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1 | /* |
1 | /* |
2 | * Copyright (c) 2008 Jiri Svoboda |
2 | * Copyright (c) 2008 Jiri Svoboda |
3 | * All rights reserved. |
3 | * All rights reserved. |
4 | * |
4 | * |
5 | * Redistribution and use in source and binary forms, with or without |
5 | * Redistribution and use in source and binary forms, with or without |
6 | * modification, are permitted provided that the following conditions |
6 | * modification, are permitted provided that the following conditions |
7 | * are met: |
7 | * are met: |
8 | * |
8 | * |
9 | * - Redistributions of source code must retain the above copyright |
9 | * - Redistributions of source code must retain the above copyright |
10 | * notice, this list of conditions and the following disclaimer. |
10 | * notice, this list of conditions and the following disclaimer. |
11 | * - Redistributions in binary form must reproduce the above copyright |
11 | * - Redistributions in binary form must reproduce the above copyright |
12 | * notice, this list of conditions and the following disclaimer in the |
12 | * notice, this list of conditions and the following disclaimer in the |
13 | * documentation and/or other materials provided with the distribution. |
13 | * documentation and/or other materials provided with the distribution. |
14 | * - The name of the author may not be used to endorse or promote products |
14 | * - The name of the author may not be used to endorse or promote products |
15 | * derived from this software without specific prior written permission. |
15 | * derived from this software without specific prior written permission. |
16 | * |
16 | * |
17 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
17 | * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
18 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
18 | * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
19 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
19 | * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
20 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
20 | * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
21 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
21 | * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
22 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
22 | * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
23 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
23 | * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
24 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
24 | * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
25 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
25 | * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
26 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
26 | * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
27 | */ |
27 | */ |
28 | 28 | ||
29 | /** @addtogroup generic |
29 | /** @addtogroup generic |
30 | * @{ |
30 | * @{ |
31 | */ |
31 | */ |
32 | 32 | ||
33 | /** |
33 | /** |
34 | * @file |
34 | * @file |
35 | * @brief Udebug operations. |
35 | * @brief Udebug operations. |
36 | * |
36 | * |
37 | * Udebug operations on tasks and threads are implemented here. The |
37 | * Udebug operations on tasks and threads are implemented here. The |
38 | * functions defined here are called from the udebug_ipc module |
38 | * functions defined here are called from the udebug_ipc module |
39 | * when servicing udebug IPC messages. |
39 | * when servicing udebug IPC messages. |
40 | */ |
40 | */ |
41 | 41 | ||
42 | #include <debug.h> |
42 | #include <debug.h> |
43 | #include <proc/task.h> |
43 | #include <proc/task.h> |
44 | #include <proc/thread.h> |
44 | #include <proc/thread.h> |
45 | #include <arch.h> |
45 | #include <arch.h> |
46 | #include <errno.h> |
46 | #include <errno.h> |
47 | #include <print.h> |
47 | #include <print.h> |
48 | #include <syscall/copy.h> |
48 | #include <syscall/copy.h> |
49 | #include <ipc/ipc.h> |
49 | #include <ipc/ipc.h> |
50 | #include <udebug/udebug.h> |
50 | #include <udebug/udebug.h> |
51 | #include <udebug/udebug_ops.h> |
51 | #include <udebug/udebug_ops.h> |
52 | 52 | ||
53 | /** |
53 | /** |
54 | * Prepare a thread for a debugging operation. |
54 | * Prepare a thread for a debugging operation. |
55 | * |
55 | * |
56 | * Simply put, return thread t with t->udebug.lock held, |
56 | * Simply put, return thread t with t->udebug.lock held, |
57 | * but only if it verifies all conditions. |
57 | * but only if it verifies all conditions. |
58 | * |
58 | * |
59 | * Specifically, verifies that thread t exists, is a userspace thread, |
59 | * Specifically, verifies that thread t exists, is a userspace thread, |
60 | * and belongs to the current task (TASK). Verifies, that the thread |
60 | * and belongs to the current task (TASK). Verifies, that the thread |
61 | * is (or is not) go according to being_go (typically false). |
