LTT_EVENT_EXEC,
LTT_EVENT_ENUM_PROCESS_STATE,
LTT_EVENT_FUNCTION_ENTRY,
- LTT_EVENT_FUNCTION_EXIT;
+ LTT_EVENT_FUNCTION_EXIT,
+ LTT_EVENT_THREAD_BRAND;
/* Fields Quarks */
LTT_FIELD_PID,
LTT_FIELD_FILENAME,
LTT_FIELD_NAME,
+ LTT_FIELD_TYPE,
LTT_FIELD_MODE,
LTT_FIELD_SUBMODE,
LTT_FIELD_STATUS,
extern LttvProcessStatus
LTTV_STATE_UNNAMED,
+ LTTV_STATE_UNBRANDED,
LTTV_STATE_WAIT_FORK,
LTTV_STATE_WAIT_CPU,
LTTV_STATE_EXIT,
LTTV_STATE_RUN,
LTTV_STATE_DEAD;
+typedef GQuark LttvProcessType;
+
+extern LttvProcessType
+ LTTV_STATE_USER_THREAD,
+ LTTV_STATE_KERNEL_THREAD;
typedef struct _LttvExecutionState {
LttvExecutionMode t;
LttTime creation_time;
LttTime insertion_time;
GQuark name;
+ GQuark brand;
GQuark pid_time;
GArray *execution_stack; /* Array of LttvExecutionState */
LttvExecutionState *state; /* Top of interrupt stack */
* (Mathieu) */
guint cpu; /* CPU where process is scheduled (being either in
the active or inactive runqueue)*/
- gboolean kernel_thread; /* Is this thread a kernel_thread ? */
// guint last_tracefile_index; /* index in the trace for cpu tracefile */
LttvTracefileState *usertrace; /* Associated usertrace */
/* opened file descriptors, address map?... */
GArray *user_stack; /* User space function call stack */
guint64 current_function;
+ LttvProcessType type; /* kernel thread or user space ? */
} LttvProcessState;
#define ANY_CPU 0 /* For clarity sake : a call to lttv_state_find_process for
/* Block/char devices, locks, memory pages... */
GQuark *eventtype_names;
GQuark *syscall_names;
- guint nb_syscalls;
+ guint nb_syscalls;
GQuark *trap_names;
+ guint nb_traps;
GQuark *irq_names;
GQuark *soft_irq_names;
LttTime *max_time_state_recomputed_in_seek;