Modify framebuffer and NGA framebuffer to read screen size from board model dtb file. Optimise memory usuage of frame buffer
Add example minigui application with hooks to profiler (which writes results to S:\). Modified NGA framebuffer to run its own dfc queue at high priority
/*
* GUI XML parser
*
* Copyright (c) 2009 CodeSourcery
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "stdio.h"
#include "string.h"
#include "stddef.h"
#include "qemu-common.h"
#include "gui_common.h"
#include "gui_parser.h"
#include "expat.h"
typedef enum {
WAITING_GUI_START,
WAITING_VT_START,
WAITING_VT_CONTENT,
WAITING_BUTTON_END,
WAITING_PAREA_END, /* Pointer Area */
WAITING_DAREA_END, /* Display Area */
/* leave this at the end */
N_PARSER_STATES
} parser_state_t;
typedef struct
{
XML_Parser parser;
parse_result_t result;
parser_state_t state;
gui_xml_tree_t *gui_xml_tree;
vt_node_t *last_vt_node;
/* the following data points to the last vt node */
image_node_t *last_image_node;
displayarea_node_t *last_displayarea_node;
pointerarea_node_t *last_pointerarea_node;
button_node_t *last_button_node;
} parser_data_t;
typedef struct
{
void (*start)(parser_data_t *pdata, const char *element, const char **attr);
void (*end)(parser_data_t *pdata, const char *element);
} parser_state_handler_t;
typedef struct
{
gui_area_t area;
int height;
int width;
} tmp_area_t;
#define HANDLER_NAME_START(state) parser_##state##_start_handler
#define HANDLER_START_SIGNATURE (parser_data_t *pdata, const char *element, const char **attr)
#define START_HANDLER_DECL(state) static void HANDLER_NAME_START(state) HANDLER_START_SIGNATURE
#define HANDLER_NAME_END(state) parser_##state##_end_handler
#define HANDLER_END_SIGNATURE (parser_data_t *pdata, const char *element)
#define END_HANDLER_DECL(state) static void HANDLER_NAME_END(state) HANDLER_END_SIGNATURE
#define FORWARD_DECL_STATE(state) \
START_HANDLER_DECL(state); \
END_HANDLER_DECL(state)
#define HANDLER_PAIR(state) &HANDLER_NAME_START(state), &HANDLER_NAME_END(state)
FORWARD_DECL_STATE(waiting_gui_start);
FORWARD_DECL_STATE(waiting_vt_start);
FORWARD_DECL_STATE(waiting_vt_content);
FORWARD_DECL_STATE(waiting_button_end);
FORWARD_DECL_STATE(waiting_parea_end);
FORWARD_DECL_STATE(waiting_darea_end);
static const parser_state_handler_t state_handler[N_PARSER_STATES] = {
{ HANDLER_PAIR(waiting_gui_start) },
{ HANDLER_PAIR(waiting_vt_start) },
{ HANDLER_PAIR(waiting_vt_content) },
{ HANDLER_PAIR(waiting_button_end) },
{ HANDLER_PAIR(waiting_parea_end) },
{ HANDLER_PAIR(waiting_darea_end) }
};
/**************************/
const char* parsing_location_error(void)
{
return "";
}
static inline int attribute_is(const char *attr, const char *name)
{
return (strcmp(attr, name) == 0);
}
static void clear_tarea(tmp_area_t *tarea)
{
memset(tarea, 0, sizeof(tmp_area_t));
}
static int assign_bool_value(const char *value, int* res)
{
int is_bool_value = 1;
if (strcmp(value, "1") == 0 || strcmp(value, "yes") == 0 || strcmp(value, "YES") == 0)
*res = 1;
else if (strcmp(value, "0") == 0 || strcmp(value, "no") == 0 || strcmp(value, "NO") == 0)
*res = 0;
else {
is_bool_value = 0;
fprintf(stderr, "Warning: unrecognized bool value '%s'\n", value);
}
return is_bool_value;
}
static int assign_tarea_attribute(const char *full_attribute, const char *value, tmp_area_t *tarea, const char *attribute_prefix)
{
int is_area_attribute = 1;
const char *attribute;
int int_value = atol(value);
int was_negative = 0;
if (int_value < 0) {
was_negative = 1;
int_value = 0;
}
if (attribute_prefix != NULL) {