61 | * is (or is not) go according to being_go (typically false). |
62 | * It also locks t->udebug.lock, making sure that t->udebug.active |
62 | * It also locks t->udebug.lock, making sure that t->udebug.active |
63 | * is true - that the thread is in a valid debugging session. |
63 | * is true - that the thread is in a valid debugging session. |
64 | * |
64 | * |
65 | * With this verified and the t->udebug.lock mutex held, it is ensured |
65 | * With this verified and the t->udebug.lock mutex held, it is ensured |
66 | * that the thread cannot leave the debugging session, let alone cease |
66 | * that the thread cannot leave the debugging session, let alone cease |
67 | * to exist. |
67 | * to exist. |
68 | * |
68 | * |
69 | * In this function, holding the TASK->udebug.lock mutex prevents the |
69 | * In this function, holding the TASK->udebug.lock mutex prevents the |
70 | * thread from leaving the debugging session, while relaxing from |
70 | * thread from leaving the debugging session, while relaxing from |
71 | * the t->lock spinlock to the t->udebug.lock mutex. |
71 | * the t->lock spinlock to the t->udebug.lock mutex. |
72 | * |
72 | * |
73 | * @param t Pointer, need not at all be valid. |
73 | * @param t Pointer, need not at all be valid. |
74 | * @param being_go Required thread state. |
74 | * @param being_go Required thread state. |
75 | * |
75 | * |
76 | * Returns EOK if all went well, or an error code otherwise. |
76 | * Returns EOK if all went well, or an error code otherwise. |
77 | */ |
77 | */ |
78 | static int _thread_op_begin(thread_t *t, bool being_go) |
78 | static int _thread_op_begin(thread_t *t, bool being_go) |
79 | { |
79 | { |
80 | task_id_t taskid; |
80 | task_id_t taskid; |
81 | ipl_t ipl; |
81 | ipl_t ipl; |
82 | 82 | ||
83 | taskid = TASK->taskid; |
83 | taskid = TASK->taskid; |
84 | 84 | ||
85 | mutex_lock(&TASK->udebug.lock); |
85 | mutex_lock(&TASK->udebug.lock); |
86 | 86 | ||
87 | /* thread_exists() must be called with threads_lock held */ |
87 | /* thread_exists() must be called with threads_lock held */ |
88 | ipl = interrupts_disable(); |
88 | ipl = interrupts_disable(); |
89 | spinlock_lock(&threads_lock); |
89 | spinlock_lock(&threads_lock); |
90 | 90 | ||
91 | if (!thread_exists(t)) { |
91 | if (!thread_exists(t)) { |
92 | spinlock_unlock(&threads_lock); |
92 | spinlock_unlock(&threads_lock); |
93 | interrupts_restore(ipl); |
93 | interrupts_restore(ipl); |
94 | mutex_unlock(&TASK->udebug.lock); |
94 | mutex_unlock(&TASK->udebug.lock); |
95 | return ENOENT; |
95 | return ENOENT; |
96 | } |
96 | } |
97 | 97 | ||
98 | /* t->lock is enough to ensure the thread's existence */ |
98 | /* t->lock is enough to ensure the thread's existence */ |
99 | spinlock_lock(&t->lock); |
99 | spinlock_lock(&t->lock); |
100 | spinlock_unlock(&threads_lock); |
100 | spinlock_unlock(&threads_lock); |
101 | 101 | ||
102 | /* Verify that 't' is a userspace thread. */ |
102 | /* Verify that 't' is a userspace thread. */ |
103 | if ((t->flags & THREAD_FLAG_USPACE) == 0) { |
103 | if ((t->flags & THREAD_FLAG_USPACE) == 0) { |
104 | /* It's not, deny its existence */ |
104 | /* It's not, deny its existence */ |
105 | spinlock_unlock(&t->lock); |
105 | spinlock_unlock(&t->lock); |
106 | interrupts_restore(ipl); |
106 | interrupts_restore(ipl); |
107 | mutex_unlock(&TASK->udebug.lock); |
107 | mutex_unlock(&TASK->udebug.lock); |
108 | return ENOENT; |
108 | return ENOENT; |
109 | } |
109 | } |
110 | 110 | ||
111 | /* Verify debugging state. */ |
111 | /* Verify debugging state. */ |
112 | if (t->udebug.active != true) { |
112 | if (t->udebug.active != true) { |
113 | /* Not in debugging session or undesired GO state */ |
113 | /* Not in debugging session or undesired GO state */ |
114 | spinlock_unlock(&t->lock); |
114 | spinlock_unlock(&t->lock); |
115 | interrupts_restore(ipl); |
115 | interrupts_restore(ipl); |
116 | mutex_unlock(&TASK->udebug.lock); |
116 | mutex_unlock(&TASK->udebug.lock); |
117 | return ENOENT; |
117 | return ENOENT; |
118 | } |
118 | } |
119 | 119 | ||
120 | /* |
120 | /* |
121 | * Since the thread has active == true, TASK->udebug.lock |
121 | * Since the thread has active == true, TASK->udebug.lock |
122 | * is enough to ensure its existence and that active remains |
122 | * is enough to ensure its existence and that active remains |
123 | * true. |
123 | * true. |
124 | */ |
124 | */ |
125 | spinlock_unlock(&t->lock); |
125 | spinlock_unlock(&t->lock); |
126 | interrupts_restore(ipl); |
126 | interrupts_restore(ipl); |
127 | 127 | ||
128 | /* Only mutex TASK->udebug.lock left. */ |
128 | /* Only mutex TASK->udebug.lock left. */ |
129 | 129 | ||
130 | /* Now verify that the thread belongs to the current task. */ |
130 | /* Now verify that the thread belongs to the current task. */ |
131 | if (t->task != TASK) { |
131 | if (t->task != TASK) { |
132 | /* No such thread belonging this task*/ |
