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factor/vm/mach_signal.cpp

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// Fault handler information. MacOSX version.
// Copyright (C) 1993-1999, 2002-2003 Bruno Haible <clisp.org at bruno>
// Copyright (C) 2003 Paolo Bonzini <gnu.org at bonzini>
// Used under BSD license with permission from Paolo Bonzini and Bruno Haible,
// 2005-03-10:
// http://sourceforge.net/mailarchive/message.php?msg_name=200503102200.32002.bruno%40clisp.org
// Modified for Factor by Slava Pestov
#include "master.hpp"
namespace factor {
// The exception port on which our thread listens.
mach_port_t our_exception_port;
// The following sources were used as a *reference* for this exception handling
// code:
// 1. Apple's mach/xnu documentation
// 2. Timothy J. Wood's "Mach Exception Handlers 101" post to the
// omnigroup's macosx-dev list.
// http://www.wodeveloper.com/omniLists/macosx-dev/2000/June/msg00137.html
// Modify a suspended thread's thread_state so that when the thread resumes
// executing, the call frame of the current C primitive (if any) is rewound, and
// the appropriate Factor error is thrown from the top-most Factor frame.
void factor_vm::call_fault_handler(exception_type_t exception,
exception_data_type_t code,
MACH_EXC_STATE_TYPE* exc_state,
MACH_THREAD_STATE_TYPE* thread_state,
MACH_FLOAT_STATE_TYPE* float_state) {
cell handler = 0;
if (exception == EXC_BAD_ACCESS) {
set_memory_protection_error(MACH_EXC_STATE_FAULT(exc_state),
(cell)MACH_PROGRAM_COUNTER(thread_state));
handler = (cell)factor::memory_signal_handler_impl;
} else if (exception == EXC_ARITHMETIC && code != MACH_EXC_INTEGER_DIV) {
signal_fpu_status = fpu_status(mach_fpu_status(float_state));
mach_clear_fpu_status(float_state);
handler = (cell)factor::fp_signal_handler_impl;
} else {
switch (exception) {
case EXC_ARITHMETIC:
signal_number = SIGFPE;
break;
case EXC_BAD_INSTRUCTION:
signal_number = SIGILL;
break;
default:
signal_number = SIGABRT;
break;
}
handler = (cell)factor::synchronous_signal_handler_impl;
}
FACTOR_ASSERT(handler != 0);
dispatch_signal_handler((cell*)&MACH_STACK_POINTER(thread_state),
(cell*)&MACH_PROGRAM_COUNTER(thread_state),
(cell)handler);
}
static void call_fault_handler(mach_port_t thread, exception_type_t exception,
exception_data_type_t code,
MACH_EXC_STATE_TYPE* exc_state,
MACH_THREAD_STATE_TYPE* thread_state,
MACH_FLOAT_STATE_TYPE* float_state) {
// Look up the VM instance involved
THREADHANDLE thread_id = pthread_from_mach_thread_np(thread);
FACTOR_ASSERT(thread_id);
std::map<THREADHANDLE, factor_vm*>::const_iterator vm =
thread_vms.find(thread_id);
// Handle the exception
if (vm != thread_vms.end())
vm->second->call_fault_handler(exception, code, exc_state, thread_state,
float_state);
}
// Handle an exception by invoking the user's fault handler and/or forwarding
// the duty to the previously installed handlers.
extern "C" kern_return_t catch_exception_raise(
mach_port_t exception_port, mach_port_t thread, mach_port_t task,
exception_type_t exception, exception_data_t code,
mach_msg_type_number_t code_count) {
// 10.6 likes to report exceptions from child processes too. Ignore those
if (task != mach_task_self())
return KERN_FAILURE;
// Get fault information and the faulting thread's register contents..
// See http://web.mit.edu/darwin/src/modules/xnu/osfmk/man/thread_get_state.html.
