = 1 + 2");
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EXPECT_EQ(nullptr, deno_last_exception(d1));
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deno_buf test_snapshot = deno_get_snapshot(d1);
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deno_delete(d1);
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Deno* d2 = deno_new(deno_config{0, test_snapshot, empty, nullptr});
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deno_execute(d2, nullptr, "b.js", "if (a != 3) throw Error('x');");
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EXPECT_EQ(nullptr, deno_last_exception(d2));
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deno_delete(d2);
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delete[] test_snapshot.data_ptr;
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}
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TEST(LibDenoTest, CanCallFunction) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_lock(d);
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deno_execute(d, nullptr, "a.js",
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"if (CanCallFunction() != 'foo') throw Error();");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_unlock(d);
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deno_delete(d);
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}
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TEST(LibDenoTest, ErrorsCorrectly) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "throw Error()");
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EXPECT_NE(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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deno_buf strbuf(const char* str) {
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auto len = strlen(str);
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deno_buf buf;
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buf.alloc_ptr = reinterpret_cast<uint8_t*>(strdup(str));
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buf.alloc_len = len + 1;
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buf.data_ptr = buf.alloc_ptr;
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buf.data_len = len;
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buf.zero_copy_id = 0;
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return buf;
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}
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// Same as strbuf but with null alloc_ptr.
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deno_buf StrBufNullAllocPtr(const char* str) {
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auto len = strlen(str);
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deno_buf buf;
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buf.alloc_ptr = nullptr;
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buf.alloc_len = 0;
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buf.data_ptr = reinterpret_cast<uint8_t*>(strdup(str));
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buf.data_len = len;
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return buf;
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}
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void assert_null(deno_buf b) {
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EXPECT_EQ(b.alloc_ptr, nullptr);
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EXPECT_EQ(b.alloc_len, 0u);
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EXPECT_EQ(b.data_ptr, nullptr);
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EXPECT_EQ(b.data_len, 0u);
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}
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TEST(LibDenoTest, RecvReturnEmpty) {
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static int count = 0;
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auto recv_cb = [](auto _, auto buf, auto zero_copy_buf) {
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assert_null(zero_copy_buf);
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count++;
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EXPECT_EQ(static_cast<size_t>(3), buf.data_len);
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EXPECT_EQ(buf.data_ptr[0], 'a');
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EXPECT_EQ(buf.data_ptr[1], 'b');
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EXPECT_EQ(buf.data_ptr[2], 'c');
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};
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Deno* d = deno_new(deno_config{0, snapshot, empty, recv_cb});
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deno_execute(d, nullptr, "a.js", "RecvReturnEmpty()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(count, 2);
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deno_delete(d);
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}
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TEST(LibDenoTest, RecvReturnBar) {
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static int count = 0;
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auto recv_cb = [](auto user_data, auto buf, auto zero_copy_buf) {
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auto d = reinterpret_cast<Deno*>(user_data);
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assert_null(zero_copy_buf);
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count++;
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EXPECT_EQ(static_cast<size_t>(3), buf.data_len);
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EXPECT_EQ(buf.data_ptr[0], 'a');
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EXPECT_EQ(buf.data_ptr[1], 'b');
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EXPECT_EQ(buf.data_ptr[2], 'c');
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EXPECT_EQ(zero_copy_buf.zero_copy_id, 0u);
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EXPECT_EQ(zero_copy_buf.data_ptr, nullptr);
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deno_respond(d, user_data, strbuf("bar"));
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};
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Deno* d = deno_new(deno_config{0, snapshot, empty, recv_cb});
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deno_execute(d, d, "a.js", "RecvReturnBar()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(count, 1);
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deno_delete(d);
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}
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TEST(LibDenoTest, DoubleRecvFails) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "DoubleRecvFails()");
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EXPECT_NE(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, SendRecvSlice) {
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static int count = 0;
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auto recv_cb = [](auto user_data, auto buf, auto zero_copy_buf) {
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auto d = reinterpret_cast<Deno*>(user_data);
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assert_null(zero_copy_buf);
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static const size_t alloc_len = 1024;
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size_t i = count++;
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// Check the size and offset of the slice.
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size_t data_offset = buf.data_ptr - buf.alloc_ptr;
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EXPECT_EQ(data_offset, i * 11);
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EXPECT_EQ(buf.data_len, alloc_len - i * 30);
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EXPECT_EQ(buf.alloc_len, alloc_len);
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// Check values written by the JS side.