132 | /* No such thread belonging this task*/ |
133 | mutex_unlock(&TASK->udebug.lock); |
133 | mutex_unlock(&TASK->udebug.lock); |
134 | return ENOENT; |
134 | return ENOENT; |
135 | } |
135 | } |
136 | 136 | ||
137 | /* |
137 | /* |
138 | * Now we need to grab the thread's debug lock for synchronization |
138 | * Now we need to grab the thread's debug lock for synchronization |
139 | * of the threads stoppability/stop state. |
139 | * of the threads stoppability/stop state. |
140 | */ |
140 | */ |
141 | mutex_lock(&t->udebug.lock); |
141 | mutex_lock(&t->udebug.lock); |
142 | 142 | ||
143 | /* The big task mutex is no longer needed. */ |
143 | /* The big task mutex is no longer needed. */ |
144 | mutex_unlock(&TASK->udebug.lock); |
144 | mutex_unlock(&TASK->udebug.lock); |
145 | 145 | ||
146 | if (t->udebug.go != being_go) { |
146 | if (t->udebug.go != being_go) { |
147 | /* Not in debugging session or undesired GO state. */ |
147 | /* Not in debugging session or undesired GO state. */ |
148 | mutex_unlock(&t->udebug.lock); |
148 | mutex_unlock(&t->udebug.lock); |
149 | return EINVAL; |
149 | return EINVAL; |
150 | } |
150 | } |
151 | 151 | ||
152 | /* Only t->udebug.lock left. */ |
152 | /* Only t->udebug.lock left. */ |
153 | 153 | ||
154 | return EOK; /* All went well. */ |
154 | return EOK; /* All went well. */ |
155 | } |
155 | } |
156 | 156 | ||
157 | /** End debugging operation on a thread. */ |
157 | /** End debugging operation on a thread. */ |
158 | static void _thread_op_end(thread_t *t) |
158 | static void _thread_op_end(thread_t *t) |
159 | { |
159 | { |
160 | mutex_unlock(&t->udebug.lock); |
160 | mutex_unlock(&t->udebug.lock); |
161 | } |
161 | } |
162 | 162 | ||
163 | /** Begin debugging the current task. |
163 | /** Begin debugging the current task. |
164 | * |
164 | * |
165 | * Initiates a debugging session for the current task (and its threads). |
165 | * Initiates a debugging session for the current task (and its threads). |
166 | * When the debugging session has started a reply will be sent to the |
166 | * When the debugging session has started a reply will be sent to the |
167 | * UDEBUG_BEGIN call. This may happen immediately in this function if |
167 | * UDEBUG_BEGIN call. This may happen immediately in this function if |
168 | * all the threads in this task are stoppable at the moment and in this |
168 | * all the threads in this task are stoppable at the moment and in this |
169 | * case the function returns 1. |
169 | * case the function returns 1. |
170 | * |
170 | * |
171 | * Otherwise the function returns 0 and the reply will be sent as soon as |
171 | * Otherwise the function returns 0 and the reply will be sent as soon as |
172 | * all the threads become stoppable (i.e. they can be considered stopped). |
172 | * all the threads become stoppable (i.e. they can be considered stopped). |
173 | * |
173 | * |
174 | * @param call The BEGIN call we are servicing. |
174 | * @param call The BEGIN call we are servicing. |
175 | * @return 0 (OK, but not done yet), 1 (done) or negative error code. |
175 | * @return 0 (OK, but not done yet), 1 (done) or negative error code. |
176 | */ |
176 | */ |
177 | int udebug_begin(call_t *call) |
177 | int udebug_begin(call_t *call) |
178 | { |
178 | { |
179 | int reply; |
179 | int reply; |
180 | 180 | ||
181 | thread_t *t; |
181 | thread_t *t; |
182 | link_t *cur; |
182 | link_t *cur; |
183 | 183 | ||
184 | LOG("udebug_begin()\n"); |
184 | LOG("udebug_begin()\n"); |
185 | 185 | ||
186 | mutex_lock(&TASK->udebug.lock); |
186 | mutex_lock(&TASK->udebug.lock); |
187 | LOG("debugging task %llu\n", TASK->taskid); |
187 | LOG("debugging task %llu\n", TASK->taskid); |
188 | 188 | ||
189 | if (TASK->udebug.dt_state != UDEBUG_TS_INACTIVE) { |
189 | if (TASK->udebug.dt_state != UDEBUG_TS_INACTIVE) { |
190 | mutex_unlock(&TASK->udebug.lock); |
190 | mutex_unlock(&TASK->udebug.lock); |
191 | LOG("udebug_begin(): busy error\n"); |
191 | LOG("udebug_begin(): busy error\n"); |
192 | 192 | ||
193 | return EBUSY; |
193 | return EBUSY; |
194 | } |
194 | } |
195 | 195 | ||
196 | TASK->udebug.dt_state = UDEBUG_TS_BEGINNING; |
196 | TASK->udebug.dt_state = UDEBUG_TS_BEGINNING; |
197 | TASK->udebug.begin_call = call; |
197 | TASK->udebug.begin_call = call; |
198 | TASK->udebug.debugger = call->sender; |
198 | TASK->udebug.debugger = call->sender; |
199 | 199 | ||
200 | if (TASK->udebug.not_stoppable_count == 0) { |
200 | if (TASK->udebug.not_stoppable_count == 0) { |
201 | TASK->udebug.dt_state = UDEBUG_TS_ACTIVE; |
201 | TASK->udebug.dt_state = UDEBUG_TS_ACTIVE; |
202 | TASK->udebug.begin_call = NULL; |
202 | TASK->udebug.begin_call = NULL; |
203 | reply = 1; /* immediate reply */ |
203 | reply = 1; /* immediate reply */ |
204 | } else { |
204 | } else { |
205 | reply = 0; /* no reply */ |
205 | reply = 0; /* no reply */ |
206 | } |
206 | } |
207 | 207 | ||
