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Line 41... Line 41...
41 
 
 41 
 
42 
#include "../../../cons.h"
 42 
#include "../../../cons.h"
43 
#include "../../../main.h"
 43 
#include "../../../main.h"
44 
#include "../../../breakpoint.h"
 44 
#include "../../../breakpoint.h"
45 
#include "../../../include/arch.h"
 45 
#include "../../../include/arch.h"
- 
 
 46 
#include "../../../genarch/idec/idec.h"
46 
 
 47 
 
47 
#define OPCODE_BREAK        0x0000000d
 48 
#define OPCODE_BREAK        0x0000000d
48 
 
 49 
 
49 
static istate_t istate;
 50 
static istate_t istate;
50 
 
 51 
 
Line 123... Line 124...
123 
    bstore_initialize(&dt->arch.next[1]);
 124 
    bstore_initialize(&dt->arch.next[1]);
124 
}
 125 
}
125 
 
 126 
 
126 
int arch_breakpoint_set(breakpoint_t *b)
 127 
int arch_breakpoint_set(breakpoint_t *b)
127 
{
 128 
{
128 
    bstore_initialize(&b->arch.bs);
 - 
 
129 
    bstore_initialize(&b->arch.next_bs[0]);
 - 
 
130 
    bstore_initialize(&b->arch.next_bs[1]);
 129 
    return idec_breakpoint_set(b);
131 
 
 - 
 
132 
    return bstore_push(&b->arch.bs, b->addr, OPCODE_BREAK);
 - 
 
133 
}
 130 
}
134 
 
 131 
 
135 
int arch_breakpoint_remove(breakpoint_t *b)
 132 
int arch_breakpoint_remove(breakpoint_t *b)
136 
{
 133 
{
137 
    return bstore_pop(&b->arch.bs);
 134 
    return idec_breakpoint_remove(b);
138 
}
 135 
}
139 
 
 136 
 
140 
static int islot_read(uintptr_t addr, uint32_t *instr)
 137 
static int islot_read(uintptr_t addr, uint32_t *instr)
141 
{
 138 
{
142 
    int rc;
 139 
    int rc;
Line 161... Line 158...
161 
    }
 158 
    }
162 
 
 159 
 
163 
    return -1;
 160 
    return -1;
164 
}
 161 
}
165 
 
 162 
 
166 
static int get_reg(int reg_no, uint32_t *value)
 163 
static int get_reg(dthread_t *dt, int reg_no, uint32_t *value)
167 
{
 164 
{
- 
 
 165 
    int rc;
- 
 
 166 
 
168 
    cons_printf("get_reg...\n");
 167 
    cons_printf("get_reg...\n");
169 
 
 168 
 
170 
    if (reg_no == 0) {
 169 
    if (reg_no == 0) {
171 
        *value = 0;
 170 
        *value = 0;
172 
        return 0;
 171 
        return 0;
173 
    }
 172 
    }
174 
 
 173 
 
- 
 
 174 
    rc = udebug_regs_read(app_phone, dt->hash, &istate);
- 
 
 175 
    if (rc < 0) return rc;
- 
 
 176 
 
175 
    /* FIXME: ugly */
 177 
    /* FIXME: ugly */
176 
    *value = ((uint32_t *)&istate)[reg_no - 1];
 178 
    *value = ((uint32_t *)&istate)[reg_no - 1];
177 
    printf("get_reg ok (0x%08x)\n", *value);
 179 
    printf("get_reg ok (0x%08x)\n", *value);
178 
 
 180 
 
179 
    return 0;
 181 
    return 0;
Line 181... Line 183...
181 
 
 183 
 
182 
/** Get address of the instruction that will be executed after the current one.
 184 
/** Get address of the instruction that will be executed after the current one.
183 
 *
 185 
 *
184 
 * Assumptions: addr == PC, *addr is not covered by a BREAK.
 186 
 * Assumptions: addr == PC, *addr is not covered by a BREAK.
185 
 *
 187 
 *
- 
 
