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1 <h2>catch_exception_raise</h2>
2 <hr>
3 <p>
4 <strong>Server Interface</strong> - Handles the occurrence of an exception within a thread.
5
6 <h3>SYNOPSIS</h3>
7 <pre>
8 <strong>kern_return_t catch_exception_raise</strong>
9 <strong>(mach_port_t</strong> <var>exception_port</var>,
10 <strong>mach_port_t</strong> <var>thread</var>,
11 <strong>mach_port_t</strong> <var>task</var>,
12 <strong>exception_type_t</strong> <var>exception</var>,
13 <strong>exception_data_t</strong> <var>code</var>,
14 <strong>mach_msg_type_number_t</strong> <var>code_count</var><strong>);</strong>
15 </pre>
16 <p>
17 <strong>catch_exception_raise_state</strong>
18 expanded form:
19 <pre>
20 <strong>kern_return_t catch_exception_raise_state</strong>
21 <strong>(mach_port_t</strong> <var>exception_port</var>,
22 <strong>exception_type_t</strong> <var>exception</var>,
23 <strong>exception_data_t</strong> <var>code</var>,
24 <strong>mach_msg_type_number_t</strong> <var>code_count</var>,
25 <strong>int *</strong> <var>flavor</var>,
26 <strong>thread_state_t</strong> <var>in_state</var>,
27 <strong>mach_msg_type_number_t</strong> <var>in_state_count</var>,
28 <strong>thread_state_t</strong> <var>out_state</var>,
29 <strong>mach_msg_type_number_t *</strong> <var>out_state_count</var><strong>);</strong>
30 </pre>
31 <p>
32 <strong>catch_exception_raise_state_identity</strong>
33 expanded form:
34 <pre>
35 <strong>kern_return_t catch_exception_raise_state_identity</strong>
36 <strong>(mach_port_t</strong> <var>exception_port</var>,
37 <strong>mach_port_t</strong> <var>thread</var>,
38 <strong>mach_port_t</strong> <var>task</var>,
39 <strong>exception_type_t</strong> <var>exception</var>,
40 <strong>exception_data_t</strong> <var>code</var>,
41 <strong>mach_msg_type_number_t</strong> <var>code_count</var>,
42 <strong>int *</strong> <var>flavor</var>,
43 <strong>thread_state_t</strong> <var>in_state</var>,
44 <strong>mach_msg_type_number_t</strong> <var>in_state_count</var>,
45 <strong>thread_state_t</strong> <var>out_state</var>,
46 <strong>mach_msg_type_number_t *</strong> <var>out_state_count</var><strong>);</strong>
47 </pre>
48 <h3>PARAMETERS</h3>
49 <dl>
50 <dt> <var>exception_port</var>
51 <dd>
52 [in exception (receive) right] The port to which the exception
53 notification was sent.
54 <p>
55 <dt> <var>thread</var>
56 <dd>
57 [in thread-self send right] The thread self port for the thread taking the
58 exception.
59 <p>
60 <dt> <var>task</var>
61 <dd>
62 [in task-self send right] The task self port for the task containing the
63 thread taking the exception.
64 <p>
65 <dt> <var>exception</var>
66 <dd>
67 [in scalar] The type of the exception.
68 The machine independent values raised by all implementations are:
69 <dl>
70 <p>
71 <dt> EXC_BAD_ACCESS
72 <dd>
73 Could not access memory. subcode contains the bad memory
74 address.
75 <p>
76 <dt> EXC_BAD_INSTRUCTION
77 <dd>
78 Instruction failed. Illegal or undefined instruction or operand.
79 <p>
80 <dt> EXC_ARITHMETIC
81 <dd>
82 Arithmetic exception; exact nature of exception is in subcode
83 field.
84 <p>
85 <dt> EXC_EMULATION
86 <dd>
87 Emulation instruction. Emulation support instruction encountered.
88 Details in subcode field.
89 <p>
90 <dt> EXC_SOFTWARE
91 <dd>
92 Software generated exception; exact exception is in subcode
93 field. Codes 0 - 0xFFFF reserved to hardware; codes 0x10000
94 - 0x1FFFF reserved for OS emulation.
95 <p>
96 <dt> EXC_BREAKPOINT
97 <dd>
98 Trace, breakpoint, etc. Details in subcode field.
99 <p>
100 <dt> EXC_SYSCALL
101 <dd>
102 System call requested. Details in subcode field.
103 <p>
104 <dt> EXC_MACH_SYSCALL
105 <dd>
106 System call with a number in the Mach call range requested.
107 Details in subcode field.
108 </dl
109 <p>
110 <dt> <var>code</var>
111 <dd>
112 [in scalar] A machine dependent array indicating a particular instance
113 of exception.
114 <p>
115 <dt> <var>code_count</var>
116 <dd>
117 [in scalar] The size of the buffer (in natural-sized units).
118 <p>
119 <dt> <var>flavor</var>
120 <dd>
121 [pointer to in/out scalar] On input, the type of state included as selected
122 when the exception port was set. On output, the type of state being
123 returned.
124 <p>
125 <dt> <var>in_state</var>
126 <dd>
127 [pointer to in structure] State information of the thread at the time of
128 the exception.
129 <p>
130 <dt> <var>in_state_count</var>
131 <dd>
132 [in scalar] The size of the in state buffer (in natural-sized units).
