+/* This file is part of the Linux Trace Toolkit viewer
+ * Copyright (C) 2003-2004 Mathieu Desnoyers
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License Version 2 as
+ * published by the Free Software Foundation;
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
+ * MA 02111-1307, USA.
+ */
+
+
+/*****************************************************************************
+ * Hooks to be called by the main window *
+ *****************************************************************************/
+
+
+/* Event hooks are the drawing hooks called during traceset read. They draw the
+ * icons, text, lines and background color corresponding to the events read.
+ *
+ * Two hooks are used for drawing : before_schedchange and after_schedchange hooks. The
+ * before_schedchange is called before the state update that occurs with an event and
+ * the after_schedchange hook is called after this state update.
+ *
+ * The before_schedchange hooks fulfill the task of drawing the visible objects that
+ * corresponds to the data accumulated by the after_schedchange hook.
+ *
+ * The after_schedchange hook accumulates the data that need to be shown on the screen
+ * (items) into a queue. Then, the next before_schedchange hook will draw what that
+ * queue contains. That's the Right Way (TM) of drawing items on the screen,
+ * because we need to draw the background first (and then add icons, text, ...
+ * over it), but we only know the length of a background region once the state
+ * corresponding to it is over, which happens to be at the next before_schedchange
+ * hook.
+ *
+ * We also have a hook called at the end of a chunk to draw the information left
+ * undrawn in each process queue. We use the current time as end of
+ * line/background.
+ */
+
+#ifdef HAVE_CONFIG_H
+#include <config.h>
+#endif
+
+//#define PANGO_ENABLE_BACKEND
+#include <gtk/gtk.h>
+#include <gdk/gdk.h>
+#include <glib.h>
+#include <assert.h>
+#include <string.h>
+#include <stdio.h>
+
+//#include <pango/pango.h>
+
+#include <ltt/event.h>
+#include <ltt/time.h>
+#include <ltt/type.h>
+#include <ltt/trace.h>
+
+#include <lttv/lttv.h>
+#include <lttv/hook.h>
+#include <lttv/state.h>
+#include <lttvwindow/lttvwindow.h>
+#include <lttvwindow/lttvwindowtraces.h>
+#include <lttvwindow/support.h>
+
+
+#include "eventhooks.h"
+#include "cfv.h"
+#include "processlist.h"
+#include "drawing.h"
+
+
+#define MAX_PATH_LEN 256
+#define STATE_LINE_WIDTH 4
+#define COLLISION_POSITION(height) (((height - STATE_LINE_WIDTH)/2) -3)
+
+extern GSList *g_legend_list;
+
+
+/* Action to do when background computation completed.
+ *
+ * Wait for all the awaited computations to be over.
+ */
+
+static gint background_ready(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData *)hook_data;
+ LttvTrace *trace = (LttvTrace*)call_data;
+
+ control_flow_data->background_info_waiting--;
+
+ if(control_flow_data->background_info_waiting == 0) {
+ g_message("control flow viewer : background computation data ready.");
+
+ drawing_clear(control_flow_data->drawing);
+ processlist_clear(control_flow_data->process_list);
+ gtk_widget_set_size_request(
+ control_flow_data->drawing->drawing_area,
+ -1, processlist_get_height(control_flow_data->process_list));
+ redraw_notify(control_flow_data, NULL);
+ }
+
+ return 0;
+}
+
+
+/* Request background computation. Verify if it is in progress or ready first.
+ * Only for each trace in the tab's traceset.
+ */
+static void request_background_data(ControlFlowData *control_flow_data)
+{
+ LttvTracesetContext * tsc =
+ lttvwindow_get_traceset_context(control_flow_data->tab);
+ gint num_traces = lttv_traceset_number(tsc->ts);
+ gint i;
+ LttvTrace *trace;
+ LttvTraceState *tstate;
+
+ LttvHooks *background_ready_hook =
+ lttv_hooks_new();
+ lttv_hooks_add(background_ready_hook, background_ready, control_flow_data,
+ LTTV_PRIO_DEFAULT);
+ control_flow_data->background_info_waiting = 0;
+
+ for(i=0;i<num_traces;i++) {
+ trace = lttv_traceset_get(tsc->ts, i);
+ tstate = LTTV_TRACE_STATE(tsc->traces[i]);
+
+ if(lttvwindowtraces_get_ready(g_quark_from_string("state"),trace)==FALSE
+ && !tstate->has_precomputed_states) {
+
+ if(lttvwindowtraces_get_in_progress(g_quark_from_string("state"),
+ trace) == FALSE) {
+ /* We first remove requests that could have been done for the same
+ * information. Happens when two viewers ask for it before servicing
+ * starts.
+ */
+ if(!lttvwindowtraces_background_request_find(trace, "state"))
+ lttvwindowtraces_background_request_queue(
+ main_window_get_widget(control_flow_data->tab), trace, "state");
+ lttvwindowtraces_background_notify_queue(control_flow_data,
+ trace,
+ ltt_time_infinite,
+ NULL,
+ background_ready_hook);
+ control_flow_data->background_info_waiting++;
+ } else { /* in progress */
+
+ lttvwindowtraces_background_notify_current(control_flow_data,
+ trace,
+ ltt_time_infinite,
+ NULL,
+ background_ready_hook);
+ control_flow_data->background_info_waiting++;
+ }
+ } else {
+ /* Data ready. By its nature, this viewer doesn't need to have
+ * its data ready hook called there, because a background
+ * request is always linked with a redraw.
+ */
+ }
+
+ }
+
+ lttv_hooks_destroy(background_ready_hook);
+}
+
+
+
+
+/**
+ * Event Viewer's constructor hook
+ *
+ * This constructor is given as a parameter to the menuitem and toolbar button
+ * registration. It creates the list.
+ * @param tab A pointer to the parent tab.
+ * @return The widget created.
+ */
+GtkWidget *
+h_guicontrolflow(LttvPlugin *plugin)
+{
+ LttvPluginTab *ptab = LTTV_PLUGIN_TAB(plugin);
+ Tab *tab = ptab->tab;
+ g_info("h_guicontrolflow, %p", tab);
+ ControlFlowData *control_flow_data = guicontrolflow(ptab);
+
+ control_flow_data->tab = tab;
+
+ // Unreg done in the GuiControlFlow_Destructor
+ lttvwindow_register_traceset_notify(tab,
+ traceset_notify,
+ control_flow_data);
+
+ lttvwindow_register_time_window_notify(tab,
+ update_time_window_hook,
+ control_flow_data);
+ lttvwindow_register_current_time_notify(tab,
+ update_current_time_hook,
+ control_flow_data);
+ lttvwindow_register_redraw_notify(tab,
+ redraw_notify,
+ control_flow_data);
+ lttvwindow_register_continue_notify(tab,
+ continue_notify,
+ control_flow_data);
+ request_background_data(control_flow_data);
+
+
+ return guicontrolflow_get_widget(control_flow_data) ;
+
+}
+
+void legend_destructor(GtkWindow *legend)
+{
+ g_legend_list = g_slist_remove(g_legend_list, legend);
+}
+
+/* Create a popup legend */
+GtkWidget *
+h_legend(LttvPlugin *plugin)
+{
+ LttvPluginTab *ptab = LTTV_PLUGIN_TAB(plugin);
+ Tab *tab = ptab->tab;
+ g_info("h_legend, %p", tab);
+
+ GtkWindow *legend = GTK_WINDOW(gtk_window_new(GTK_WINDOW_TOPLEVEL));
+
+ g_legend_list = g_slist_append(
+ g_legend_list,
+ legend);
+
+ g_object_set_data_full(
+ G_OBJECT(legend),
+ "legend",
+ legend,
+ (GDestroyNotify)legend_destructor);
+
+ gtk_window_set_title(legend, "Control Flow View Legend");
+
+ GtkWidget *pixmap = create_pixmap(GTK_WIDGET(legend), "lttv-color-list.png");
+
+ // GtkImage *image = GTK_IMAGE(gtk_image_new_from_pixmap(
+ // GDK_PIXMAP(pixmap), NULL));
+
+ gtk_container_add(GTK_CONTAINER(legend), GTK_WIDGET(pixmap));
+
+ gtk_widget_show(GTK_WIDGET(pixmap));
+ gtk_widget_show(GTK_WIDGET(legend));
+
+
+ return NULL; /* This is a popup window */
+}
+
+
+int event_selected_hook(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData*) hook_data;
+ guint *event_number = (guint*) call_data;
+
+ g_debug("DEBUG : event selected by main window : %u", *event_number);
+
+ return 0;
+}
+
+/* Function that selects the color of status&exemode line */
+static inline PropertiesLine prepare_s_e_line(LttvProcessState *process)
+{
+ PropertiesLine prop_line;
+ prop_line.line_width = STATE_LINE_WIDTH;
+ prop_line.style = GDK_LINE_SOLID;
+ prop_line.y = MIDDLE;
+ //GdkColormap *colormap = gdk_colormap_get_system();
