Text file src/runtime/cgo/gcc_signal_ios_arm64.c

     1  // Copyright 2015 The Go Authors. All rights reserved.
     2  // Use of this source code is governed by a BSD-style
     3  // license that can be found in the LICENSE file.
     4  
     5  // Emulation of the Unix signal SIGSEGV.
     6  //
     7  // On iOS, Go tests and apps under development are run by lldb.
     8  // The debugger uses a task-level exception handler to intercept signals.
     9  // Despite having a 'handle' mechanism like gdb, lldb will not allow a
    10  // SIGSEGV to pass to the running program. For Go, this means we cannot
    11  // generate a panic, which cannot be recovered, and so tests fail.
    12  //
    13  // We work around this by registering a thread-level mach exception handler
    14  // and intercepting EXC_BAD_ACCESS. The kernel offers thread handlers a
    15  // chance to resolve exceptions before the task handler, so we can generate
    16  // the panic and avoid lldb's SIGSEGV handler.
    17  //
    18  // The dist tool enables this by build flag when testing.
    19  
    20  // +build lldb
    21  
    22  #include <limits.h>
    23  #include <pthread.h>
    24  #include <stdio.h>
    25  #include <signal.h>
    26  #include <stdlib.h>
    27  #include <unistd.h>
    28  
    29  #include <mach/arm/thread_status.h>
    30  #include <mach/exception_types.h>
    31  #include <mach/mach.h>
    32  #include <mach/mach_init.h>
    33  #include <mach/mach_port.h>
    34  #include <mach/thread_act.h>
    35  #include <mach/thread_status.h>
    36  
    37  #include "libcgo.h"
    38  #include "libcgo_unix.h"
    39  
    40  void xx_cgo_panicmem(void);
    41  uintptr_t x_cgo_panicmem = (uintptr_t)xx_cgo_panicmem;
    42  
    43  static pthread_mutex_t mach_exception_handler_port_set_mu;
    44  static mach_port_t mach_exception_handler_port_set = MACH_PORT_NULL;
    45  
    46  kern_return_t
    47  catch_exception_raise(
    48  	mach_port_t exception_port,
    49  	mach_port_t thread,
    50  	mach_port_t task,
    51  	exception_type_t exception,
    52  	exception_data_t code_vector,
    53  	mach_msg_type_number_t code_count)
    54  {
    55  	kern_return_t ret;
    56  	arm_unified_thread_state_t thread_state;
    57  	mach_msg_type_number_t state_count = ARM_UNIFIED_THREAD_STATE_COUNT;
    58  
    59  	// Returning KERN_SUCCESS intercepts the exception.
    60  	//
    61  	// Returning KERN_FAILURE lets the exception fall through to the
    62  	// next handler, which is the standard signal emulation code
    63  	// registered on the task port.
    64  
    65  	if (exception != EXC_BAD_ACCESS) {
    66  		return KERN_FAILURE;
    67  	}
    68  
    69  	ret = thread_get_state(thread, ARM_UNIFIED_THREAD_STATE, (thread_state_t)&thread_state, &state_count);
    70  	if (ret) {
    71  		fprintf(stderr, "runtime/cgo: thread_get_state failed: %d\n", ret);
    72  		abort();
    73  	}
    74  
    75  	// Bounce call to sigpanic through asm that makes it look like
    76  	// we call sigpanic directly from the faulting code.
    77  #ifdef __arm64__
    78  	thread_state.ts_64.__x[1] = thread_state.ts_64.__lr;
    79  	thread_state.ts_64.__x[2] = thread_state.ts_64.__pc;
    80  	thread_state.ts_64.__pc = x_cgo_panicmem;
    81  #else
    82  	thread_state.ts_32.__r[1] = thread_state.ts_32.__lr;
    83  	thread_state.ts_32.__r[2] = thread_state.ts_32.__pc;
    84  	thread_state.ts_32.__pc = x_cgo_panicmem;
    85  #endif
    86  
    87  	if (0) {
    88  		// Useful debugging logic when panicmem is broken.
    89  		//
    90  		// Sends the first SIGSEGV and lets lldb catch the
    91  		// second one, avoiding a loop that locks up iOS
    92  		// devices requiring a hard reboot.