208 | /* Set udebug.active on all of the task's userspace threads. */ |
208 | /* Set udebug.active on all of the task's userspace threads. */ |
209 | 209 | ||
210 | for (cur = TASK->th_head.next; cur != &TASK->th_head; cur = cur->next) { |
210 | for (cur = TASK->th_head.next; cur != &TASK->th_head; cur = cur->next) { |
211 | t = list_get_instance(cur, thread_t, th_link); |
211 | t = list_get_instance(cur, thread_t, th_link); |
212 | 212 | ||
213 | mutex_lock(&t->udebug.lock); |
213 | mutex_lock(&t->udebug.lock); |
214 | if ((t->flags & THREAD_FLAG_USPACE) != 0) |
214 | if ((t->flags & THREAD_FLAG_USPACE) != 0) |
215 | t->udebug.active = true; |
215 | t->udebug.active = true; |
216 | mutex_unlock(&t->udebug.lock); |
216 | mutex_unlock(&t->udebug.lock); |
217 | } |
217 | } |
218 | 218 | ||
219 | mutex_unlock(&TASK->udebug.lock); |
219 | mutex_unlock(&TASK->udebug.lock); |
220 | 220 | ||
221 | LOG("udebug_begin() done (%s)\n", |
221 | LOG("udebug_begin() done (%s)\n", |
222 | reply ? "reply" : "stoppability wait"); |
222 | reply ? "reply" : "stoppability wait"); |
223 | 223 | ||
224 | return reply; |
224 | return reply; |
225 | } |
225 | } |
226 | 226 | ||
227 | /** Finish debugging the current task. |
227 | /** Finish debugging the current task. |
228 | * |
228 | * |
229 | * Closes the debugging session for the current task. |
229 | * Closes the debugging session for the current task. |
230 | * @return Zero on success or negative error code. |
230 | * @return Zero on success or negative error code. |
231 | */ |
231 | */ |
232 | int udebug_end(void) |
232 | int udebug_end(void) |
233 | { |
233 | { |
234 | int rc; |
234 | int rc; |
235 | 235 | ||
236 | LOG("udebug_end()\n"); |
236 | LOG("udebug_end()\n"); |
237 | 237 | ||
238 | mutex_lock(&TASK->udebug.lock); |
238 | mutex_lock(&TASK->udebug.lock); |
239 | LOG("task %" PRIu64 "\n", TASK->taskid); |
239 | LOG("task %" PRIu64 "\n", TASK->taskid); |
240 | 240 | ||
241 | rc = udebug_task_cleanup(TASK); |
241 | rc = udebug_task_cleanup(TASK); |
242 | 242 | ||
243 | mutex_unlock(&TASK->udebug.lock); |
243 | mutex_unlock(&TASK->udebug.lock); |
244 | 244 | ||
245 | return rc; |
245 | return rc; |
246 | } |
246 | } |
247 | 247 | ||
248 | /** Set the event mask. |
248 | /** Set the event mask. |
249 | * |
249 | * |
250 | * Sets the event mask that determines which events are enabled. |
250 | * Sets the event mask that determines which events are enabled. |
251 | * |
251 | * |
252 | * @param mask Or combination of events that should be enabled. |
252 | * @param mask Or combination of events that should be enabled. |
253 | * @return Zero on success or negative error code. |
253 | * @return Zero on success or negative error code. |
254 | */ |
254 | */ |
255 | int udebug_set_evmask(udebug_evmask_t mask) |
255 | int udebug_set_evmask(udebug_evmask_t mask) |
256 | { |
256 | { |
257 | LOG("udebug_set_mask()\n"); |
257 | LOG("udebug_set_mask()\n"); |
258 | 258 | ||
259 | mutex_lock(&TASK->udebug.lock); |
259 | mutex_lock(&TASK->udebug.lock); |
260 | 260 | ||
261 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
261 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
262 | mutex_unlock(&TASK->udebug.lock); |
262 | mutex_unlock(&TASK->udebug.lock); |
263 | LOG("udebug_set_mask(): not active debuging session\n"); |
263 | LOG("udebug_set_mask(): not active debuging session\n"); |
264 | 264 | ||
265 | return EINVAL; |
265 | return EINVAL; |
266 | } |
266 | } |
267 | 267 | ||
268 | TASK->udebug.evmask = mask; |
268 | TASK->udebug.evmask = mask; |
269 | 269 | ||
270 | mutex_unlock(&TASK->udebug.lock); |
270 | mutex_unlock(&TASK->udebug.lock); |
271 | 271 | ||
272 | return 0; |
272 | return 0; |
273 | } |
273 | } |
274 | 274 | ||
275 | /** Give thread GO. |
275 | /** Give thread GO. |
276 | * |
276 | * |
277 | * Upon recieving a go message, the thread is given GO. Being GO |
277 | * Upon recieving a go message, the thread is given GO. Being GO |
278 | * means the thread is allowed to execute userspace code (until |
278 | * means the thread is allowed to execute userspace code (until |
279 | * a debugging event or STOP occurs, at which point the thread loses GO. |
279 | * a debugging event or STOP occurs, at which point the thread loses GO. |
280 | * |
280 | * |
281 | * @param t The thread to operate on (unlocked and need not be valid). |
281 | * @param t The thread to operate on (unlocked and need not be valid). |
282 | * @param call The GO call that we are servicing. |
282 | * @param call The GO call that we are servicing. |
283 | */ |
283 | */ |
284 | int udebug_go(thread_t *t, call_t *call) |
284 | int udebug_go(thread_t *t, call_t *call) |
285 | { |
285 | { |
286 | int rc; |
286 | int rc; |
287 | 287 | ||
288 | /* On success, this will lock t->udebug.lock. */ |
288 | /* On success, this will lock t->udebug.lock. */ |
289 | rc = _thread_op_begin(t, false); |
289 | rc = _thread_op_begin(t, false); |
290 | if (rc != EOK) { |
