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--- Libc/Libc-1669.0.4/tests/thread_stack_pcs.c
+++ /dev/null
@@ -1,105 +0,0 @@
-#include <darwintest.h>
-#include <thread_stack_pcs.h>
-#include <fake_swift_async.h>
-#include <pthread/private.h>
-#include <stdint.h>
-
-static void *test_function_ret_addr;
-
-__attribute__((noinline))
-static void test_no_async() {
- vm_address_t* callstack[16], asyncstack[16];
- unsigned frames1, frames2, i;
- int ret1 = thread_stack_pcs(callstack, 16, &frames1);
- int ret2 = thread_stack_async_pcs(asyncstack, 16, &frames2);
-
- T_EXPECT_EQ(ret1, 0 , "thread_stack_pcs finds no extended frame");
- T_EXPECT_EQ(ret2, 0 , "thread_stack_async_pcs finds no extended frame");
- T_EXPECT_EQ(frames1, frames2 ,
- "thread_stack_async_pcs and thread_stack_pcs return same amount of frames");
- // Start at frame 2 as frame 0 is thread_{stack,async}_pcs and
- // frame 1 is this frame which has 2 different call sites for those 2
- // functions.
- for (i = 2; i<frames1; ++i) {
- T_EXPECT_EQ(callstack[i], asyncstack[i],
- "thread_stack_async_pcs and thread_stack_pcs return same frames");
- }
-}
-
-__attribute__((noinline))
-static void test(void *unused __attribute__((unused)), bool async) {
- vm_address_t* callstack[16];
-
- if (async) {
- unsigned frames;
- int ret = thread_stack_async_pcs(callstack, 16, &frames);
- T_EXPECT_EQ(ret, FAKE_TASK_ID, "thread_stack_async_pcs detects an async frame");
-
- // The 5 frames we expect are
- // 0 thread_stack_async_pcs
- // 1 test
- // 2 fake_async_frame
- // 3 level2_func
- // 4 level1_func
- T_EXPECT_EQ(frames, 5, "Got the right number of async frames");
- T_EXPECT_EQ(callstack[2], __builtin_return_address(0), "Found fake_async_frame");
- T_EXPECT_EQ(callstack[3], ptrauth_strip(&level2_func, ptrauth_key_function_pointer) + 1, "Found level2_func");
- T_EXPECT_EQ(callstack[4], ptrauth_strip(&level1_func, ptrauth_key_function_pointer) + 1, "Found level1_func");
- } else {
- unsigned frames;
- int ret = thread_stack_pcs(callstack, 16, &frames);
- T_EXPECT_EQ(ret, 1, "thread_stack_pcs detects an async frame");
- // The 5 frames we expect are
- // 0 thread_stack_pcs
- // 1 test
- // 2 fake_async_frame
- // 3 <Test function>
- // ... Potential test runner frames
- T_EXPECT_GE(frames, 4, "Got the right number of stack frames");
- T_EXPECT_EQ(callstack[2], __builtin_return_address(0), "Found fake_async_frame");
- T_EXPECT_EQ(callstack[3], test_function_ret_addr, "Found test runner");
- }
-}
-
-
-__attribute__((noinline))
-static void fake_async_frame(bool async) {
- test_function_ret_addr = __builtin_return_address(0);
- uint64_t *fp = __builtin_frame_address(0);
- // We cannot use a variable of pointer type, because this ABI is valid
- // on arm64_32 where pointers are 32bits, but the context pointer will
- // still be stored in a 64bits slot on the stack.
- /* struct fake_async_context * */ uint64_t ctx = (uintptr_t)&level2;
-
- // The Swift runtime stashes the current async task address in its 3rd
- // private TSD slot.
- _pthread_setspecific_direct(__PTK_FRAMEWORK_SWIFT_KEY3, &task);
-
-#if __LP64__ || __ARM64_ARCH_8_32__
- // The signature of an async frame on the OS stack is:
- // [ <AsyncContext address>, <Saved FP | (1<<60)>, <return address> ]
- // The Async context must be right before the saved FP on the stack. This
- // should happen naturraly in an optimized build as it is the only
- // variable on the stack.
- // This function cannot use T_ASSERT_* beacuse it changes the stack
- // layout.
- assert((uintptr_t)fp - (uintptr_t)&ctx == 8);
-
- // Modify the saved FP on the stack to include the async frame marker
- *fp |= (0x1ll << 60);
- test(&ctx, async);
- *fp ^= (0x1ll << 60);
-#endif
- test_no_async();
-}
-
-T_DECL(thread_stack_pcs, "tests thread_stack_pcs in the presence of an async frame")
-{
- fake_async_frame(false);
-}
-
-T_DECL(thread_stack_async_pcs, "tests thread_stack_async_pcs")
-{
- fake_async_frame(true);
-}
-