+
+ if(process->state->s == LTTV_STATE_RUN) {
+ if(process->state->t == LTTV_STATE_USER_MODE)
+ prop_line.color = drawing_colors[COL_RUN_USER_MODE];
+ else if(process->state->t == LTTV_STATE_SYSCALL)
+ prop_line.color = drawing_colors[COL_RUN_SYSCALL];
+ else if(process->state->t == LTTV_STATE_TRAP)
+ prop_line.color = drawing_colors[COL_RUN_TRAP];
+ else if(process->state->t == LTTV_STATE_IRQ)
+ prop_line.color = drawing_colors[COL_RUN_IRQ];
+ else if(process->state->t == LTTV_STATE_SOFT_IRQ)
+ prop_line.color = drawing_colors[COL_RUN_SOFT_IRQ];
+ else if(process->state->t == LTTV_STATE_MODE_UNKNOWN)
+ prop_line.color = drawing_colors[COL_MODE_UNKNOWN];
+ else
+ g_assert(FALSE); /* RUNNING MODE UNKNOWN */
+ } else if(process->state->s == LTTV_STATE_WAIT) {
+ /* We don't show if we wait while in user mode, trap, irq or syscall */
+ prop_line.color = drawing_colors[COL_WAIT];
+ } else if(process->state->s == LTTV_STATE_WAIT_CPU) {
+ /* We don't show if we wait for CPU while in user mode, trap, irq
+ * or syscall */
+ prop_line.color = drawing_colors[COL_WAIT_CPU];
+ } else if(process->state->s == LTTV_STATE_ZOMBIE) {
+ prop_line.color = drawing_colors[COL_ZOMBIE];
+ } else if(process->state->s == LTTV_STATE_WAIT_FORK) {
+ prop_line.color = drawing_colors[COL_WAIT_FORK];
+ } else if(process->state->s == LTTV_STATE_EXIT) {
+ prop_line.color = drawing_colors[COL_EXIT];
+ } else if(process->state->s == LTTV_STATE_UNNAMED) {
+ prop_line.color = drawing_colors[COL_UNNAMED];
+ } else {
+ g_critical("unknown state : %s", g_quark_to_string(process->state->s));
+ g_assert(FALSE); /* UNKNOWN STATE */
+ }
+
+ return prop_line;
+
+}
+
+
+/* before_schedchange_hook
+ *
+ * This function basically draw lines and icons. Two types of lines are drawn :
+ * one small (3 pixels?) representing the state of the process and the second
+ * type is thicker (10 pixels?) representing on which CPU a process is running
+ * (and this only in running state).
+ *
+ * Extremums of the lines :
+ * x_min : time of the last event context for this process kept in memory.
+ * x_max : time of the current event.
+ * y : middle of the process in the process list. The process is found in the
+ * list, therefore is it's position in pixels.
+ *
+ * The choice of lines'color is defined by the context of the last event for this
+ * process.
+ */
+
+
+int before_schedchange_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+ gint target_pid_saved = tfc->target_pid;
+
+ LttTime evtime = ltt_event_time(e);
+ LttvFilter *filter = control_flow_data->filter;
+
+ /* we are in a schedchange, before the state update. We must draw the
+ * items corresponding to the state before it changes : now is the right
+ * time to do it.
+ */
+
+ guint pid_out;
+ guint pid_in;
+ {
+ pid_out = ltt_event_get_long_unsigned(e, thf->f1);
+ pid_in = ltt_event_get_long_unsigned(e, thf->f2);
+ }
+
+ tfc->target_pid = pid_out;
+ if(!filter || !filter->head ||
+ lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL)) {
+ /* For the pid_out */
+ /* First, check if the current process is in the state computation
+ * process list. If it is there, that means we must add it right now and
+ * draw items from the beginning of the read for it. If it is not
+ * present, it's a new process and it was not present : it will
+ * be added after the state update. */
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ LttvProcessState *process = ts->running_process[cpu];
+ /* unknown state, bad current pid */
+ if(process->pid != pid_out)
+ process = lttv_state_find_process(ts,
+ tfs->cpu, pid_out);
+
+ if(process != NULL) {
+ /* Well, the process_out existed : we must get it in the process hash
+ * or add it, and draw its items.
+ */
+ /* Add process to process list (if not present) */
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+ ProcessList *process_list = control_flow_data->process_list;
+ LttTime birth = process->creation_time;
+
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid_out,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(hashed_process_data == NULL)
+ {
+ g_assert(pid_out == 0 || pid_out != process->ppid);
+ /* Process not present */
+ ProcessInfo *process_info;
+ Drawing_t *drawing = control_flow_data->drawing;
+ processlist_add(process_list,
+ drawing,
+ pid_out,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+
+ }
+
+ /* Now, the process is in the state hash and our own process hash.
+ * We definitely can draw the items related to the ending state.
+ */
+
+ if(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) > 0)
+ {
+ if(hashed_process_data->x.middle_marked == FALSE) {
+
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ } else {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+
+ /* Jump over draw if we are at the same x position */
+ if(x == hashed_process_data->x.middle &&
+ hashed_process_data->x.middle_used)
+ {
+ if(hashed_process_data->x.middle_marked == FALSE) {
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ /* jump */
+ } else {
+ DrawContext draw_context;
+
+ /* Now create the drawing context that will be used to draw
+ * items related to the last state. */
+ draw_context.drawable = hashed_process_data->pixmap;
+ draw_context.gc = drawing->gc;
+ draw_context.pango_layout = drawing->pango_layout;
+ draw_context.drawinfo.start.x = hashed_process_data->x.middle;
+ draw_context.drawinfo.end.x = x;
+
+ draw_context.drawinfo.y.over = 1;
+ draw_context.drawinfo.y.middle = (hashed_process_data->height/2);
+ draw_context.drawinfo.y.under = hashed_process_data->height;
+
+ draw_context.drawinfo.start.offset.over = 0;
+ draw_context.drawinfo.start.offset.middle = 0;
+ draw_context.drawinfo.start.offset.under = 0;
+ draw_context.drawinfo.end.offset.over = 0;
+ draw_context.drawinfo.end.offset.middle = 0;
+ draw_context.drawinfo.end.offset.under = 0;
+
+ {
+ /* Draw the line */
+ PropertiesLine prop_line = prepare_s_e_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+
+ }
+ /* become the last x position */
+ hashed_process_data->x.middle = x;
+ hashed_process_data->x.middle_used = TRUE;
+ hashed_process_data->x.middle_marked = FALSE;
+
+ /* Calculate the next good time */
+ convert_pixels_to_time(width, x+1, time_window,
+ &hashed_process_data->next_good_time);
+ }
+ }
+ }
+ }
+
+ tfc->target_pid = pid_in;
+ if(!filter || !filter->head ||
+ lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL)) {
+ /* For the pid_in */
+ /* First, check if the current process is in the state computation
+ * process list. If it is there, that means we must add it right now and
+ * draw items from the beginning of the read for it. If it is not
+ * present, it's a new process and it was not present : it will
+ * be added after the state update. */
+ LttvProcessState *process;
+ process = lttv_state_find_process(ts,
+ tfs->cpu, pid_in);
+ guint trace_num = ts->parent.index;
+
+ if(process != NULL) {
+ /* Well, the process existed : we must get it in the process hash
+ * or add it, and draw its items.
+ */
+ /* Add process to process list (if not present) */
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+ ProcessList *process_list = control_flow_data->process_list;
+ LttTime birth = process->creation_time;
+
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid_in,
+ tfs->cpu,
+ &birth,
+ trace_num);
+ if(hashed_process_data == NULL)
+ {
+ g_assert(pid_in == 0 || pid_in != process->ppid);
+ /* Process not present */
+ ProcessInfo *process_info;
+ Drawing_t *drawing = control_flow_data->drawing;
+ processlist_add(process_list,
+ drawing,
+ pid_in,
+ process->tgid,
+ tfs->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+
+ }
+ //We could set the current process and hash here, but will be done
+ //by after schedchange hook
+
+ /* Now, the process is in the state hash and our own process hash.
