#include <ltt/type.h>
#include <stdio.h>
+#define PREALLOCATED_EXECUTION_STACK 10
+
LttvExecutionMode
LTTV_STATE_MODE_UNKNOWN,
LTTV_STATE_USER_MODE,
LTTV_STATE_WAIT_FORK,
LTTV_STATE_WAIT_CPU,
LTTV_STATE_EXIT,
+ LTTV_STATE_ZOMBIE,
LTTV_STATE_WAIT,
LTTV_STATE_RUN;
guint process_hash(gconstpointer key)
{
- return ((const LttvProcessState *)key)->pid;
+ guint pid = ((const LttvProcessState *)key)->pid;
+ return (pid>>8 ^ pid>>4 ^ pid>>2 ^ pid) ;
}
tfcs->process = lttv_state_create_process(tfcs, NULL,0);
tfcs->process->state->s = LTTV_STATE_RUN;
tfcs->process->last_cpu = tfcs->cpu_name;
+ tfcs->process->last_cpu_index = ((LttvTracefileContext*)tfcs)->index;
}
}
process = (LttvProcessState *)value;
new_process = g_new(LttvProcessState, 1);
*new_process = *process;
- new_process->execution_stack = g_array_new(FALSE, FALSE,
- sizeof(LttvExecutionState));
+ new_process->execution_stack = g_array_sized_new(FALSE, FALSE,
+ sizeof(LttvExecutionState), PREALLOCATED_EXECUTION_STACK);
g_array_set_size(new_process->execution_stack,process->execution_stack->len);
for(i = 0 ; i < process->execution_stack->len; i++) {
g_array_index(new_process->execution_stack, LttvExecutionState, i) =
process->pid = pid;
process->last_cpu = tfs->cpu_name;
+ process->last_cpu_index = ((LttvTracefileContext*)tfs)->index;
g_warning("Process %u, core %p", process->pid, process);
g_hash_table_insert(tcs->processes, process, process);
process->creation_time.tv_nsec);
process->pid_time = g_quark_from_string(buffer);
process->last_cpu = tfs->cpu_name;
- process->execution_stack = g_array_new(FALSE, FALSE,
- sizeof(LttvExecutionState));
+ process->last_cpu_index = ((LttvTracefileContext*)tfs)->index;
+ process->execution_stack = g_array_sized_new(FALSE, FALSE,
+ sizeof(LttvExecutionState), PREALLOCATED_EXECUTION_STACK);
g_array_set_size(process->execution_stack, 1);
es = process->state = &g_array_index(process->execution_stack,
LttvExecutionState, 0);
return process;
}
-LttvProcessState *
-lttv_state_find_process_from_trace(LttvTraceState *ts, GQuark cpu, guint pid)
+LttvProcessState *lttv_state_find_process(LttvTracefileState *tfs,
+ guint pid)
{
LttvProcessState key;
LttvProcessState *process;
+ LttvTraceState* ts = (LttvTraceState*)tfs->parent.t_context;
+
key.pid = pid;
- key.last_cpu = cpu;
+ key.last_cpu = tfs->cpu_name;
process = g_hash_table_lookup(ts->processes, &key);
return process;
}
-
-LttvProcessState *lttv_state_find_process(LttvTracefileState *tfs,
- guint pid)
-{
- LttvTraceState *ts =(LttvTraceState *)tfs->parent.t_context;
- return lttv_state_find_process_from_trace(ts, tfs->cpu_name, pid);
-}
-
-
LttvProcessState *
lttv_state_find_process_or_create(LttvTracefileState *tfs, guint pid)
{
return process;
}
-
+/* FIXME : this function should be called when we receive an event telling that
+ * release_task has been called in the kernel. In happens generally when
+ * the parent waits for its child terminaison, but may also happen in special
+ * cases in the child's exit : when the parent ignores its children SIGCCHLD or
+ * has the flag SA_NOCLDWAIT. It can also happen when the child is part
+ * of a killed thread ground, but isn't the leader.
+ */
static void exit_process(LttvTracefileState *tfs, LttvProcessState *process)
{
LttvTraceState *ts = LTTV_TRACE_STATE(tfs->parent.t_context);
g_assert(s->process->pid == 0);
}
- if(state_out == 0) s->process->state->s = LTTV_STATE_WAIT_CPU;
- else if(s->process->state->s == LTTV_STATE_EXIT)
- exit_process(s, s->process);
- else s->process->state->s = LTTV_STATE_WAIT;
+ if(s->process->state->s == LTTV_STATE_EXIT) {
+ s->process->state->s = LTTV_STATE_ZOMBIE;
+ } else {
+ if(state_out == 0) s->process->state->s = LTTV_STATE_WAIT_CPU;
+ else s->process->state->s = LTTV_STATE_WAIT;
+ } /* FIXME : we do not remove process here, because the kernel
+ * still has them : they may be zombies. We need to know
+ * exactly when release_task is executed on the PID to
+ * know when the zombie is destroyed.
+ */
+ //else
+ // exit_process(s, s->process);
s->process->state->change = s->parent.timestamp;
}
s->process = lttv_state_find_process_or_create(s, pid_in);
s->process->state->s = LTTV_STATE_RUN;
s->process->last_cpu = s->cpu_name;
+ s->process->last_cpu_index = ((LttvTracefileContext*)s)->index;
s->process->state->change = s->parent.timestamp;
return FALSE;
}
{
LttField *f;
guint child_pid;
+ LttvProcessState *zombie_process;
/* Child PID */
f = trace_hook->f2;
child_pid = ltt_event_get_unsigned(s->parent.e, f);
- lttv_state_create_process(s, s->process, child_pid);
+ zombie_process = lttv_state_find_process(s, child_pid);
- return FALSE;
-#if 0
- LttField *f = ((LttvTraceHook *)hook_data)->f1;
-
- LttvTracefileState *s = (LttvTracefileState *)call_data;
-
- guint child_pid;
-
- child_pid = ltt_event_get_unsigned(s->parent.e, f);
+ if(zombie_process != NULL) {
+ /* Reutilisation of PID. Only now we are sure that the old PID
+ * has been released. FIXME : sould know when release_task happens instead.
+ */
+ exit_process(s, zombie_process);
+ }
+ g_assert(s->process->pid != child_pid);
lttv_state_create_process(s, s->process, child_pid);
+
return FALSE;
-#endif //0
}
s->process->state->s = LTTV_STATE_EXIT;
}
return FALSE;
-
-#if 0
- LttvTracefileState *s = (LttvTracefileState *)call_data;
-
- if(s->process != NULL) {
- s->process->state->s = LTTV_STATE_EXIT;
- }
- return FALSE;
-#endif //0
}
gboolean process(void *hook_data, void *call_data)
LTTV_STATE_SUBMODE_NONE = g_quark_from_string("(no submode)");
LTTV_STATE_WAIT_CPU = g_quark_from_string("wait for cpu");
LTTV_STATE_EXIT = g_quark_from_string("exiting");
+ LTTV_STATE_ZOMBIE = g_quark_from_string("zombie");
LTTV_STATE_WAIT = g_quark_from_string("wait for I/O");
LTTV_STATE_RUN = g_quark_from_string("running");
LTTV_STATE_TRACEFILES = g_quark_from_string("tracefiles");