const int prefix_len = strlen(attribute_prefix);
if (strncmp(attribute_prefix, full_attribute, prefix_len) == 0)
attribute = full_attribute + prefix_len;
else
return 0;
} else
attribute = full_attribute;
if (attribute_is(attribute, "x0") || attribute_is(attribute, "x"))
tarea->area.x0 = int_value;
else if (attribute_is(attribute, "x1"))
tarea->area.x1 = int_value;
else if (attribute_is(attribute, "y0") || attribute_is(attribute, "y"))
tarea->area.y0 = int_value;
else if (attribute_is(attribute, "y1"))
tarea->area.y1 = int_value;
else if (attribute_is(attribute, "width"))
tarea->width = int_value;
else if (attribute_is(attribute, "height"))
tarea->height = int_value;
else
is_area_attribute = 0;
if (was_negative && is_area_attribute) {
fprintf(stderr, "Warning: attribute '%s' has a negative value. Made it 0.\n", attribute);
}
return is_area_attribute;
}
static void assign_tarea_to_area(const tmp_area_t *tarea, gui_area_t *area)
{
*area = tarea->area;
if (tarea->height != 0) {
if (area->y1 == 0)
area->y1 = area->y0 + tarea->height;
else
fprintf(stderr, "Warning: both y1 and height specified. 'height' ignored.\n");
}
if (tarea->width != 0) {
if (area->x1 == 0)
area->x1 = area->x0 + tarea->width;
else
fprintf(stderr, "Warning: both x1 and width specified. 'width' ignored.\n");
}
}
/* this is not for the first image, since it is the background */
static int allocate_image_node(parser_data_t *pdata)
{
const int ret = pdata->last_vt_node->n_images;
image_node_t* const node = (image_node_t*)qemu_mallocz(sizeof(image_node_t));
pdata->last_image_node->next = node;
pdata->last_image_node = node;
pdata->last_vt_node->n_images++;
return ret;
}
static void add_new_vt(parser_data_t *pdata, const char *element, const char **attr)
{
vt_node_t *new_node;
int attr_number = 0;
image_node_t background_img;
const char *value;
new_node = (vt_node_t*)qemu_mallocz(sizeof(vt_node_t));
if (new_node == NULL) {
fprintf(stderr, "Out of memory.\n");
pdata->result = OUT_OF_MEMORY;
return;
}
if (pdata->gui_xml_tree->first_vt_node == NULL)
pdata->gui_xml_tree->first_vt_node = new_node;
else
pdata->last_vt_node->next = new_node;
pdata->last_vt_node = new_node;
pdata->gui_xml_tree->n_vts++;
memset(&background_img, 0, sizeof(image_node_t));
/* process attributes */
while (attr[attr_number] != NULL) {
value = attr[attr_number + 1];
if (attribute_is(attr[attr_number], "background")) {
strncpy(background_img.filename, value, sizeof(background_img.filename)-1);
background_img.filename[sizeof(background_img.filename)-1] = 0;
} else if (attribute_is(attr[attr_number], "width")) {
SET_GUI_AREA_WIDTH(&background_img.area, atol(value));
} else if (attribute_is(attr[attr_number], "height")) {
SET_GUI_AREA_HEIGHT(&background_img.area, atol(value));
} else {
fprintf(stderr, "Unrecognized vt attribute '%s'.\n", attr[attr_number]);
}
attr_number += 2;
}
if (background_img.filename[0] != 0) {
new_node->first_image_node = (image_node_t*)qemu_malloc(sizeof(image_node_t));
*(new_node->first_image_node) = background_img;
new_node->n_images = 1;
pdata->last_image_node = new_node->first_image_node;
} else {
fprintf(stderr, "Error: background image missing for vt.\n");
pdata->result = UNEXPECTED_EOF;
}
}
static void add_new_button(parser_data_t *pdata, const char *element, const char **attr)
{
button_node_t *new_node = (button_node_t*)qemu_mallocz(sizeof(button_node_t));
tmp_area_t tarea;
tmp_area_t tarea_pressed;
image_node_t *pressed_img = NULL;
const char *attribute, *value;
int attr_number = 0;
if (new_node == NULL) {
fprintf(stderr, "Out of memory.\n");