+ * We definitely can draw the items related to the ending state.
+ */
+
+ if(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) > 0)
+ {
+ if(hashed_process_data->x.middle_marked == FALSE) {
+
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ } else {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+
+ /* Jump over draw if we are at the same x position */
+ if(x == hashed_process_data->x.middle &&
+ hashed_process_data->x.middle_used)
+ {
+ if(hashed_process_data->x.middle_marked == FALSE) {
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ /* jump */
+ } else {
+ DrawContext draw_context;
+
+ /* Now create the drawing context that will be used to draw
+ * items related to the last state. */
+ draw_context.drawable = hashed_process_data->pixmap;
+ draw_context.gc = drawing->gc;
+ draw_context.pango_layout = drawing->pango_layout;
+ draw_context.drawinfo.start.x = hashed_process_data->x.middle;
+ draw_context.drawinfo.end.x = x;
+
+ draw_context.drawinfo.y.over = 1;
+ draw_context.drawinfo.y.middle = (hashed_process_data->height/2);
+ draw_context.drawinfo.y.under = hashed_process_data->height;
+
+ draw_context.drawinfo.start.offset.over = 0;
+ draw_context.drawinfo.start.offset.middle = 0;
+ draw_context.drawinfo.start.offset.under = 0;
+ draw_context.drawinfo.end.offset.over = 0;
+ draw_context.drawinfo.end.offset.middle = 0;
+ draw_context.drawinfo.end.offset.under = 0;
+
+ {
+ /* Draw the line */
+ PropertiesLine prop_line = prepare_s_e_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+ }
+
+
+ /* become the last x position */
+ hashed_process_data->x.middle = x;
+ hashed_process_data->x.middle_used = TRUE;
+ hashed_process_data->x.middle_marked = FALSE;
+
+ /* Calculate the next good time */
+ convert_pixels_to_time(width, x+1, time_window,
+ &hashed_process_data->next_good_time);
+ }
+ }
+ } else
+ g_warning("Cannot find pin_in in schedchange %u", pid_in);
+ }
+ tfc->target_pid = target_pid_saved;
+ return 0;
+
+
+
+
+ /* Text dump */
+#ifdef DONTSHOW
+ GString *string = g_string_new("");;
+ gboolean field_names = TRUE, state = TRUE;
+
+ lttv_event_to_string(e, tfc->tf, string, TRUE, field_names, tfs);
+ g_string_append_printf(string,"\n");
+
+ if(state) {
+ g_string_append_printf(string, " %s",
+ g_quark_to_string(tfs->process->state->s));
+ }
+
+ g_info("%s",string->str);
+
+ g_string_free(string, TRUE);
+
+ /* End of text dump */
+#endif //DONTSHOW
+
+}
+
+/* after_schedchange_hook
+ *
+ * The draw after hook is called by the reading API to have a
+ * particular event drawn on the screen.
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+int after_schedchange_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ /* Add process to process list (if not present) */
+ LttvProcessState *process_in;
+ LttTime birth;
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data_in = NULL;
+
+ ProcessList *process_list = control_flow_data->process_list;
+
+ guint pid_in;
+ {
+ guint pid_out;
+ pid_out = ltt_event_get_long_unsigned(e, thf->f1);
+ pid_in = ltt_event_get_long_unsigned(e, thf->f2);
+ }
+
+
+ /* Find process pid_in in the list... */
+ //process_in = lttv_state_find_process(ts, ANY_CPU, pid_in);
+ //process_in = tfs->process;
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ process_in = ts->running_process[cpu];
+ /* It should exist, because we are after the state update. */
+#ifdef EXTRA_CHECK
+ g_assert(process_in != NULL);
+#endif //EXTRA_CHECK
+ birth = process_in->creation_time;
+
+ hashed_process_data_in = processlist_get_process_data(process_list,
+ pid_in,
+ process_in->cpu,
+ &birth,
+ trace_num);
+ if(hashed_process_data_in == NULL)
+ {
+ g_assert(pid_in == 0 || pid_in != process_in->ppid);
+ ProcessInfo *process_info;
+ Drawing_t *drawing = control_flow_data->drawing;
+ /* Process not present */
+ processlist_add(process_list,
+ drawing,
+ pid_in,
+ process_in->tgid,
+ process_in->cpu,
+ process_in->ppid,
+ &birth,
+ trace_num,
+ process_in->name,
+ process_in->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data_in);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+ /* Set the current process */
+ process_list->current_hash_data[trace_num][process_in->cpu] =
+ hashed_process_data_in;
+
+ if(ltt_time_compare(hashed_process_data_in->next_good_time,
+ evtime) <= 0)
+ {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint new_x;
+
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &new_x);
+
+ if(hashed_process_data_in->x.middle != new_x) {
+ hashed_process_data_in->x.middle = new_x;
+ hashed_process_data_in->x.middle_used = FALSE;
+ hashed_process_data_in->x.middle_marked = FALSE;
+ }
+ }
+ return 0;
+}
+
+
+
+
+/* before_execmode_hook
+ *
+ * This function basically draw lines and icons. Two types of lines are drawn :
+ * one small (3 pixels?) representing the state of the process and the second
+ * type is thicker (10 pixels?) representing on which CPU a process is running
+ * (and this only in running state).
+ *
+ * Extremums of the lines :
+ * x_min : time of the last event context for this process kept in memory.
+ * x_max : time of the current event.
+ * y : middle of the process in the process list. The process is found in the
+ * list, therefore is it's position in pixels.
+ *
+ * The choice of lines'color is defined by the context of the last event for this
+ * process.
+ */
+
+
+int before_execmode_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ /* we are in a execmode, before the state update. We must draw the
+ * items corresponding to the state before it changes : now is the right
+ * time to do it.
+ */
+ /* For the pid */
+ //LttvProcessState *process = tfs->process;
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ LttvProcessState *process = ts->running_process[cpu];
+ g_assert(process != NULL);
+
+ guint pid = process->pid;
+
+ /* Well, the process_out existed : we must get it in the process hash
+ * or add it, and draw its items.
+ */
+ /* Add process to process list (if not present) */
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+ ProcessList *process_list = control_flow_data->process_list;
+ LttTime birth = process->creation_time;
+
+ if(likely(process_list->current_hash_data[trace_num][cpu] != NULL)) {
+ hashed_process_data = process_list->current_hash_data[trace_num][cpu];
+ } else {
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(unlikely(hashed_process_data == NULL))
+ {
+ g_assert(pid == 0 || pid != process->ppid);
+ ProcessInfo *process_info;
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ processlist_add(process_list,
+ drawing,
+ pid,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+ /* Set the current process */
+ process_list->current_hash_data[trace_num][process->cpu] =
+ hashed_process_data;
+ }
+
+ /* Now, the process is in the state hash and our own process hash.
+ * We definitely can draw the items related to the ending state.
+ */
+
+ if(likely(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) > 0))
+ {
+ if(unlikely(hashed_process_data->x.middle_marked == FALSE)) {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ } else {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+
+ /* Jump over draw if we are at the same x position */
+ if(unlikely(x == hashed_process_data->x.middle &&
+ hashed_process_data->x.middle_used))
+ {
+ if(unlikely(hashed_process_data->x.middle_marked == FALSE)) {
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ /* jump */
+ } else {
+
+ DrawContext draw_context;
+ /* Now create the drawing context that will be used to draw
+ * items related to the last state. */
+ draw_context.drawable = hashed_process_data->pixmap;
+ draw_context.gc = drawing->gc;
+ draw_context.pango_layout = drawing->pango_layout;
+ draw_context.drawinfo.start.x = hashed_process_data->x.middle;
+ draw_context.drawinfo.end.x = x;
+
+ draw_context.drawinfo.y.over = 1;
+ draw_context.drawinfo.y.middle = (hashed_process_data->height/2);
+ draw_context.drawinfo.y.under = hashed_process_data->height;
+
+ draw_context.drawinfo.start.offset.over = 0;
+ draw_context.drawinfo.start.offset.middle = 0;
+ draw_context.drawinfo.start.offset.under = 0;
+ draw_context.drawinfo.end.offset.over = 0;
+ draw_context.drawinfo.end.offset.middle = 0;
+ draw_context.drawinfo.end.offset.under = 0;
+
+ {
+ /* Draw the line */
+ PropertiesLine prop_line = prepare_s_e_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+
+ }
+ /* become the last x position */
+ hashed_process_data->x.middle = x;
+ hashed_process_data->x.middle_used = TRUE;
+ hashed_process_data->x.middle_marked = FALSE;
+
+ /* Calculate the next good time */
+ convert_pixels_to_time(width, x+1, time_window,
+ &hashed_process_data->next_good_time);
+ }
+ }
+
+ return 0;
+}
+
+/* before_process_exit_hook
+ *
+ * Draw lines for process event.