133 <p>
134 <dt> <var>out_state</var>
135 <dd>
136 [out structure] The state the thread will have if continued from the
137 point of the exception. The maximum size of this array is
138 THREAD_STATE_MAX.
139 <p>
140 <dt> <var>out_state_count</var>
141 <dd>
142 [pointer to out scalar] The size of the out state buffer (in natural-sized units).
143 </dl>
144 <h3>DESCRIPTION</h3>
145 <p>
146 A <strong>catch_exception_raise</strong> function is called by
147 <strong>exc_server</strong> as the result of a
148 kernel message indicating that an exception occurred within a thread.
149 The <var>exception_port</var> parameter specifies the port named via
150 a previous call to <strong>thread_set_exception_ports</strong> or
151 <strong>task_set_exception_ports</strong>
152 as the port that responds when the thread takes an
153 exception.
154 <p>
155 The alternate message forms (the format being selected when the exception port
156 was set) allow for selected thread state to be included.
157
158 <h3>NOTES</h3>
159 <p>
160 When an exception occurs in a thread, the thread sends an exception message to
161 its exception port, blocking in the kernel waiting for the receipt of a reply. It is
162 assumed that some task is listening
163 (most likely with <strong>mach_msg_server</strong>) to this
164 port, using the <strong>exc_server</strong> function
165 to decode the messages and then call the
166 linked in <strong>catch_exception_raise</strong>.
167 It is the job of <strong>catch_exception_raise</strong> to handle
168 the exception and decide the course of action for thread.
169 <p>
170 If the thread should continue from the point of exception,
171 <strong>catch_exception_raise</strong> would return KERN_SUCCESS. This causes a reply
172 message to be sent to the kernel, which will allow the thread to continue from
173 the point of the exception.
174 If some other action should be taken by thread, the following actions should be
175 performed by <strong>catch_exception_raise</strong>:
176 <dl>
177 <dt> <strong>thread_suspend</strong>
178 <dd>
179 This keeps the thread from proceeding after the next step.
180 <p>
181 <dt> <strong>thread_abort</strong>
182 <dd>
183 This aborts the message receive operation currently blocking
184 the thread.
185 <p>
186 <dt> <strong>thread_set_state</strong>
187 <dd>
188 (if using the <strong>catch_exception_raise</strong> form). Set the
189 thread's state so that it continues doing something else.
190 <p>
191 <dt> <strong>thread_resume</strong>
192 <dd>
193 Let the thread start running from its new state.
194 </dl>
195 Returning a value other than KERN_SUCCESS insures that no reply message
196 will be sent.
197 sent. (Actually, the kernel uses a send once right to send the exception
198 message, which <strong>thread_abort</strong> destroys, so replying to the message is harmless.)
199 The thread can always be destroyed with <strong>thread_terminate</strong>.
200 <p>
201 A thread can have two exception ports active for it: its thread type specific exception
202 port and the task type specific exception port. The kernel will try sending
203 an exception message to both ports looking for a reply message with a
204 return value of KERN_SUCCESS. The kernel tries the thread specific port first,
205 then the task specific port. If the return value from the first exception message
206 the kernel sends has a return value of KERN_SUCCESS, the thread continues
207 (with a possibly modified state). If the return value is not KERN_SUCCESS,
208 the kernel tries the second port. If that return value is KERN_SUCCESS, the
209 thread continues; otherwise, the thread is terminated.
210 <p>
211 To get the effect of a non-success return value, the server interface should return
212 MIG_DESTROY_REQUEST. This causes <strong>exc_server</strong> and <strong>mach_msg_server</strong>
213 to destroy the kernel's request (as opposed to sending a reply with a
214 KERN_SUCCESS value).
215
216 <h3>RETURN VALUES</h3>
217 <p>
218 A return value of KERN_SUCCESS indicates that the thread is to continue
219 from the point of exception. A return value of MIG_NO_REPLY indicates that
220 the exception was handled directly and the thread was restarted or terminated by
221 the exception handler. A return value of MIG_DESTROY_REQUEST causes
222 the kernel to try another exception handler (or terminate the thread). Any other
223 value will cause
224 <strong>mach_msg_server</strong> to remove the task and thread port references.
225
226 <h3>RELATED INFORMATION</h3>
227 <p>
228 Functions:
229 <a href="exc_server.html"><strong>exc_server</strong></a>,
230 <a href="thread_abort.html"><strong>thread_abort</strong></a>,
231 <a href="task_get_exception_ports.html"><strong>task_get_exception_ports</strong></a>,
232 <a href="thread_get_exception_ports.html"><strong>thread_get_exception_ports</strong></a>,
233 <a href="thread_get_state.html"><strong>thread_get_state</strong></a>,
234 <a href="thread_resume.html"><strong>thread_resume</strong></a>,
235 <a href="task_set_exception_ports.html"><strong>task_set_exception_ports</strong></a>,
236 <a href="thread_set_exception_ports.html"><strong>thread_set_exception_ports</strong></a>,
237 <a href="task_swap_exception_ports.html"><strong>task_swap_exception_ports</strong></a>,
238 <a href="TS_exception_ports.html"><strong>thread_swap_exception_ports</strong></a>,
239 <a href="thread_set_state.html"><strong>thread_set_state</strong></a>,
240 <a href="thread_suspend.html"><strong>thread_suspend</strong></a>,
241 <a href="thread_terminate.html"><strong>thread_terminate</strong></a>.