290 | if (rc != EOK) { |
291 | return rc; |
291 | return rc; |
292 | } |
292 | } |
293 | 293 | ||
294 | t->udebug.go_call = call; |
294 | t->udebug.go_call = call; |
295 | t->udebug.go = true; |
295 | t->udebug.go = true; |
296 | t->udebug.cur_event = 0; /* none */ |
296 | t->udebug.cur_event = 0; /* none */ |
297 | 297 | ||
298 | /* |
298 | /* |
299 | * Neither t's lock nor threads_lock may be held during wakeup. |
299 | * Neither t's lock nor threads_lock may be held during wakeup. |
300 | */ |
300 | */ |
301 | waitq_wakeup(&t->udebug.go_wq, WAKEUP_FIRST); |
301 | waitq_wakeup(&t->udebug.go_wq, WAKEUP_FIRST); |
302 | 302 | ||
303 | _thread_op_end(t); |
303 | _thread_op_end(t); |
304 | 304 | ||
305 | return 0; |
305 | return 0; |
306 | } |
306 | } |
307 | 307 | ||
308 | /** Stop a thread (i.e. take its GO away) |
308 | /** Stop a thread (i.e. take its GO away) |
309 | * |
309 | * |
310 | * Generates a STOP event as soon as the thread becomes stoppable (i.e. |
310 | * Generates a STOP event as soon as the thread becomes stoppable (i.e. |
311 | * can be considered stopped). |
311 | * can be considered stopped). |
312 | * |
312 | * |
313 | * @param t The thread to operate on (unlocked and need not be valid). |
313 | * @param t The thread to operate on (unlocked and need not be valid). |
314 | * @param call The GO call that we are servicing. |
314 | * @param call The GO call that we are servicing. |
315 | */ |
315 | */ |
316 | int udebug_stop(thread_t *t, call_t *call) |
316 | int udebug_stop(thread_t *t, call_t *call) |
317 | { |
317 | { |
318 | int rc; |
318 | int rc; |
319 | 319 | ||
320 | LOG("udebug_stop()\n"); |
320 | LOG("udebug_stop()\n"); |
321 | 321 | ||
322 | /* |
322 | /* |
323 | * On success, this will lock t->udebug.lock. Note that this makes sure |
323 | * On success, this will lock t->udebug.lock. Note that this makes sure |
324 | * the thread is not stopped. |
324 | * the thread is not stopped. |
325 | */ |
325 | */ |
326 | rc = _thread_op_begin(t, true); |
326 | rc = _thread_op_begin(t, true); |
327 | if (rc != EOK) { |
327 | if (rc != EOK) { |
328 | return rc; |
328 | return rc; |
329 | } |
329 | } |
330 | 330 | ||
331 | /* Take GO away from the thread. */ |
331 | /* Take GO away from the thread. */ |
332 | t->udebug.go = false; |
332 | t->udebug.go = false; |
333 | 333 | ||
334 | if (t->udebug.stoppable != true) { |
334 | if (t->udebug.stoppable != true) { |
335 | /* Answer will be sent when the thread becomes stoppable. */ |
335 | /* Answer will be sent when the thread becomes stoppable. */ |
336 | _thread_op_end(t); |
336 | _thread_op_end(t); |
337 | return 0; |
337 | return 0; |
338 | } |
338 | } |
339 | 339 | ||
340 | /* |
340 | /* |
341 | * Answer GO call. |
341 | * Answer GO call. |
342 | */ |
342 | */ |
343 | LOG("udebug_stop - answering go call\n"); |
343 | LOG("udebug_stop - answering go call\n"); |
344 | 344 | ||
345 | /* Make sure nobody takes this call away from us. */ |
345 | /* Make sure nobody takes this call away from us. */ |
346 | call = t->udebug.go_call; |
346 | call = t->udebug.go_call; |
347 | t->udebug.go_call = NULL; |
347 | t->udebug.go_call = NULL; |
348 | 348 | ||
349 | IPC_SET_RETVAL(call->data, 0); |
349 | IPC_SET_RETVAL(call->data, 0); |
350 | IPC_SET_ARG1(call->data, UDEBUG_EVENT_STOP); |
350 | IPC_SET_ARG1(call->data, UDEBUG_EVENT_STOP); |
351 | LOG("udebug_stop/ipc_answer\n"); |
351 | LOG("udebug_stop/ipc_answer\n"); |
352 | 352 | ||
353 | THREAD->udebug.cur_event = UDEBUG_EVENT_STOP; |
353 | THREAD->udebug.cur_event = UDEBUG_EVENT_STOP; |
354 | 354 | ||
355 | _thread_op_end(t); |
355 | _thread_op_end(t); |
356 | 356 | ||
357 | mutex_lock(&TASK->udebug.lock); |
357 | mutex_lock(&TASK->udebug.lock); |
358 | ipc_answer(&TASK->answerbox, call); |
358 | ipc_answer(&TASK->answerbox, call); |
359 | mutex_unlock(&TASK->udebug.lock); |
359 | mutex_unlock(&TASK->udebug.lock); |
360 | 360 | ||
361 | LOG("udebog_stop/done\n"); |
361 | LOG("udebog_stop/done\n"); |
362 | return 0; |
362 | return 0; |
363 | } |
363 | } |
364 | 364 | ||
365 | /** Read the list of userspace threads in the current task. |
365 | /** Read the list of userspace threads in the current task. |
366 | * |
366 | * |
367 | * The list takes the form of a sequence of thread hashes (i.e. the pointers |
367 | * The list takes the form of a sequence of thread hashes (i.e. the pointers |
368 | * to thread structures). A buffer of size @a buf_size is allocated and |
368 | * to thread structures). A buffer of size @a buf_size is allocated and |
369 | * a pointer to it written to @a buffer. The sequence of hashes is written |
369 | * a pointer to it written to @a buffer. The sequence of hashes is written |
370 | * into this buffer. |
370 | * into this buffer. |
371 | * |
371 | * |
372 | * If the sequence is longer than @a buf_size bytes, only as much hashes |
372 | * If the sequence is longer than @a buf_size bytes, only as much hashes |