 188 
 * @param dt        Dthread on which to operate.
186 
 * @param addr      Address of an instruction.
 189 
 * @param addr      Address of an instruction.
187 
 * @param buffer    Buffer for storing up to 2 addresses.
 190 
 * @param buffer    Buffer for storing up to 2 addresses.
188 
 * @return      Number of stored addresses or negative error code.
 191 
 * @return      Number of stored addresses or negative error code.
189 
 */
 192 
 */
190 
static int get_next_addr(uintptr_t addr, uintptr_t *buffer)
 193 
int get_next_addr(dthread_t *dt, uintptr_t addr, uintptr_t *buffer)
191 
{
 194 
{
192 
    /* TODO: J[AL]R, branches and delay slots */
 195 
    /* TODO: J[AL]R, branches and delay slots */
193 
    uint32_t instr;
 196 
    uint32_t instr;
194 
    int32_t offset;
 197 
    int32_t offset;
195 
    op_t op;
 198 
    op_t op;
Line 237... Line 240...
237 
        n = 1;
 240 
        n = 1;
238 
        break;
 241 
        break;
239 
    case OP_JR:
 242 
    case OP_JR:
240 
    case OP_JALR:
 243 
    case OP_JALR:
241 
        /* Register jump */
 244 
        /* Register jump */
242 
        rc = get_reg((instr >> 21) & 0x1f, &buffer[0]);
 245 
        rc = get_reg(dt, (instr >> 21) & 0x1f, &buffer[0]);
243 
        n = 1;
 246 
        n = 1;
244 
        break;
 247 
        break;
245 
    default:
 248 
    default:
246 
        /* Regular instruction */  
 249 
        /* Regular instruction */  
247 
        buffer[0] = addr + 4;
 250 
        buffer[0] = addr + 4;
Line 250... Line 253...
250 
    }
 253 
    }
251 
 