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EXPECT_EQ(buf.data_ptr[0], 100 + i);
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EXPECT_EQ(buf.data_ptr[buf.data_len - 1], 100 - i);
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// Make copy of the backing buffer -- this is currently necessary
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// because deno_respond() takes ownership over the buffer, but we are
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// not given ownership of `buf` by our caller.
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uint8_t* alloc_ptr = reinterpret_cast<uint8_t*>(malloc(alloc_len));
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memcpy(alloc_ptr, buf.alloc_ptr, alloc_len);
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// Make a slice that is a bit shorter than the original.
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deno_buf buf2{alloc_ptr, alloc_len, alloc_ptr + data_offset,
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buf.data_len - 19, 0};
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// Place some values into the buffer for the JS side to verify.
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buf2.data_ptr[0] = 200 + i;
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buf2.data_ptr[buf2.data_len - 1] = 200 - i;
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// Send back.
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deno_respond(d, user_data, buf2);
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};
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Deno* d = deno_new(deno_config{0, snapshot, empty, recv_cb});
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deno_execute(d, d, "a.js", "SendRecvSlice()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(count, 5);
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deno_delete(d);
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}
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TEST(LibDenoTest, JSSendArrayBufferViewTypes) {
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static int count = 0;
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auto recv_cb = [](auto _, auto buf, auto zero_copy_buf) {
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assert_null(zero_copy_buf);
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count++;
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size_t data_offset = buf.data_ptr - buf.alloc_ptr;
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EXPECT_EQ(data_offset, 2468u);
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EXPECT_EQ(buf.data_len, 1000u);
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EXPECT_EQ(buf.alloc_len, 4321u);
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EXPECT_EQ(buf.data_ptr[0], count);
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};
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Deno* d = deno_new(deno_config{0, snapshot, empty, recv_cb});
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deno_execute(d, nullptr, "a.js", "JSSendArrayBufferViewTypes()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(count, 3);
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deno_delete(d);
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}
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TEST(LibDenoTest, TypedArraySnapshots) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "TypedArraySnapshots()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, SnapshotBug) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "SnapshotBug()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, GlobalErrorHandling) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "GlobalErrorHandling()");
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std::string expected =
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"{\"message\":\"Uncaught ReferenceError: notdefined is not defined\","
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"\"sourceLine\":\" "
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"notdefined()\",\"scriptResourceName\":\"helloworld.js\","
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"\"lineNumber\":3,\"startPosition\":3,\"endPosition\":4,\"errorLevel\":8,"
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"\"startColumn\":1,\"endColumn\":2,\"isSharedCrossOrigin\":false,"
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"\"isOpaque\":false,\"frames\":[{\"line\":3,\"column\":2,"
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"\"functionName\":\"\",\"scriptName\":\"helloworld.js\",\"isEval\":true,"
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"\"isConstructor\":false,\"isWasm\":false},";
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std::string actual(deno_last_exception(d), 0, expected.length());
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EXPECT_STREQ(expected.c_str(), actual.c_str());
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deno_delete(d);
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}
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TEST(LibDenoTest, ZeroCopyBuf) {
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static int count = 0;
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static deno_buf zero_copy_buf2;
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auto recv_cb = [](auto user_data, deno_buf buf, deno_buf zero_copy_buf) {
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count++;
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EXPECT_GT(zero_copy_buf.zero_copy_id, 0u);
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zero_copy_buf.data_ptr[0] = 4;
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zero_copy_buf.data_ptr[1] = 2;
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zero_copy_buf2 = zero_copy_buf;
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EXPECT_EQ(2u, buf.data_len);
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EXPECT_EQ(2u, zero_copy_buf.data_len);
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EXPECT_EQ(buf.data_ptr[0], 1);
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EXPECT_EQ(buf.data_ptr[1], 2);
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// Note zero_copy_buf won't actually be freed here because in
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// libdeno_test.js zeroCopyBuf is a rooted global. We just want to exercise
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// the API here.
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auto d = reinterpret_cast<Deno*>(user_data);
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deno_zero_copy_release(d, zero_copy_buf.zero_copy_id);
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};
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Deno* d = deno_new(deno_config{0, snapshot, empty, recv_cb});
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deno_execute(d, d, "a.js", "ZeroCopyBuf()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(count, 1);
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// zero_copy_buf was subsequently changed in JS, let's check that our copy
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// reflects that.