373 | * as can fit are copied. The number of thread hashes copied is stored |
373 | * as can fit are copied. The number of thread hashes copied is stored |
374 | * in @a n. |
374 | * in @a n. |
375 | * |
375 | * |
376 | * The rationale for having @a buf_size is that this function is only |
376 | * The rationale for having @a buf_size is that this function is only |
377 | * used for servicing the THREAD_READ message, which always specifies |
377 | * used for servicing the THREAD_READ message, which always specifies |
378 | * a maximum size for the userspace buffer. |
378 | * a maximum size for the userspace buffer. |
379 | * |
379 | * |
380 | * @param buffer The buffer for storing thread hashes. |
380 | * @param buffer The buffer for storing thread hashes. |
381 | * @param buf_size Buffer size in bytes. |
381 | * @param buf_size Buffer size in bytes. |
382 | * @param n The actual number of hashes copied will be stored here. |
382 | * @param n The actual number of hashes copied will be stored here. |
383 | */ |
383 | */ |
384 | int udebug_thread_read(void **buffer, size_t buf_size, size_t *n) |
384 | int udebug_thread_read(void **buffer, size_t buf_size, size_t *n) |
385 | { |
385 | { |
386 | thread_t *t; |
386 | thread_t *t; |
387 | link_t *cur; |
387 | link_t *cur; |
388 | unative_t tid; |
388 | unative_t tid; |
389 | unsigned copied_ids; |
389 | unsigned copied_ids; |
390 | ipl_t ipl; |
390 | ipl_t ipl; |
391 | unative_t *id_buffer; |
391 | unative_t *id_buffer; |
392 | int flags; |
392 | int flags; |
393 | size_t max_ids; |
393 | size_t max_ids; |
394 | 394 | ||
395 | LOG("udebug_thread_read()\n"); |
395 | LOG("udebug_thread_read()\n"); |
396 | 396 | ||
397 | /* Allocate a buffer to hold thread IDs */ |
397 | /* Allocate a buffer to hold thread IDs */ |
398 | id_buffer = malloc(buf_size, 0); |
398 | id_buffer = malloc(buf_size, 0); |
399 | 399 | ||
400 | mutex_lock(&TASK->udebug.lock); |
400 | mutex_lock(&TASK->udebug.lock); |
401 | 401 | ||
402 | /* Verify task state */ |
402 | /* Verify task state */ |
403 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
403 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
404 | mutex_unlock(&TASK->udebug.lock); |
404 | mutex_unlock(&TASK->udebug.lock); |
405 | return EINVAL; |
405 | return EINVAL; |
406 | } |
406 | } |
407 | 407 | ||
408 | ipl = interrupts_disable(); |
408 | ipl = interrupts_disable(); |
409 | spinlock_lock(&TASK->lock); |
409 | spinlock_lock(&TASK->lock); |
410 | /* Copy down the thread IDs */ |
410 | /* Copy down the thread IDs */ |
411 | 411 | ||
412 | max_ids = buf_size / sizeof(unative_t); |
412 | max_ids = buf_size / sizeof(unative_t); |
413 | copied_ids = 0; |
413 | copied_ids = 0; |
414 | 414 | ||
415 | /* FIXME: make sure the thread isn't past debug shutdown... */ |
415 | /* FIXME: make sure the thread isn't past debug shutdown... */ |
416 | for (cur = TASK->th_head.next; cur != &TASK->th_head; cur = cur->next) { |
416 | for (cur = TASK->th_head.next; cur != &TASK->th_head; cur = cur->next) { |
417 | /* Do not write past end of buffer */ |
417 | /* Do not write past end of buffer */ |
418 | if (copied_ids >= max_ids) break; |
418 | if (copied_ids >= max_ids) break; |
419 | 419 | ||
420 | t = list_get_instance(cur, thread_t, th_link); |
420 | t = list_get_instance(cur, thread_t, th_link); |
421 | 421 | ||
422 | spinlock_lock(&t->lock); |
422 | spinlock_lock(&t->lock); |
423 | flags = t->flags; |
423 | flags = t->flags; |
424 | spinlock_unlock(&t->lock); |
424 | spinlock_unlock(&t->lock); |
425 | 425 | ||
426 | /* Not interested in kernel threads. */ |
426 | /* Not interested in kernel threads. */ |
427 | if ((flags & THREAD_FLAG_USPACE) != 0) { |
427 | if ((flags & THREAD_FLAG_USPACE) != 0) { |
428 | /* Using thread struct pointer as identification hash */ |
428 | /* Using thread struct pointer as identification hash */ |
429 | tid = (unative_t) t; |
429 | tid = (unative_t) t; |
430 | id_buffer[copied_ids++] = tid; |
430 | id_buffer[copied_ids++] = tid; |
431 | } |
431 | } |
432 | } |
432 | } |
433 | 433 | ||
434 | spinlock_unlock(&TASK->lock); |
434 | spinlock_unlock(&TASK->lock); |
435 | interrupts_restore(ipl); |
435 | interrupts_restore(ipl); |
436 | 436 | ||
437 | mutex_unlock(&TASK->udebug.lock); |
437 | mutex_unlock(&TASK->udebug.lock); |
438 | 438 | ||
439 | *buffer = id_buffer; |
439 | *buffer = id_buffer; |
440 | *n = copied_ids * sizeof(unative_t); |
440 | *n = copied_ids * sizeof(unative_t); |
441 | 441 | ||
442 | return 0; |
442 | return 0; |
443 | } |
443 | } |
444 | 444 | ||
445 | /** Read the arguments of a system call. |
445 | /** Read the arguments of a system call. |
446 | * |
446 | * |
447 | * The arguments of the system call being being executed are copied |
447 | * The arguments of the system call being being executed are copied |
448 | * to an allocated buffer and a pointer to it is written to @a buffer. |