MACH_EXC_STATE_TYPE exc_state;
mach_msg_type_number_t exc_state_count = MACH_EXC_STATE_COUNT;
if (thread_get_state(thread, MACH_EXC_STATE_FLAVOR, (natural_t*)&exc_state,
&exc_state_count) !=
KERN_SUCCESS) {
// The thread is supposed to be suspended while the exception
// handler is called. This shouldn't fail.
return KERN_FAILURE;
}
MACH_THREAD_STATE_TYPE thread_state;
mach_msg_type_number_t thread_state_count = MACH_THREAD_STATE_COUNT;
if (thread_get_state(thread, MACH_THREAD_STATE_FLAVOR,
(natural_t*)&thread_state, &thread_state_count) !=
KERN_SUCCESS) {
// The thread is supposed to be suspended while the exception
// handler is called. This shouldn't fail.
return KERN_FAILURE;
}
MACH_FLOAT_STATE_TYPE float_state;
mach_msg_type_number_t float_state_count = MACH_FLOAT_STATE_COUNT;
if (thread_get_state(thread, MACH_FLOAT_STATE_FLAVOR,
(natural_t*)&float_state, &float_state_count) !=
KERN_SUCCESS) {
// The thread is supposed to be suspended while the exception
// handler is called. This shouldn't fail.
return KERN_FAILURE;
}
// Modify registers so to have the thread resume executing the
// fault handler
call_fault_handler(thread, exception, code[0], &exc_state, &thread_state,
&float_state);
// Set the faulting thread's register contents..
// See http://web.mit.edu/darwin/src/modules/xnu/osfmk/man/thread_set_state.html.
if (thread_set_state(thread, MACH_FLOAT_STATE_FLAVOR,
(natural_t*)&float_state, float_state_count) !=
KERN_SUCCESS) {
return KERN_FAILURE;
}
if (thread_set_state(thread, MACH_THREAD_STATE_FLAVOR,
(natural_t*)&thread_state, thread_state_count) !=
KERN_SUCCESS) {
return KERN_FAILURE;
}
return KERN_SUCCESS;
}
// The main function of the thread listening for exceptions.
static void* mach_exception_thread(void* arg) {
for (;;) {
// These two structures contain some private kernel data. We don't need
// to access any of it so we don't bother defining a proper struct. The
// correct definitions are in the xnu source code.
// Buffer for a message to be received.
struct {
mach_msg_header_t head;
mach_msg_body_t msgh_body;
char data[1024];
} msg;
// Buffer for a reply message.
struct {
mach_msg_header_t head;
char data[1024];
} reply;
mach_msg_return_t retval;
// Wait for a message on the exception port.
retval =
mach_msg(&msg.head, MACH_RCV_MSG | MACH_RCV_LARGE, 0, sizeof(msg),
our_exception_port, MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL);
if (retval != MACH_MSG_SUCCESS) {
abort();
}
// Handle the message: Call exc_server, which will call
// catch_exception_raise and produce a reply message.
exc_server(&msg.head, &reply.head);
// Send the reply.
if (mach_msg(&reply.head, MACH_SEND_MSG, reply.head.msgh_size, 0,
MACH_PORT_NULL, MACH_MSG_TIMEOUT_NONE, MACH_PORT_NULL) !=
MACH_MSG_SUCCESS) {
abort();
}
}
return NULL; // quiet warning
}
// Initialize the Mach exception handler thread.
void mach_initialize() {
mach_port_t self;
exception_mask_t mask;
self = mach_task_self();
// Allocate a port on which the thread shall listen for exceptions.
if (mach_port_allocate(self, MACH_PORT_RIGHT_RECEIVE, &our_exception_port) !=
KERN_SUCCESS)
fatal_error("mach_port_allocate() failed", 0);
// See
// http://web.mit.edu/darwin/src/modules/xnu/osfmk/man/mach_port_insert_right.html.
if (mach_port_insert_right(self, our_exception_port, our_exception_port,
MACH_MSG_TYPE_MAKE_SEND) !=
KERN_SUCCESS)
fatal_error("mach_port_insert_right() failed", 0);
// The exceptions we want to catch.
mask = EXC_MASK_BAD_ACCESS | EXC_MASK_BAD_INSTRUCTION | EXC_MASK_ARITHMETIC;
// Create the thread listening on the exception port.
start_thread(mach_exception_thread, NULL);
// Replace the exception port info for these exceptions with our own.
// Note that we replace the exception port for the entire task, not only
// for a particular thread. This has the effect that when our exception
// port gets the message, the thread specific exception port has already
// been asked, and we don't need to bother about it. See
// http://web.mit.edu/darwin/src/modules/xnu/osfmk/man/task_set_exception_ports.html.
if (task_set_exception_ports(self, mask, our_exception_port,
EXCEPTION_DEFAULT, MACHINE_THREAD_STATE) !=
KERN_SUCCESS)
fatal_error("task_set_exception_ports() failed", 0);
}
}
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