 254 
 
252 
    return n;
 255 
    return n;
253 
}
 256 
}
254 
 
 257 
 
255 
static void _ev_breakpoint(thash_t thread_hash)
 - 
 
256 
{
 - 
 
257 
    breakpoint_t *b;
 - 
 
258 
    dthread_t *dt;
 - 
 
259 
    int rc, n_next, i;
 - 
 
260 
    uint32_t epc;
 - 
 
261 
    uintptr_t brk_addr;
 - 
 
262 
    uintptr_t next_addr[2];
 - 
 
263 
    uint32_t brkp;
 - 
 
264 
 
 - 
 
265 
    brkp = OPCODE_BREAK;
 - 
 
266 
 
 - 
 
267 
    cons_printf("arch_event_breakpoint\n");
 - 
 
268 
 
 - 
 
269 
    rc = udebug_regs_read(app_phone, thread_hash, &istate);
 - 
 
270 
    cons_printf("udebug_regs_read -> %d\n", rc);
 - 
 
271 
    epc = istate_get_pc(&istate);
 - 
 
272 
    cons_printf("EPC was 0x%08x\n", epc);
 - 
 
273 
    brk_addr = epc;
 - 
 
274 
 
 - 
 
275 
    dt = dthread_get();
 - 
 
276 
 
 - 
 
277 
    if (active_bkpt != NULL) {
 - 
 
278 
        assert(active_bkpt->arch.bs.address == brk_addr);
 - 
 
279 
        b = active_bkpt;
 - 
 
280 
 
 - 
 
281 
        /* A breakpoint-restoring BRK has been hit */
 - 
 
282 
        cons_printf("restoring breakpoint %d\n", b->id);
 - 
 
283 
        for (i = 0; i < b->arch.n_next; ++i) {
 - 
 
284 
            rc = bstore_pop(&b->arch.next_bs[i]);
 - 
 
285 
            if (rc != 0) return;
 - 
 
286 
        }
 - 
 
287 
 
 - 
 
288 
        rc = bstore_push(&b->arch.bs, b->addr, OPCODE_BREAK);
 - 
 
289 
        if (rc != 0) return;
 - 
 
290 
        active_bkpt = NULL;
 - 
 
291 
        return;
 - 
 
292 
    }
 - 
 
293 
 
 - 
 
294 
    b = breakpoint_find_by_addr(brk_addr);
 - 
 
295 
    if (b == NULL) {
 - 
 
296 
        cons_printf("Unrecognized breakpoint at 0x%lx\n", brk_addr);
 - 
 
297 
    }
 - 
 
298 
 
 - 
 
299 
    /* A breakpoint has been hit */
 - 
 
300 
    cons_printf("breakpoint_hit...\n");
 - 
 
301 
    breakpoint_hit(b);
 - 
 
302 
 
 - 
 
303 
    /* While in breakpoint_hit(), singlestep was activated */
 - 
 
304 
    if (dt->arch.singlestep) return;
 - 
 
305 
 
 - 
 
306 
    cons_printf("move breakpoint\b");
 - 
 
307 
    rc = bstore_pop(&b->arch.bs);
 - 
 
308 
    if (rc != 0) return;
 - 
 
309 
 
 - 
 
310 
    n_next = get_next_addr(brk_addr, next_addr);
 - 
 
311 
    if (n_next < 0) return;
 - 
 
312 
 
 - 
 
313 
    /*
 - 
 
314 
     * There could be another breakpoint at next_addr,
 - 
 
315 
     * but that's okay. We'll pop the active breakpoint bs
 - 
 
316 
     * before doing anything else.
 - 
 
317 
     */
 - 
 
318 
    for (i = 0; i < n_next; ++i) {
 - 
 
319 
        rc = bstore_push(&b->arch.next_bs[i], next_addr[i],
 - 
 
320 
            OPCODE_BREAK);
 - 
 
321 
        if (rc != 0) return;
 - 
 
322 
    }
 - 
 
323 
    b->arch.n_next = n_next;
 - 
 
324 
 
 - 
 
325 
    active_bkpt = b;
 - 
 
326 
    b->active = true;
 - 
 
327 
 
 - 
 
328 
    cons_printf("end_hit...\n");
 - 
 
329 
}
 - 
 
330 
 
 - 
 
331 
 
 - 
 
332 
static void _ev_singlestep(thash_t thread_hash)
 - 
 
333 
{
 - 
 
334 
    dthread_t *dt;
 - 
 
335 
    int rc, i;
 - 
 
336 
    uint32_t epc;
 - 
 
337 
    int brk_addr;
 - 
 
338 
    uint32_t brkp;
 - 
 
339 
 
 - 
 
340 
    dt = dthread_get();
 - 
 
341 
 
 - 
 
342 
    assert(active_bkpt == NULL);
 - 
 
343 
    assert(dt->arch.singlestep);
 - 
 
344 