448 | * to an allocated buffer and a pointer to it is written to @a buffer. |
449 | * The size of the buffer is exactly such that it can hold the maximum number |
449 | * The size of the buffer is exactly such that it can hold the maximum number |
450 | * of system-call arguments. |
450 | * of system-call arguments. |
451 | * |
451 | * |
452 | * Unless the thread is currently blocked in a SYSCALL_B or SYSCALL_E event, |
452 | * Unless the thread is currently blocked in a SYSCALL_B or SYSCALL_E event, |
453 | * this function will fail with an EINVAL error code. |
453 | * this function will fail with an EINVAL error code. |
454 | * |
454 | * |
455 | * @param buffer The buffer for storing thread hashes. |
455 | * @param buffer The buffer for storing thread hashes. |
456 | */ |
456 | */ |
457 | int udebug_args_read(thread_t *t, void **buffer) |
457 | int udebug_args_read(thread_t *t, void **buffer) |
458 | { |
458 | { |
459 | int rc; |
459 | int rc; |
460 | unative_t *arg_buffer; |
460 | unative_t *arg_buffer; |
461 | 461 | ||
462 | /* Prepare a buffer to hold the arguments. */ |
462 | /* Prepare a buffer to hold the arguments. */ |
463 | arg_buffer = malloc(6 * sizeof(unative_t), 0); |
463 | arg_buffer = malloc(6 * sizeof(unative_t), 0); |
464 | 464 | ||
465 | /* On success, this will lock t->udebug.lock. */ |
465 | /* On success, this will lock t->udebug.lock. */ |
466 | rc = _thread_op_begin(t, false); |
466 | rc = _thread_op_begin(t, false); |
467 | if (rc != EOK) { |
467 | if (rc != EOK) { |
468 | return rc; |
468 | return rc; |
469 | } |
469 | } |
470 | 470 | ||
471 | /* Additionally we need to verify that we are inside a syscall. */ |
471 | /* Additionally we need to verify that we are inside a syscall. */ |
472 | if (t->udebug.cur_event != UDEBUG_EVENT_SYSCALL_B && |
472 | if (t->udebug.cur_event != UDEBUG_EVENT_SYSCALL_B && |
473 | t->udebug.cur_event != UDEBUG_EVENT_SYSCALL_E) { |
473 | t->udebug.cur_event != UDEBUG_EVENT_SYSCALL_E) { |
474 | _thread_op_end(t); |
474 | _thread_op_end(t); |
475 | return EINVAL; |
475 | return EINVAL; |
476 | } |
476 | } |
477 | 477 | ||
478 | /* Copy to a local buffer before releasing the lock. */ |
478 | /* Copy to a local buffer before releasing the lock. */ |
479 | memcpy(arg_buffer, t->udebug.syscall_args, 6 * sizeof(unative_t)); |
479 | memcpy(arg_buffer, t->udebug.syscall_args, 6 * sizeof(unative_t)); |
480 | 480 | ||
481 | _thread_op_end(t); |
481 | _thread_op_end(t); |
482 | 482 | ||
483 | *buffer = arg_buffer; |
483 | *buffer = arg_buffer; |
484 | return 0; |
484 | return 0; |
485 | } |
485 | } |
486 | 486 | ||
487 | int udebug_regs_read(thread_t *t, void *buffer) |
487 | int udebug_regs_read(thread_t *t, void *buffer) |
488 | { |
488 | { |
489 | istate_t *state; |
489 | istate_t *state; |
490 | int rc; |
490 | int rc; |
491 | 491 | ||
492 | // printf("udebug_regs_read()\n"); |
492 | LOG("udebug_regs_read()"); |
493 | 493 | ||
494 | /* On success, this will lock t->udebug.lock */ |
494 | /* On success, this will lock t->udebug.lock */ |
495 | rc = _thread_op_begin(t, false); |
495 | rc = _thread_op_begin(t, false); |
496 | if (rc != EOK) { |
496 | if (rc != EOK) { |
497 | return rc; |
497 | return rc; |
498 | } |
498 | } |
499 | 499 | ||
500 | state = t->udebug.uspace_state; |
500 | state = t->udebug.uspace_state; |
501 | if (state == NULL) { |
501 | if (state == NULL) { |
502 | _thread_op_end(t); |
502 | _thread_op_end(t); |
503 | LOG("udebug_regs_read() - istate not available\n"); |
503 | LOG("udebug_regs_read() - istate not available\n"); |
504 | return EBUSY; |
504 | return EBUSY; |
505 | } |
505 | } |
506 | 506 | ||
507 | /* Copy to the allocated buffer */ |
507 | /* Copy to the allocated buffer */ |
508 | memcpy(buffer, state, sizeof(istate_t)); |
508 | memcpy(buffer, state, sizeof(istate_t)); |
509 | 509 | ||
510 | _thread_op_end(t); |
510 | _thread_op_end(t); |
511 | 511 | ||
- | 512 | LOG("pc = 0x%" PRIp, istate_get_pc((istate_t *) buffer)); |
|
- | 513 | ||
512 | return 0; |
514 | return 0; |
513 | } |
515 | } |
514 | 516 | ||
515 | int udebug_regs_write(thread_t *t, void *buffer) |
517 | int udebug_regs_write(thread_t *t, void *buffer) |
516 | { |
518 | { |
517 | int rc; |
519 | int rc; |
518 | istate_t *state; |
520 | istate_t *state; |
519 | 521 | ||
520 | LOG("udebug_regs_write()\n"); |
522 | LOG("udebug_regs_write()\n"); |
521 | 523 | ||
522 | /* Try to change the thread's uspace_state */ |
524 | /* Try to change the thread's uspace_state */ |
523 | 525 | ||
524 | /* On success, this will lock t->udebug.lock */ |
526 | /* On success, this will lock t->udebug.lock */ |
525 | rc = _thread_op_begin(t, false); |
527 | rc = _thread_op_begin(t, false); |
526 | if (rc != EOK) { |
528 | if (rc != EOK) { |
527 | LOG("error locking thread\n"); |
529 | LOG("error locking thread\n"); |
528 | return rc; |
530 | return rc; |
529 | } |
531 | } |
530 | 532 | ||