+ *
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+
+
+int before_process_exit_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ /* Add process to process list (if not present) */
+ //LttvProcessState *process = tfs->process;
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ LttvProcessState *process = ts->running_process[cpu];
+ guint pid = process->pid;
+ LttTime birth;
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+
+ ProcessList *process_list = control_flow_data->process_list;
+
+ g_assert(process != NULL);
+
+ birth = process->creation_time;
+
+ if(likely(process_list->current_hash_data[trace_num][cpu] != NULL)) {
+ hashed_process_data = process_list->current_hash_data[trace_num][cpu];
+ } else {
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(unlikely(hashed_process_data == NULL))
+ {
+ g_assert(pid == 0 || pid != process->ppid);
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ ProcessInfo *process_info;
+ processlist_add(process_list,
+ drawing,
+ pid,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+ }
+
+ /* Now, the process is in the state hash and our own process hash.
+ * We definitely can draw the items related to the ending state.
+ */
+
+ if(likely(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) > 0))
+ {
+ if(unlikely(hashed_process_data->x.middle_marked == FALSE)) {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ } else {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+
+ /* Jump over draw if we are at the same x position */
+ if(unlikely(x == hashed_process_data->x.middle &&
+ hashed_process_data->x.middle_used))
+ {
+ if(unlikely(hashed_process_data->x.middle_marked == FALSE)) {
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ /* jump */
+ } else {
+ DrawContext draw_context;
+
+ /* Now create the drawing context that will be used to draw
+ * items related to the last state. */
+ draw_context.drawable = hashed_process_data->pixmap;
+ draw_context.gc = drawing->gc;
+ draw_context.pango_layout = drawing->pango_layout;
+ draw_context.drawinfo.start.x = hashed_process_data->x.middle;
+ draw_context.drawinfo.end.x = x;
+
+ draw_context.drawinfo.y.over = 1;
+ draw_context.drawinfo.y.middle = (hashed_process_data->height/2);
+ draw_context.drawinfo.y.under = hashed_process_data->height;
+
+ draw_context.drawinfo.start.offset.over = 0;
+ draw_context.drawinfo.start.offset.middle = 0;
+ draw_context.drawinfo.start.offset.under = 0;
+ draw_context.drawinfo.end.offset.over = 0;
+ draw_context.drawinfo.end.offset.middle = 0;
+ draw_context.drawinfo.end.offset.under = 0;
+
+ {
+ /* Draw the line */
+ PropertiesLine prop_line = prepare_s_e_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+
+ }
+ /* become the last x position */
+ hashed_process_data->x.middle = x;
+ hashed_process_data->x.middle_used = TRUE;
+ hashed_process_data->x.middle_marked = FALSE;
+
+ /* Calculate the next good time */
+ convert_pixels_to_time(width, x+1, time_window,
+ &hashed_process_data->next_good_time);
+ }
+ }
+
+ return 0;
+
+}
+
+
+
+/* before_process_release_hook
+ *
+ * Draw lines for process event.
+ *
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+
+
+int before_process_release_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ guint trace_num = ts->parent.index;
+
+ guint pid;
+ {
+ pid = ltt_event_get_long_unsigned(e, thf->f1);
+ }
+
+ /* Add process to process list (if not present) */
+ /* Don't care about the process if it's not in the state hash already :
+ * that means a process that has never done anything in the trace and
+ * unknown suddently gets destroyed : no state meaningful to show. */
+ LttvProcessState *process = lttv_state_find_process(ts, ANY_CPU, pid);
+
+ if(process != NULL) {
+ LttTime birth;
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+
+ ProcessList *process_list = control_flow_data->process_list;
+
+ birth = process->creation_time;
+
+ /* Cannot use current process : this event happens on another process,
+ * action done by the parent. */
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(unlikely(hashed_process_data == NULL))
+ {
+ g_assert(pid == 0 || pid != process->ppid);
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ ProcessInfo *process_info;
+ processlist_add(process_list,
+ drawing,
+ pid,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+
+ /* Now, the process is in the state hash and our own process hash.
+ * We definitely can draw the items related to the ending state.
+ */
+
+ if(likely(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) > 0))
+ {
+ if(unlikely(hashed_process_data->x.middle_marked == FALSE)) {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ } else {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint x;
+
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &x);
+
+
+ /* Jump over draw if we are at the same x position */
+ if(unlikely(x == hashed_process_data->x.middle &&
+ hashed_process_data->x.middle_used))
+ {
+ if(unlikely(hashed_process_data->x.middle_marked == FALSE)) {
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(hashed_process_data->pixmap,
+ drawing->gc,
+ x,
+ COLLISION_POSITION(hashed_process_data->height));
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+ /* jump */
+ } else {
+ DrawContext draw_context;
+
+ /* Now create the drawing context that will be used to draw
+ * items related to the last state. */
+ draw_context.drawable = hashed_process_data->pixmap;
+ draw_context.gc = drawing->gc;
+ draw_context.pango_layout = drawing->pango_layout;
+ draw_context.drawinfo.start.x = hashed_process_data->x.middle;
+ draw_context.drawinfo.end.x = x;
+
+ draw_context.drawinfo.y.over = 1;
+ draw_context.drawinfo.y.middle = (hashed_process_data->height/2);
+ draw_context.drawinfo.y.under = hashed_process_data->height;
+
+ draw_context.drawinfo.start.offset.over = 0;
+ draw_context.drawinfo.start.offset.middle = 0;
+ draw_context.drawinfo.start.offset.under = 0;
+ draw_context.drawinfo.end.offset.over = 0;
+ draw_context.drawinfo.end.offset.middle = 0;
+ draw_context.drawinfo.end.offset.under = 0;
+
+ {
+ /* Draw the line */
+ PropertiesLine prop_line = prepare_s_e_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+
+ }
+ /* become the last x position */
+ hashed_process_data->x.middle = x;
+ hashed_process_data->x.middle_used = TRUE;
+ hashed_process_data->x.middle_marked = FALSE;
+
+ /* Calculate the next good time */
+ convert_pixels_to_time(width, x+1, time_window,
+ &hashed_process_data->next_good_time);
+ }
+ }
+ }
+
+ return 0;
+}
+
+
+
+
+
+/* after_process_fork_hook
+ *
+ * Create the processlist entry for the child process. Put the last
+ * position in x at the current time value.
+ *
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+int after_process_fork_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ guint child_pid;
+ {
+ child_pid = ltt_event_get_long_unsigned(e, thf->f2);
+ }
+
+ /* Add process to process list (if not present) */
+ LttvProcessState *process_child;
+ LttTime birth;
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data_child = NULL;
+
+ ProcessList *process_list = control_flow_data->process_list;
+
+ /* Find child in the list... */
+ process_child = lttv_state_find_process(ts, ANY_CPU, child_pid);
+ /* It should exist, because we are after the state update. */
+ g_assert(process_child != NULL);
+
+ birth = process_child->creation_time;
+ guint trace_num = ts->parent.index;
+
+ /* Cannot use current process, because this action is done by the parent
+ * on its child. */
+ hashed_process_data_child = processlist_get_process_data(process_list,
+ child_pid,
+ process_child->cpu,
+ &birth,
+ trace_num);
+ if(likely(hashed_process_data_child == NULL))
+ {
+ g_assert(child_pid == 0 || child_pid != process_child->ppid);
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ ProcessInfo *process_info;
+ processlist_add(process_list,
+ drawing,
+ child_pid,
+ process_child->tgid,
+ process_child->cpu,
+ process_child->ppid,
+ &birth,
+ trace_num,
+ process_child->name,
+ process_child->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data_child);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ } else {
+ processlist_set_ppid(process_list, process_child->ppid,
+ hashed_process_data_child);
+ processlist_set_tgid(process_list, process_child->tgid,
+ hashed_process_data_child);
+ }
+
+
+ if(likely(ltt_time_compare(hashed_process_data_child->next_good_time,
+ evtime) <= 0))
+ {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint new_x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &new_x);
+
+ if(likely(hashed_process_data_child->x.over != new_x)) {
+ hashed_process_data_child->x.over = new_x;
+ hashed_process_data_child->x.over_used = FALSE;
+ hashed_process_data_child->x.over_marked = FALSE;
+ }
+ if(likely(hashed_process_data_child->x.middle != new_x)) {
+ hashed_process_data_child->x.middle = new_x;
+ hashed_process_data_child->x.middle_used = FALSE;
+ hashed_process_data_child->x.middle_marked = FALSE;
+ }
+ if(likely(hashed_process_data_child->x.under != new_x)) {
+ hashed_process_data_child->x.under = new_x;
+ hashed_process_data_child->x.under_used = FALSE;
+ hashed_process_data_child->x.under_marked = FALSE;
+ }
+ }
+ return 0;
+}
+
+
+
+/* after_process_exit_hook
+ *
+ * Create the processlist entry for the child process. Put the last
+ * position in x at the current time value.