    brkp = OPCODE_BREAK;
 - 
 
345 
 
 - 
 
346 
    cons_printf("arch_event_breakpoint\n");
 - 
 
347 
 
 - 
 
348 
    rc = udebug_regs_read(app_phone, thread_hash, &istate);
 - 
 
349 
    cons_printf("udebug_regs_read -> %d\n", rc);
 - 
 
350 
    epc = istate_get_pc(&istate);
 - 
 
351 
    cons_printf("EPC was 0x%08x\n", epc);
 - 
 
352 
    brk_addr = epc;
 - 
 
353 
 
 - 
 
354 
    if (dt->arch.cur.valid) {
 - 
 
355 
        cons_printf("restore breakpoint BREAK\n");
 - 
 
356 
        rc = bstore_pop(&dt->arch.cur);
 - 
 
357 
    }
 - 
 
358 
 
 - 
 
359 
    cons_printf("\nclear singlestep BREAKs\n");
 - 
 
360 
    for (i = 0; i < dt->arch.n_next; ++i) {
 - 
 
361 
        rc = bstore_pop(&dt->arch.next[i]);
 - 
 
362 
        if (rc != 0) return;
 - 
 
363 
    }
 - 
 
364 
 
 - 
 
365 
    dt->arch.singlestep = false;
 - 
 
366 
 
 - 
 
367 
    singlestep_hit();
 - 
 
368 
}
 - 
 
369 
 
 - 
 
370 
 
 - 
 
371 
void arch_event_breakpoint(thash_t thread_hash)
 258 
void arch_event_breakpoint(thash_t thread_hash)
372 
{
 259 
{
373 
    dthread_t *dt;
 - 
 
374 
 
 - 
 
375 
    dt = dthread_get();
 - 
 
376 
    if (dt->arch.singlestep) {
 - 
 
377 
        _ev_singlestep(thread_hash);
 - 
 
378 
    } else {
 - 
 
379 
        _ev_breakpoint(thread_hash);
 260 
    idec_event_breakpoint(thread_hash);
380 
    }
 - 
 
381 
}
 261 
}
382 
 
 262 
 
383 
void arch_event_trap(dthread_t *dt)
 263 
void arch_event_trap(dthread_t *dt)
384 
{
 264 
{
385 
    /* Unused */
 265 
    /* Unused */
Line 391... Line 271...
391 
    /* TODO */
 271 
    /* TODO */
392 
}
 272 
}
393 
 
 273 
 
394 
void arch_singlestep(dthread_t *dt)
 274 
void arch_singlestep(dthread_t *dt)
395 
{
 275 
{
396 
    int rc, i;
 - 
 
397 
    uint32_t epc;
 - 
 
398 
    breakpoint_t *b;
 - 
 
399 
    uint32_t old_instr;
 - 
 
400 
    uintptr_t next_addr[2];
 - 
 
401 
    int n_next;
 - 
 
402 
 
 - 
 
403 
    assert(active_bkpt == NULL);
 - 
 
404 
    assert(dt->arch.singlestep == false);
 - 
 
405 
 
 - 
 
406 
    cons_printf("arch_singlestep(dt)\n");
 - 
 
407 
    rc = udebug_regs_read(app_phone, dt->hash, &istate);
 - 
 
408 
    cons_printf("udebug_regs_read -> %d\n", rc);
 - 
 
409 
    epc = istate_get_pc(&istate);
 - 
 
410 
    cons_printf("EPC was 0x%08x\n", epc);
 - 
 
411 
 
 - 
 
412 
    cons_printf("initial set singlestep\n");
 - 
 
413 
    b = breakpoint_find_by_addr(epc);
 - 
 
414 
    if (b != NULL) {
 - 
 
415 
        /* Cover breakpoint with old instruction */
 - 
 
416 
        old_instr = b->arch.bs.value;
 - 
 
417 
        rc = bstore_push(&dt->arch.cur, epc, old_instr);
 - 
 
418 
        if (rc < 0) return;
 - 
 
419 
    }
 - 
 
420 
 
 - 
 
421 
    n_next = get_next_addr(epc, next_addr);
 - 
 
422 
    if (n_next < 0) return;
 - 
 
423 
 
 - 
 
424 
    /* Cover next instruction(s) with BREAK */
 - 
 
425 
    for (i = 0; i < n_next; ++i) {
 - 
 
426 
        rc = bstore_push(&dt->arch.next[i], next_addr[i], OPCODE_BREAK);
 - 
 
427 
        if (rc != 0) return;
 - 
 
428 
    }
 - 
 
429 
    dt->arch.n_next = n_next;
 - 
 
430 
 
 - 
 
431 
    dt->arch.singlestep = true;
 276 
    idec_singlestep(dt);
432 
    dthread_resume(dt);
 - 
 
433 
}
 277 
}
434 
 
 278 
 
435 
/** @}
 279 
/** @}
436 
 */
 280 
 */