531 | state = t->udebug.uspace_state; |
533 | state = t->udebug.uspace_state; |
532 | if (state == NULL) { |
534 | if (state == NULL) { |
533 | _thread_op_end(t); |
535 | _thread_op_end(t); |
534 | LOG("udebug_regs_write() - istate not available\n"); |
536 | LOG("udebug_regs_write() - istate not available\n"); |
535 | return EBUSY; |
537 | return EBUSY; |
536 | } |
538 | } |
537 | 539 | ||
538 | memcpy(t->udebug.uspace_state, buffer, sizeof(istate_t)); |
540 | memcpy(t->udebug.uspace_state, buffer, sizeof(istate_t)); |
539 | 541 | ||
540 | _thread_op_end(t); |
542 | _thread_op_end(t); |
541 | 543 | ||
542 | return 0; |
544 | return 0; |
543 | } |
545 | } |
544 | 546 | ||
545 | /** Read the memory of the debugged task. |
547 | /** Read the memory of the debugged task. |
546 | * |
548 | * |
547 | * Reads @a n bytes from the address space of the debugged task, starting |
549 | * Reads @a n bytes from the address space of the debugged task, starting |
548 | * from @a uspace_addr. The bytes are copied into an allocated buffer |
550 | * from @a uspace_addr. The bytes are copied into an allocated buffer |
549 | * and a pointer to it is written into @a buffer. |
551 | * and a pointer to it is written into @a buffer. |
550 | * |
552 | * |
551 | * @param uspace_addr Address from where to start reading. |
553 | * @param uspace_addr Address from where to start reading. |
552 | * @param n Number of bytes to read. |
554 | * @param n Number of bytes to read. |
553 | * @param buffer For storing a pointer to the allocated buffer. |
555 | * @param buffer For storing a pointer to the allocated buffer. |
554 | */ |
556 | */ |
555 | int udebug_mem_read(unative_t uspace_addr, size_t n, void **buffer) |
557 | int udebug_mem_read(unative_t uspace_addr, size_t n, void **buffer) |
556 | { |
558 | { |
557 | void *data_buffer; |
559 | void *data_buffer; |
558 | int rc; |
560 | int rc; |
559 | 561 | ||
560 | /* Verify task state */ |
562 | /* Verify task state */ |
561 | mutex_lock(&TASK->udebug.lock); |
563 | mutex_lock(&TASK->udebug.lock); |
562 | 564 | ||
563 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
565 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
564 | mutex_unlock(&TASK->udebug.lock); |
566 | mutex_unlock(&TASK->udebug.lock); |
565 | return EBUSY; |
567 | return EBUSY; |
566 | } |
568 | } |
567 | 569 | ||
568 | data_buffer = malloc(n, 0); |
570 | data_buffer = malloc(n, 0); |
569 | 571 | ||
570 | /* NOTE: this is not strictly from a syscall... but that shouldn't |
572 | /* NOTE: this is not strictly from a syscall... but that shouldn't |
571 | * be a problem */ |
573 | * be a problem */ |
572 | rc = copy_from_uspace(data_buffer, (void *)uspace_addr, n); |
574 | rc = copy_from_uspace(data_buffer, (void *)uspace_addr, n); |
573 | mutex_unlock(&TASK->udebug.lock); |
575 | mutex_unlock(&TASK->udebug.lock); |
574 | 576 | ||
575 | if (rc != 0) return rc; |
577 | if (rc != 0) return rc; |
576 | 578 | ||
577 | *buffer = data_buffer; |
579 | *buffer = data_buffer; |
578 | return 0; |
580 | return 0; |
579 | } |
581 | } |
580 | 582 | ||
581 | int udebug_mem_write(unative_t uspace_addr, void *data, size_t n) |
583 | int udebug_mem_write(unative_t uspace_addr, void *data, size_t n) |
582 | { |
584 | { |
583 | int rc; |
585 | int rc; |
584 | 586 | ||
585 | LOG("udebug_mem_write()\n"); |
587 | LOG("udebug_mem_write()\n"); |
586 | 588 | ||
587 | /* n must be positive */ |
589 | /* n must be positive */ |
588 | if (n < 1) |
590 | if (n < 1) |
589 | return EINVAL; |
591 | return EINVAL; |
590 | 592 | ||
591 | /* Verify task state */ |
593 | /* Verify task state */ |
592 | mutex_lock(&TASK->udebug.lock); |
594 | mutex_lock(&TASK->udebug.lock); |
593 | 595 | ||
594 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
596 | if (TASK->udebug.dt_state != UDEBUG_TS_ACTIVE) { |
595 | mutex_unlock(&TASK->udebug.lock); |
597 | mutex_unlock(&TASK->udebug.lock); |
596 | return EBUSY; |
598 | return EBUSY; |
597 | } |
599 | } |
598 | 600 | ||
599 | LOG("dst=%u, size=%u\n", uspace_addr, n); |
601 | LOG("dst=%u, size=%u\n", uspace_addr, n); |
600 | 602 | ||
601 | /* NOTE: this is not strictly from a syscall... but that shouldn't |
603 | /* NOTE: this is not strictly from a syscall... but that shouldn't |
602 | * be a problem */ |
604 | * be a problem */ |
603 | // rc = copy_to_uspace((void *)uspace_addr, data, n); |
605 | // rc = copy_to_uspace((void *)uspace_addr, data, n); |
604 | // if (rc) return rc; |
606 | // if (rc) return rc; |
605 | 607 | ||
606 | rc = as_debug_write(uspace_addr, data, n); |
608 | rc = as_debug_write(uspace_addr, data, n); |
607 | 609 | ||
608 | LOG("rc=%d\n", rc); |
610 | LOG("rc=%d\n", rc); |
609 | 611 | ||
610 | mutex_unlock(&TASK->udebug.lock); |
612 | mutex_unlock(&TASK->udebug.lock); |
611 | 613 | ||
612 | return rc; |
614 | return rc; |
613 | } |
615 | } |
614 | 616 | ||
615 | /** @} |
617 | /** @} |
616 | */ |
618 | */ |
617 | 619 |