+ *
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+int after_process_exit_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ /* Add process to process list (if not present) */
+ //LttvProcessState *process = tfs->process;
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ LttvProcessState *process = ts->running_process[cpu];
+
+ /* It should exist, because we are after the state update. */
+ g_assert(process != NULL);
+
+ guint pid = process->pid;
+ LttTime birth;
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+
+ ProcessList *process_list = control_flow_data->process_list;
+
+ birth = process->creation_time;
+
+ if(likely(process_list->current_hash_data[trace_num][cpu] != NULL) ){
+ hashed_process_data = process_list->current_hash_data[trace_num][cpu];
+ } else {
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(unlikely(hashed_process_data == NULL))
+ {
+ g_assert(pid == 0 || pid != process->ppid);
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ ProcessInfo *process_info;
+ processlist_add(process_list,
+ drawing,
+ pid,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+
+ /* Set the current process */
+ process_list->current_hash_data[trace_num][process->cpu] =
+ hashed_process_data;
+ }
+
+ if(unlikely(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) <= 0))
+ {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+ guint new_x;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &new_x);
+ if(unlikely(hashed_process_data->x.middle != new_x)) {
+ hashed_process_data->x.middle = new_x;
+ hashed_process_data->x.middle_used = FALSE;
+ hashed_process_data->x.middle_marked = FALSE;
+ }
+ }
+
+ return 0;
+}
+
+
+/* Get the filename of the process to print */
+int after_fs_exec_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ LttvProcessState *process = ts->running_process[cpu];
+ g_assert(process != NULL);
+
+ guint pid = process->pid;
+
+ /* Well, the process_out existed : we must get it in the process hash
+ * or add it, and draw its items.
+ */
+ /* Add process to process list (if not present) */
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+ ProcessList *process_list = control_flow_data->process_list;
+ LttTime birth = process->creation_time;
+
+ if(likely(process_list->current_hash_data[trace_num][cpu] != NULL)) {
+ hashed_process_data = process_list->current_hash_data[trace_num][cpu];
+ } else {
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(unlikely(hashed_process_data == NULL))
+ {
+ g_assert(pid == 0 || pid != process->ppid);
+ ProcessInfo *process_info;
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ processlist_add(process_list,
+ drawing,
+ pid,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+ /* Set the current process */
+ process_list->current_hash_data[trace_num][process->cpu] =
+ hashed_process_data;
+ }
+
+ processlist_set_name(process_list, process->name, hashed_process_data);
+
+ return 0;
+
+}
+
+/* Get the filename of the process to print */
+int after_user_generic_thread_brand_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ guint cpu = tfs->cpu;
+ guint trace_num = ts->parent.index;
+ LttvProcessState *process = ts->running_process[cpu];
+ g_assert(process != NULL);
+
+ guint pid = process->pid;
+
+ /* Well, the process_out existed : we must get it in the process hash
+ * or add it, and draw its items.
+ */
+ /* Add process to process list (if not present) */
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data = NULL;
+ ProcessList *process_list = control_flow_data->process_list;
+ LttTime birth = process->creation_time;
+
+ if(likely(process_list->current_hash_data[trace_num][cpu] != NULL)) {
+ hashed_process_data = process_list->current_hash_data[trace_num][cpu];
+ } else {
+ hashed_process_data = processlist_get_process_data(process_list,
+ pid,
+ process->cpu,
+ &birth,
+ trace_num);
+ if(unlikely(hashed_process_data == NULL))
+ {
+ g_assert(pid == 0 || pid != process->ppid);
+ ProcessInfo *process_info;
+ /* Process not present */
+ Drawing_t *drawing = control_flow_data->drawing;
+ processlist_add(process_list,
+ drawing,
+ pid,
+ process->tgid,
+ process->cpu,
+ process->ppid,
+ &birth,
+ trace_num,
+ process->name,
+ process->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ }
+ /* Set the current process */
+ process_list->current_hash_data[trace_num][process->cpu] =
+ hashed_process_data;
+ }
+
+ processlist_set_brand(process_list, process->brand, hashed_process_data);
+
+ return 0;
+
+}
+
+
+/* after_event_enum_process_hook
+ *
+ * Create the processlist entry for the child process. Put the last
+ * position in x at the current time value.
+ *
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+int after_event_enum_process_hook(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ guint first_cpu, nb_cpus, cpu;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ /* Add process to process list (if not present) */
+ LttvProcessState *process_in;
+ LttTime birth;
+ guint pl_height = 0;
+ HashedProcessData *hashed_process_data_in = NULL;
+
+ ProcessList *process_list = control_flow_data->process_list;
+ guint trace_num = ts->parent.index;
+
+ guint pid_in;
+ {
+ pid_in = ltt_event_get_long_unsigned(e, thf->f1);
+ }
+
+ if(pid_in == 0) {
+ first_cpu = 0;
+ nb_cpus = ltt_trace_get_num_cpu(ts->parent.t);
+ } else {
+ first_cpu = ANY_CPU;
+ nb_cpus = ANY_CPU+1;
+ }
+
+ for(cpu = first_cpu; cpu < nb_cpus; cpu++) {
+ /* Find process pid_in in the list... */
+ process_in = lttv_state_find_process(ts, cpu, pid_in);
+ //process_in = tfs->process;
+ //guint cpu = tfs->cpu;
+ //guint trace_num = ts->parent.index;
+ //process_in = ts->running_process[cpu];
+ /* It should exist, because we are after the state update. */
+ #ifdef EXTRA_CHECK
+ //g_assert(process_in != NULL);
+ #endif //EXTRA_CHECK
+ birth = process_in->creation_time;
+
+ hashed_process_data_in = processlist_get_process_data(process_list,
+ pid_in,
+ process_in->cpu,
+ &birth,
+ trace_num);
+ if(hashed_process_data_in == NULL)
+ {
+ if(pid_in != 0 && pid_in == process_in->ppid)
+ g_critical("TEST %u , %u", pid_in, process_in->ppid);
+ g_assert(pid_in == 0 || pid_in != process_in->ppid);
+ ProcessInfo *process_info;
+ Drawing_t *drawing = control_flow_data->drawing;
+ /* Process not present */
+ processlist_add(process_list,
+ drawing,
+ pid_in,
+ process_in->tgid,
+ process_in->cpu,
+ process_in->ppid,
+ &birth,
+ trace_num,
+ process_in->name,
+ process_in->brand,
+ &pl_height,
+ &process_info,
+ &hashed_process_data_in);
+ gtk_widget_set_size_request(drawing->drawing_area,
+ -1,
+ pl_height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ } else {
+ processlist_set_name(process_list, process_in->name,
+ hashed_process_data_in);
+ processlist_set_ppid(process_list, process_in->ppid,