    93  		fprintf(stderr, "runtime/cgo: caught exc_bad_access\n");
    94  		fprintf(stderr, "__lr = %llx\n", thread_state.ts_64.__lr);
    95  		fprintf(stderr, "__pc = %llx\n", thread_state.ts_64.__pc);
    96  		static int pass1 = 0;
    97  		if (pass1) {
    98  			return KERN_FAILURE;
    99  		}
   100  		pass1 = 1;
   101  	}
   102  
   103  	ret = thread_set_state(thread, ARM_UNIFIED_THREAD_STATE, (thread_state_t)&thread_state, state_count);
   104  	if (ret) {
   105  		fprintf(stderr, "runtime/cgo: thread_set_state failed: %d\n", ret);
   106  		abort();
   107  	}
   108  
   109  	return KERN_SUCCESS;
   110  }
   111  
   112  void
   113  darwin_arm_init_thread_exception_port()
   114  {
   115  	// Called by each new OS thread to bind its EXC_BAD_ACCESS exception
   116  	// to mach_exception_handler_port_set.
   117  	int ret;
   118  	mach_port_t port = MACH_PORT_NULL;
   119  
   120  	ret = mach_port_allocate(mach_task_self(), MACH_PORT_RIGHT_RECEIVE, &port);
   121  	if (ret) {
   122  		fprintf(stderr, "runtime/cgo: mach_port_allocate failed: %d\n", ret);
   123  		abort();
   124  	}
   125  	ret = mach_port_insert_right(
   126  		mach_task_self(),
   127  		port,
   128  		port,
   129  		MACH_MSG_TYPE_MAKE_SEND);
   130  	if (ret) {
   131  		fprintf(stderr, "runtime/cgo: mach_port_insert_right failed: %d\n", ret);
   132  		abort();
   133  	}
   134  
   135  	ret = thread_set_exception_ports(
   136  		mach_thread_self(),
   137  		EXC_MASK_BAD_ACCESS,
   138  		port,
   139  		EXCEPTION_DEFAULT,
   140  		THREAD_STATE_NONE);
   141  	if (ret) {
   142  		fprintf(stderr, "runtime/cgo: thread_set_exception_ports failed: %d\n", ret);
   143  		abort();
   144  	}
   145  
   146  	ret = pthread_mutex_lock(&mach_exception_handler_port_set_mu);
   147  	if (ret) {
   148  		fprintf(stderr, "runtime/cgo: pthread_mutex_lock failed: %d\n", ret);
   149  		abort();
   150  	}
   151  	ret = mach_port_move_member(
   152  		mach_task_self(),
   153  		port,
   154  		mach_exception_handler_port_set);
   155  	if (ret) {
   156  		fprintf(stderr, "runtime/cgo: mach_port_move_member failed: %d\n", ret);
   157  		abort();
   158  	}
   159  	ret = pthread_mutex_unlock(&mach_exception_handler_port_set_mu);
   160  	if (ret) {
   161  		fprintf(stderr, "runtime/cgo: pthread_mutex_unlock failed: %d\n", ret);
   162  		abort();
   163  	}
   164  }
   165  
   166  static void*
   167  mach_exception_handler(void *port)
   168  {
   169  	// Calls catch_exception_raise.
   170  	extern boolean_t exc_server();
   171  	mach_msg_server(exc_server, 2048, (mach_port_t)port, 0);
   172  	abort(); // never returns
   173  }
   174  
   175  void
   176  darwin_arm_init_mach_exception_handler()
   177  {
   178  	pthread_mutex_init(&mach_exception_handler_port_set_mu, NULL);
   179  
   180  	// Called once per process to initialize a mach port server, listening
   181  	// for EXC_BAD_ACCESS thread exceptions.
   182  	int ret;
   183  	pthread_t thr = NULL;
   184  	pthread_attr_t attr;
   185  	sigset_t ign, oset;
   186  
   187  	ret = mach_port_allocate(
   188  		mach_task_self(),
   189  		MACH_PORT_RIGHT_PORT_SET,
   190  		&mach_exception_handler_port_set);
   191  	if (ret) {
   192  		fprintf(stderr, "runtime/cgo: mach_port_allocate failed for port_set: %d\n", ret);
   193  		abort();
   194  	}
   195  
   196  	// Block all signals to the exception handler thread
   197  	sigfillset(&ign);
   198  	pthread_sigmask(SIG_SETMASK, &ign, &oset);
   199  
   200  	// Start a thread to handle exceptions.
   201  	uintptr_t port_set = (uintptr_t)mach_exception_handler_port_set;
   202  	pthread_attr_init(&attr);
   203  	pthread_attr_setdetachstate(&attr, PTHREAD_CREATE_DETACHED);
   204  	ret = _cgo_try_pthread_create(&thr, &attr, mach_exception_handler, (void*)port_set);
   205  
   206  	pthread_sigmask(SIG_SETMASK, &oset, nil);
   207  
   208  	if (ret) {
   209  		fprintf(stderr, "runtime/cgo: pthread_create failed: %d\n", ret);
   210  		abort();
   211  	}
   212  	pthread_attr_destroy(&attr);
   213  }
   214  

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