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EXPECT_EQ(zero_copy_buf2.data_ptr[0], 9);
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EXPECT_EQ(zero_copy_buf2.data_ptr[1], 8);
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deno_delete(d);
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}
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TEST(LibDenoTest, CheckPromiseErrors) {
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static int count = 0;
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auto recv_cb = [](auto _, auto buf, auto zero_copy_buf) { count++; };
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Deno* d = deno_new(deno_config{0, snapshot, empty, recv_cb});
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EXPECT_EQ(deno_last_exception(d), nullptr);
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deno_execute(d, nullptr, "a.js", "CheckPromiseErrors()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(deno_last_exception(d), nullptr);
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EXPECT_EQ(count, 1);
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// We caught the exception. So still no errors after calling
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// deno_check_promise_errors().
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deno_check_promise_errors(d);
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EXPECT_EQ(deno_last_exception(d), nullptr);
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deno_delete(d);
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}
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TEST(LibDenoTest, LastException) {
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Deno* d = deno_new(deno_config{0, empty, empty, nullptr});
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EXPECT_EQ(deno_last_exception(d), nullptr);
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deno_execute(d, nullptr, "a.js", "\n\nthrow Error('boo');\n\n");
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EXPECT_STREQ(deno_last_exception(d),
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"{\"message\":\"Uncaught Error: boo\",\"sourceLine\":\"throw "
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"Error('boo');\",\"scriptResourceName\":\"a.js\",\"lineNumber\":"
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"3,\"startPosition\":8,\"endPosition\":9,\"errorLevel\":8,"
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"\"startColumn\":6,\"endColumn\":7,\"isSharedCrossOrigin\":"
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"false,\"isOpaque\":false,\"frames\":[{\"line\":3,\"column\":7,"
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"\"functionName\":\"\",\"scriptName\":\"a.js\",\"isEval\":false,"
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"\"isConstructor\":false,\"isWasm\":false}]}");
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deno_delete(d);
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}
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TEST(LibDenoTest, EncodeErrorBug) {
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Deno* d = deno_new(deno_config{0, empty, empty, nullptr});
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EXPECT_EQ(deno_last_exception(d), nullptr);
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deno_execute(d, nullptr, "a.js", "eval('a')");
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EXPECT_STREQ(
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deno_last_exception(d),
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"{\"message\":\"Uncaught ReferenceError: a is not "
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"defined\",\"sourceLine\":\"a\",\"lineNumber\":1,\"startPosition\":0,"
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"\"endPosition\":1,\"errorLevel\":8,\"startColumn\":0,\"endColumn\":1,"
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"\"isSharedCrossOrigin\":false,\"isOpaque\":false,\"frames\":[{\"line\":"
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"1,\"column\":1,\"functionName\":\"\",\"scriptName\":\"<unknown>\","
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"\"isEval\":true,\"isConstructor\":false,\"isWasm\":false},{\"line\":1,"
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"\"column\":1,\"functionName\":\"\",\"scriptName\":\"a.js\",\"isEval\":"
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"false,\"isConstructor\":false,\"isWasm\":false}]}");
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deno_delete(d);
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}
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TEST(LibDenoTest, Shared) {
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uint8_t s[] = {0, 1, 2};
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deno_buf shared = {nullptr, 0, s, 3, 0};
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Deno* d = deno_new(deno_config{0, snapshot, shared, nullptr});
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deno_execute(d, nullptr, "a.js", "Shared()");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(s[0], 42);
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EXPECT_EQ(s[1], 43);
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EXPECT_EQ(s[2], 44);
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deno_delete(d);
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}
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TEST(LibDenoTest, Utf8Bug) {
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Deno* d = deno_new(deno_config{0, empty, empty, nullptr});
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// The following is a valid UTF-8 javascript which just defines a string
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// literal. We had a bug where libdeno would choke on this.
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deno_execute(d, nullptr, "a.js", "x = \"\xEF\xBF\xBD\"");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, LibDenoEvalContext) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "LibDenoEvalContext();");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, LibDenoEvalContextError) {
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Deno* d = deno_new(deno_config{0, snapshot, empty, nullptr});
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deno_execute(d, nullptr, "a.js", "LibDenoEvalContextError();");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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deno_delete(d);
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}
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TEST(LibDenoTest, SharedAtomics) {
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int32_t s[] = {0, 1, 2};
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deno_buf shared = {nullptr, 0, reinterpret_cast<uint8_t*>(s), sizeof s, 0};
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Deno* d = deno_new(deno_config{0, empty, shared, nullptr});
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deno_execute(d, nullptr, "a.js",
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"Atomics.add(new Int32Array(libdeno.shared), 0, 1)");
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EXPECT_EQ(nullptr, deno_last_exception(d));
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EXPECT_EQ(s[0], 1);
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EXPECT_EQ(s[1], 1);
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EXPECT_EQ(s[2], 2);
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deno_delete(d);
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}
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