+ hashed_process_data_in);
+ processlist_set_tgid(process_list, process_in->tgid,
+ hashed_process_data_in);
+ }
+ }
+ return 0;
+}
+
+
+gint update_time_window_hook(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData*) hook_data;
+ Drawing_t *drawing = control_flow_data->drawing;
+ ProcessList *process_list = control_flow_data->process_list;
+
+ const TimeWindowNotifyData *time_window_nofify_data =
+ ((const TimeWindowNotifyData *)call_data);
+
+ TimeWindow *old_time_window =
+ time_window_nofify_data->old_time_window;
+ TimeWindow *new_time_window =
+ time_window_nofify_data->new_time_window;
+
+ /* Update the ruler */
+ drawing_update_ruler(control_flow_data->drawing,
+ new_time_window);
+
+
+ /* Two cases : zoom in/out or scrolling */
+
+ /* In order to make sure we can reuse the old drawing, the scale must
+ * be the same and the new time interval being partly located in the
+ * currently shown time interval. (reuse is only for scrolling)
+ */
+
+ g_info("Old time window HOOK : %lu, %lu to %lu, %lu",
+ old_time_window->start_time.tv_sec,
+ old_time_window->start_time.tv_nsec,
+ old_time_window->time_width.tv_sec,
+ old_time_window->time_width.tv_nsec);
+
+ g_info("New time window HOOK : %lu, %lu to %lu, %lu",
+ new_time_window->start_time.tv_sec,
+ new_time_window->start_time.tv_nsec,
+ new_time_window->time_width.tv_sec,
+ new_time_window->time_width.tv_nsec);
+
+ if( new_time_window->time_width.tv_sec == old_time_window->time_width.tv_sec
+ && new_time_window->time_width.tv_nsec == old_time_window->time_width.tv_nsec)
+ {
+ /* Same scale (scrolling) */
+ g_info("scrolling");
+ LttTime *ns = &new_time_window->start_time;
+ LttTime *nw = &new_time_window->time_width;
+ LttTime *os = &old_time_window->start_time;
+ LttTime *ow = &old_time_window->time_width;
+ LttTime old_end = old_time_window->end_time;
+ LttTime new_end = new_time_window->end_time;
+ //if(ns<os+w<ns+w)
+ //if(ns<os+w && os+w<ns+w)
+ //if(ns<old_end && os<ns)
+ if(ltt_time_compare(*ns, old_end) == -1
+ && ltt_time_compare(*os, *ns) == -1)
+ {
+ g_info("scrolling near right");
+ /* Scroll right, keep right part of the screen */
+ guint x = 0;
+ guint width = control_flow_data->drawing->width;
+ convert_time_to_pixels(
+ *old_time_window,
+ *ns,
+ width,
+ &x);
+
+ /* Copy old data to new location */
+ copy_pixmap_region(process_list,
+ NULL,
+ control_flow_data->drawing->drawing_area->style->black_gc,
+ NULL,
+ x, 0,
+ 0, 0,
+ control_flow_data->drawing->width-x+SAFETY, -1);
+
+ if(drawing->damage_begin == drawing->damage_end)
+ drawing->damage_begin = control_flow_data->drawing->width-x;
+ else
+ drawing->damage_begin = 0;
+
+ drawing->damage_end = control_flow_data->drawing->width;
+
+ /* Clear the data request background, but not SAFETY */
+ rectangle_pixmap(process_list,
+ control_flow_data->drawing->drawing_area->style->black_gc,
+ TRUE,
+ drawing->damage_begin+SAFETY, 0,
+ drawing->damage_end - drawing->damage_begin, // do not overlap
+ -1);
+ gtk_widget_queue_draw(drawing->drawing_area);
+ //gtk_widget_queue_draw_area (drawing->drawing_area,
+ // 0,0,
+ // control_flow_data->drawing->width,
+ // control_flow_data->drawing->height);
+
+ /* Get new data for the rest. */
+ drawing_data_request(control_flow_data->drawing,
+ drawing->damage_begin, 0,
+ drawing->damage_end - drawing->damage_begin,
+ control_flow_data->drawing->height);
+ } else {
+ //if(ns<os<ns+w)
+ //if(ns<os && os<ns+w)
+ //if(ns<os && os<new_end)
+ if(ltt_time_compare(*ns,*os) == -1
+ && ltt_time_compare(*os,new_end) == -1)
+ {
+ g_info("scrolling near left");
+ /* Scroll left, keep left part of the screen */
+ guint x = 0;
+ guint width = control_flow_data->drawing->width;
+ convert_time_to_pixels(
+ *new_time_window,
+ *os,
+ width,
+ &x);
+
+ /* Copy old data to new location */
+ copy_pixmap_region (process_list,
+ NULL,
+ control_flow_data->drawing->drawing_area->style->black_gc,
+ NULL,
+ 0, 0,
+ x, 0,
+ -1, -1);
+
+ if(drawing->damage_begin == drawing->damage_end)
+ drawing->damage_end = x;
+ else
+ drawing->damage_end =
+ control_flow_data->drawing->width;
+
+ drawing->damage_begin = 0;
+
+ rectangle_pixmap (process_list,
+ control_flow_data->drawing->drawing_area->style->black_gc,
+ TRUE,
+ drawing->damage_begin, 0,
+ drawing->damage_end - drawing->damage_begin, // do not overlap
+ -1);
+
+ gtk_widget_queue_draw(drawing->drawing_area);
+ //gtk_widget_queue_draw_area (drawing->drawing_area,
+ // 0,0,
+ // control_flow_data->drawing->width,
+ // control_flow_data->drawing->height);
+
+
+ /* Get new data for the rest. */
+ drawing_data_request(control_flow_data->drawing,
+ drawing->damage_begin, 0,
+ drawing->damage_end - drawing->damage_begin,
+ control_flow_data->drawing->height);
+
+ } else {
+ if(ltt_time_compare(*ns,*os) == 0)
+ {
+ g_info("not scrolling");
+ } else {
+ g_info("scrolling far");
+ /* Cannot reuse any part of the screen : far jump */
+
+
+ rectangle_pixmap (process_list,
+ control_flow_data->drawing->drawing_area->style->black_gc,
+ TRUE,
+ 0, 0,
+ control_flow_data->drawing->width+SAFETY, // do not overlap
+ -1);
+
+ //gtk_widget_queue_draw_area (drawing->drawing_area,
+ // 0,0,
+ // control_flow_data->drawing->width,
+ // control_flow_data->drawing->height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+
+ drawing->damage_begin = 0;
+ drawing->damage_end = control_flow_data->drawing->width;
+
+ drawing_data_request(control_flow_data->drawing,
+ 0, 0,
+ control_flow_data->drawing->width,
+ control_flow_data->drawing->height);
+
+ }
+ }
+ }
+ } else {
+ /* Different scale (zoom) */
+ g_info("zoom");
+
+ rectangle_pixmap (process_list,
+ control_flow_data->drawing->drawing_area->style->black_gc,
+ TRUE,
+ 0, 0,
+ control_flow_data->drawing->width+SAFETY, // do not overlap
+ -1);
+
+ //gtk_widget_queue_draw_area (drawing->drawing_area,
+ // 0,0,
+ // control_flow_data->drawing->width,
+ // control_flow_data->drawing->height);
+ gtk_widget_queue_draw(drawing->drawing_area);
+
+ drawing->damage_begin = 0;
+ drawing->damage_end = control_flow_data->drawing->width;
+
+ drawing_data_request(control_flow_data->drawing,
+ 0, 0,
+ control_flow_data->drawing->width,
+ control_flow_data->drawing->height);
+ }
+
+ /* Update directly when scrolling */
+ gdk_window_process_updates(control_flow_data->drawing->drawing_area->window,
+ TRUE);
+
+ return 0;
+}
+
+gint traceset_notify(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData*) hook_data;
+ Drawing_t *drawing = control_flow_data->drawing;
+
+ if(unlikely(drawing->gc == NULL)) {
+ return FALSE;
+ }
+ if(drawing->dotted_gc == NULL) {
+ return FALSE;
+ }
+
+ drawing_clear(control_flow_data->drawing);
+ processlist_clear(control_flow_data->process_list);
+ gtk_widget_set_size_request(
+ control_flow_data->drawing->drawing_area,
+ -1, processlist_get_height(control_flow_data->process_list));
+ redraw_notify(control_flow_data, NULL);
+
+ request_background_data(control_flow_data);
+
+ return FALSE;
+}
+
+gint redraw_notify(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData*) hook_data;
+ Drawing_t *drawing = control_flow_data->drawing;
+ GtkWidget *widget = drawing->drawing_area;
+
+ drawing->damage_begin = 0;
+ drawing->damage_end = drawing->width;
+
+ /* fun feature, to be separated someday... */
+ drawing_clear(control_flow_data->drawing);
+ processlist_clear(control_flow_data->process_list);
+ gtk_widget_set_size_request(
+ control_flow_data->drawing->drawing_area,
+ -1, processlist_get_height(control_flow_data->process_list));
+ // Clear the images
+ rectangle_pixmap (control_flow_data->process_list,
+ widget->style->black_gc,
+ TRUE,
+ 0, 0,
+ drawing->alloc_width,
+ -1);
+
+ gtk_widget_queue_draw(drawing->drawing_area);
+
+ if(drawing->damage_begin < drawing->damage_end)
+ {
+ drawing_data_request(drawing,
+ drawing->damage_begin,
+ 0,
+ drawing->damage_end-drawing->damage_begin,
+ drawing->height);
+ }
+
+ //gtk_widget_queue_draw_area(drawing->drawing_area,
+ // 0,0,
+ // drawing->width,
+ // drawing->height);
+ return FALSE;
+
+}
+
+
+gint continue_notify(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData*) hook_data;
+ Drawing_t *drawing = control_flow_data->drawing;
+
+ //g_assert(widget->allocation.width == drawing->damage_end);
+
+ if(drawing->damage_begin < drawing->damage_end)
+ {
+ drawing_data_request(drawing,
+ drawing->damage_begin,
+ 0,
+ drawing->damage_end-drawing->damage_begin,
+ drawing->height);
+ }
+
+ return FALSE;
+}
+
+
+gint update_current_time_hook(void *hook_data, void *call_data)
+{
+ ControlFlowData *control_flow_data = (ControlFlowData*)hook_data;
+ Drawing_t *drawing = control_flow_data->drawing;
+
+ LttTime current_time = *((LttTime*)call_data);
+
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+ LttTime time_begin = time_window.start_time;
+ LttTime width = time_window.time_width;
+ LttTime half_width;
+ {
+ guint64 time_ll = ltt_time_to_uint64(width);
+ time_ll = time_ll >> 1; /* divide by two */
+ half_width = ltt_time_from_uint64(time_ll);
+ }
+ LttTime time_end = ltt_time_add(time_begin, width);
+
+ LttvTracesetContext * tsc =
+ lttvwindow_get_traceset_context(control_flow_data->tab);
+
+ LttTime trace_start = tsc->time_span.start_time;
+ LttTime trace_end = tsc->time_span.end_time;
+
+ g_info("New current time HOOK : %lu, %lu", current_time.tv_sec,
+ current_time.tv_nsec);
+
+
+
+ /* If current time is inside time interval, just move the highlight
+ * bar */
+
+ /* Else, we have to change the time interval. We have to tell it
+ * to the main window. */
+ /* The time interval change will take care of placing the current
+ * time at the center of the visible area, or nearest possible if we are
+ * at one end of the trace. */
+
+
+ if(ltt_time_compare(current_time, time_begin) < 0)
+ {
+ TimeWindow new_time_window;
+
+ if(ltt_time_compare(current_time,
+ ltt_time_add(trace_start,half_width)) < 0)
+ time_begin = trace_start;
+ else
+ time_begin = ltt_time_sub(current_time,half_width);
+
+ new_time_window.start_time = time_begin;
+ new_time_window.time_width = width;
+ new_time_window.time_width_double = ltt_time_to_double(width);
+ new_time_window.end_time = ltt_time_add(time_begin, width);
+
+ lttvwindow_report_time_window(control_flow_data->tab, new_time_window);
+ }
+ else if(ltt_time_compare(current_time, time_end) > 0)
+ {
+ TimeWindow new_time_window;
+
+ if(ltt_time_compare(current_time, ltt_time_sub(trace_end, half_width)) > 0)
+ time_begin = ltt_time_sub(trace_end,width);
+ else
+ time_begin = ltt_time_sub(current_time,half_width);
+
+ new_time_window.start_time = time_begin;
+ new_time_window.time_width = width;
+ new_time_window.time_width_double = ltt_time_to_double(width);
+ new_time_window.end_time = ltt_time_add(time_begin, width);
+
+ lttvwindow_report_time_window(control_flow_data->tab, new_time_window);
+
+ }
+ gtk_widget_queue_draw(control_flow_data->drawing->drawing_area);
+
+ /* Update directly when scrolling */
+ gdk_window_process_updates(control_flow_data->drawing->drawing_area->window,
+ TRUE);
+
+ return 0;
+}
+
+typedef struct _ClosureData {
+ EventsRequest *events_request;
+ LttvTracesetState *tss;
+ LttTime end_time;
+ guint x_end;
+} ClosureData;
+
+
+void draw_closure(gpointer key, gpointer value, gpointer user_data)
+{
+ ProcessInfo *process_info = (ProcessInfo*)key;
+ HashedProcessData *hashed_process_data = (HashedProcessData*)value;
+ ClosureData *closure_data = (ClosureData*)user_data;
+
+ EventsRequest *events_request = closure_data->events_request;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracesetState *tss = closure_data->tss;
+ LttvTracesetContext *tsc = (LttvTracesetContext*)tss;
+
+ LttTime evtime = closure_data->end_time;
+
+ gboolean dodraw = TRUE;
+
+ {
+ /* For the process */
+ /* First, check if the current process is in the state computation
+ * process list. If it is there, that means we must add it right now and
+ * draw items from the beginning of the read for it. If it is not
+ * present, it's a new process and it was not present : it will
+ * be added after the state update. */
+#ifdef EXTRA_CHECK
+ g_assert(lttv_traceset_number(tsc->ts) > 0);
+#endif //EXTRA_CHECK
+ LttvTraceContext *tc = tsc->traces[process_info->trace_num];
+ LttvTraceState *ts = (LttvTraceState*)tc;
+
+#if 0
+ //FIXME : optimize data structures.
+ LttvTracefileState *tfs;
+ LttvTracefileContext *tfc;
+ guint i;
+ for(i=0;i<tc->tracefiles->len;i++) {
+ tfc = g_array_index(tc->tracefiles, LttvTracefileContext*, i);
+ if(ltt_tracefile_name(tfc->tf) == LTT_NAME_CPU
+ && tfs->cpu == process_info->cpu)
+ break;
+
+ }
+ g_assert(i<tc->tracefiles->len);
+ tfs = LTTV_TRACEFILE_STATE(tfc);
+#endif //0
+ // LttvTracefileState *tfs =
+ // (LttvTracefileState*)tsc->traces[process_info->trace_num]->
+ // tracefiles[process_info->cpu];
+
+ LttvProcessState *process;
+ process = lttv_state_find_process(ts, process_info->cpu,
+ process_info->pid);
+
+ if(unlikely(process != NULL)) {
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,NULL,NULL,
+ tc->t,NULL,process,tc))
+ dodraw = FALSE;
+
+ /* Only draw for processes that are currently in the trace states */
+
+ ProcessList *process_list = control_flow_data->process_list;
+#ifdef EXTRA_CHECK
+ /* Should be alike when background info is ready */
+ if(control_flow_data->background_info_waiting==0)
+ g_assert(ltt_time_compare(process->creation_time,
+ process_info->birth) == 0);
+#endif //EXTRA_CHECK
+
+ /* Now, the process is in the state hash and our own process hash.
+ * We definitely can draw the items related to the ending state.
+ */
+
+ if(unlikely(ltt_time_compare(hashed_process_data->next_good_time,
+ evtime) <= 0))
+ {
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+
+#ifdef EXTRA_CHECK
+ if(ltt_time_compare(evtime, time_window.start_time) == -1
+ || ltt_time_compare(evtime, time_window.end_time) == 1)
+ return;
+#endif //EXTRA_CHECK
+ Drawing_t *drawing = control_flow_data->drawing;
+ guint width = drawing->width;
+
+ guint x = closure_data->x_end;
+
+ DrawContext draw_context;
+
+ /* Now create the drawing context that will be used to draw
+ * items related to the last state. */
+ draw_context.drawable = hashed_process_data->pixmap;
+ draw_context.gc = drawing->gc;
+ draw_context.pango_layout = drawing->pango_layout;
+ draw_context.drawinfo.end.x = x;
+
+ draw_context.drawinfo.y.over = 1;
+ draw_context.drawinfo.y.middle = (hashed_process_data->height/2);
+ draw_context.drawinfo.y.under = hashed_process_data->height;
+
+ draw_context.drawinfo.start.offset.over = 0;
+ draw_context.drawinfo.start.offset.middle = 0;
+ draw_context.drawinfo.start.offset.under = 0;
+ draw_context.drawinfo.end.offset.over = 0;
+ draw_context.drawinfo.end.offset.middle = 0;
+ draw_context.drawinfo.end.offset.under = 0;
+#if 0
+ /* Jump over draw if we are at the same x position */
+ if(x == hashed_process_data->x.over)
+ {
+ /* jump */
+ } else {
+ draw_context.drawinfo.start.x = hashed_process_data->x.over;
+ /* Draw the line */
+ PropertiesLine prop_line = prepare_execmode_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+
+ hashed_process_data->x.over = x;
+ }
+#endif //0
+
+ if(unlikely(x == hashed_process_data->x.middle &&
+ hashed_process_data->x.middle_used)) {
+#if 0 /* do not mark closure : not missing information */
+ if(hashed_process_data->x.middle_marked == FALSE) {
+ /* Draw collision indicator */
+ gdk_gc_set_foreground(drawing->gc, &drawing_colors[COL_WHITE]);
+ gdk_draw_point(drawing->pixmap,
+ drawing->gc,
+ x,
+ y+(height/2)-3);
+ hashed_process_data->x.middle_marked = TRUE;
+ }
+#endif //0
+ /* Jump */
+ } else {
+ draw_context.drawinfo.start.x = hashed_process_data->x.middle;
+ /* Draw the line */
+ if(dodraw) {
+ PropertiesLine prop_line = prepare_s_e_line(process);
+ draw_line((void*)&prop_line, (void*)&draw_context);
+ }
+
+ /* become the last x position */
+ if(likely(x != hashed_process_data->x.middle)) {
+ hashed_process_data->x.middle = x;
+ /* but don't use the pixel */
+ hashed_process_data->x.middle_used = FALSE;
+
+ /* Calculate the next good time */
+ convert_pixels_to_time(width, x+1, time_window,
+ &hashed_process_data->next_good_time);
+ }
+ }
+ }
+ }
+ }
+ return;
+}
+
+int before_chunk(void *hook_data, void *call_data)
+{
+ EventsRequest *events_request = (EventsRequest*)hook_data;
+ LttvTracesetState *tss = (LttvTracesetState*)call_data;
+ ControlFlowData *cfd = (ControlFlowData*)events_request->viewer_data;
+#if 0
+ /* Desactivate sort */
+ gtk_tree_sortable_set_sort_column_id(
+ GTK_TREE_SORTABLE(cfd->process_list->list_store),
+ TRACE_COLUMN,
+ GTK_SORT_ASCENDING);
+#endif //0
+ drawing_chunk_begin(events_request, tss);
+
+ return 0;
+}
+
+int before_request(void *hook_data, void *call_data)
+{
+ EventsRequest *events_request = (EventsRequest*)hook_data;
+ LttvTracesetState *tss = (LttvTracesetState*)call_data;
+
+ drawing_data_request_begin(events_request, tss);
+
+ return 0;
+}
+
+
+/*
+ * after request is necessary in addition of after chunk in order to draw
+ * lines until the end of the screen. after chunk just draws lines until
+ * the last event.
+ *
+ * for each process
+ * draw closing line
+ * expose
+ */
+int after_request(void *hook_data, void *call_data)
+{
+ EventsRequest *events_request = (EventsRequest*)hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+ LttvTracesetState *tss = (LttvTracesetState*)call_data;
+
+ ProcessList *process_list = control_flow_data->process_list;
+ LttTime end_time = events_request->end_time;
+
+ ClosureData closure_data;
+ closure_data.events_request = (EventsRequest*)hook_data;
+ closure_data.tss = tss;
+ closure_data.end_time = end_time;
+
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+ guint width = control_flow_data->drawing->width;
+ convert_time_to_pixels(
+ time_window,
+ end_time,
+ width,
+ &closure_data.x_end);
+
+
+ /* Draw last items */
+ g_hash_table_foreach(process_list->process_hash, draw_closure,
+ (void*)&closure_data);
+
+
+ /* Request expose */
+ drawing_request_expose(events_request, tss, end_time);
+ return 0;
+}
+
+/*
+ * for each process
+ * draw closing line
+ * expose
+ */
+int after_chunk(void *hook_data, void *call_data)
+{
+ EventsRequest *events_request = (EventsRequest*)hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+ LttvTracesetState *tss = (LttvTracesetState*)call_data;
+ LttvTracesetContext *tsc = (LttvTracesetContext*)call_data;
+ LttvTracefileContext *tfc = lttv_traceset_context_get_current_tfc(tsc);
+ LttTime end_time;
+
+ ProcessList *process_list = control_flow_data->process_list;
+ guint i;
+ LttvTraceset *traceset = tsc->ts;
+ guint nb_trace = lttv_traceset_number(traceset);
+
+ /* Only execute when called for the first trace's events request */
+ if(!process_list->current_hash_data) return;
+
+ for(i = 0 ; i < nb_trace ; i++) {
+ g_free(process_list->current_hash_data[i]);
+ }
+ g_free(process_list->current_hash_data);
+ process_list->current_hash_data = NULL;
+
+ if(tfc != NULL)
+ end_time = LTT_TIME_MIN(tfc->timestamp, events_request->end_time);
+ else /* end of traceset, or position now out of request : end */
+ end_time = events_request->end_time;
+
+ ClosureData closure_data;
+ closure_data.events_request = (EventsRequest*)hook_data;
+ closure_data.tss = tss;
+ closure_data.end_time = end_time;
+
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+ guint width = control_flow_data->drawing->width;
+ convert_time_to_pixels(
+ time_window,
+ end_time,
+ width,
+ &closure_data.x_end);
+
+ /* Draw last items */
+ g_hash_table_foreach(process_list->process_hash, draw_closure,
+ (void*)&closure_data);
+#if 0
+ /* Reactivate sort */
+ gtk_tree_sortable_set_sort_column_id(
+ GTK_TREE_SORTABLE(control_flow_data->process_list->list_store),
+ GTK_TREE_SORTABLE_DEFAULT_SORT_COLUMN_ID,
+ GTK_SORT_ASCENDING);
+
+ update_index_to_pixmap(control_flow_data->process_list);
+ /* Request a full expose : drawing scrambled */
+ gtk_widget_queue_draw(control_flow_data->drawing->drawing_area);
+#endif //0
+ /* Request expose (updates damages zone also) */
+ drawing_request_expose(events_request, tss, end_time);
+
+ return 0;
+}
+
+/* after_statedump_end
+ *
+ * @param hook_data ControlFlowData structure of the viewer.
+ * @param call_data Event context.
+ *
+ * This function adds items to be drawn in a queue for each process.
+ *
+ */
+int before_statedump_end(void *hook_data, void *call_data)
+{
+ LttvTraceHookByFacility *thf = (LttvTraceHookByFacility*)hook_data;
+ EventsRequest *events_request = (EventsRequest*)thf->hook_data;
+ ControlFlowData *control_flow_data = events_request->viewer_data;
+
+ LttvTracefileContext *tfc = (LttvTracefileContext *)call_data;
+
+ LttvTracefileState *tfs = (LttvTracefileState *)call_data;
+
+ LttvTraceState *ts = (LttvTraceState *)tfc->t_context;
+
+ LttvTracesetState *tss = (LttvTracesetState*)tfc->t_context->ts_context;
+ ProcessList *process_list = control_flow_data->process_list;
+
+ LttEvent *e;
+ e = ltt_tracefile_get_event(tfc->tf);
+
+ LttvFilter *filter = control_flow_data->filter;
+ if(filter != NULL && filter->head != NULL)
+ if(!lttv_filter_tree_parse(filter->head,e,tfc->tf,
+ tfc->t_context->t,tfc,NULL,NULL))
+ return FALSE;
+
+ LttTime evtime = ltt_event_time(e);
+
+ ClosureData closure_data;
+ closure_data.events_request = events_request;
+ closure_data.tss = tss;
+ closure_data.end_time = evtime;
+
+ TimeWindow time_window =
+ lttvwindow_get_time_window(control_flow_data->tab);
+ guint width = control_flow_data->drawing->width;
+ convert_time_to_pixels(
+ time_window,
+ evtime,
+ width,
+ &closure_data.x_end);
+
+ /* Draw last items */
+ g_hash_table_foreach(process_list->process_hash, draw_closure,
+ (void*)&closure_data);
+#if 0
+ /* Reactivate sort */
+ gtk_tree_sortable_set_sort_column_id(
+ GTK_TREE_SORTABLE(control_flow_data->process_list->list_store),
+ GTK_TREE_SORTABLE_DEFAULT_SORT_COLUMN_ID,
+ GTK_SORT_ASCENDING);
+
+ update_index_to_pixmap(control_flow_data->process_list);
+ /* Request a full expose : drawing scrambled */
+ gtk_widget_queue_draw(control_flow_data->drawing->drawing_area);
+#endif //0
+ /* Request expose (updates damages zone also) */
+ drawing_request_expose(events_request, tss, evtime);
+
+ return 0;
+}