pdata->result = OUT_OF_MEMORY;
return;
}
if (pdata->last_vt_node->first_button_node == NULL)
pdata->last_vt_node->first_button_node = new_node;
else
pdata->last_button_node->next = new_node;
pdata->last_button_node = new_node;
pdata->last_vt_node->n_buttons++;
#define NOT_ASSIGNED -1
clear_tarea(&tarea);
clear_tarea(&tarea_pressed);
tarea_pressed.area.x0 = tarea_pressed.area.y0 = NOT_ASSIGNED;
/* process attributes */
while (attr[attr_number] != NULL) {
attribute = attr[attr_number];
value = attr[attr_number + 1];
if (attribute_is(attribute, "pressedimg")) {
if (pressed_img == NULL) {
new_node->pressed_img_id = allocate_image_node(pdata);
pressed_img = pdata->last_image_node;
}
strncpy(pressed_img->filename, value, sizeof(pressed_img->filename));
pressed_img->filename[sizeof(pressed_img->filename)-1] = 0;
} else if (attribute_is(attribute, "action")) {
strncpy(new_node->action, value, 15);
new_node->action[15] = 0;
} else if (attribute_is(attribute, "parameter")) {
strncpy(new_node->parameter, value, 31);
new_node->parameter[31] = 0;
} else if (assign_tarea_attribute(attribute, value, &tarea_pressed, "pressedimg_")) {
if (pressed_img == NULL) {
new_node->pressed_img_id = allocate_image_node(pdata);
pressed_img = pdata->last_image_node;
}
} else if (!assign_tarea_attribute(attribute, value, &tarea, NULL)) {
fprintf(stderr, "Warning: unrecognized button attribute '%s'\n", attribute);
}
attr_number += 2;
}
assign_tarea_to_area(&tarea, &new_node->area);
if (pressed_img != NULL) {
if (tarea_pressed.area.x0 == NOT_ASSIGNED)
tarea_pressed.area.x0 = tarea.area.x0;
if (tarea_pressed.area.y0 == NOT_ASSIGNED)
tarea_pressed.area.y0 = tarea.area.y0;
assign_tarea_to_area(&tarea_pressed, &pressed_img->area);
}
#undef NOT_ASSIGNED
}
static void add_new_parea(parser_data_t *pdata, const char *element, const char **attr)
{
pointerarea_node_t *new_node = (pointerarea_node_t*)qemu_mallocz(sizeof(pointerarea_node_t));
tmp_area_t tarea;
const char *attribute, *value;
int attr_number = 0;
if (new_node == NULL) {
fprintf(stderr, "Out of memory.\n");
pdata->result = OUT_OF_MEMORY;
return;
}
if (pdata->last_vt_node->first_pointerarea_node == NULL)
pdata->last_vt_node->first_pointerarea_node = new_node;
else
pdata->last_pointerarea_node->next = new_node;
pdata->last_pointerarea_node = new_node;
pdata->last_vt_node->n_pointerareas++;
clear_tarea(&tarea);
/* process attributes */
while (attr[attr_number] != NULL) {
attribute = attr[attr_number];
value = attr[attr_number + 1];
if (attribute_is(attribute, "devid")) {
strncpy(new_node->devid, value, sizeof(devid_t)-1);
new_node->devid[sizeof(devid_t)-1] = 0;
} else if (attribute_is(attribute, "grabonclick")) {
assign_bool_value(value, &new_node->grab_on_click);
} else if (attribute_is(attribute, "absolute")) {
assign_bool_value(value, &new_node->absolute);
} else if (attribute_is(attribute, "grabbingcursor")) {
assign_bool_value(value, &new_node->show_cursor_while_grabbing);
} else if (!assign_tarea_attribute(attribute, value, &tarea, NULL)) {
fprintf(stderr, "Warning: unrecognized displayarea attribute '%s'\n", attribute);
}
attr_number += 2;
}
assign_tarea_to_area(&tarea, &new_node->area);
}
static void add_new_darea(parser_data_t *pdata, const char *element, const char **attr)
{
displayarea_node_t *new_node = (displayarea_node_t*)qemu_mallocz(sizeof(displayarea_node_t));
tmp_area_t tarea;
const char *attribute, *value;
int attr_number = 0;
if (new_node == NULL) {
fprintf(stderr, "Out of memory.\n");
pdata->result = OUT_OF_MEMORY;
return;
}
if (pdata->last_vt_node->first_displayarea_node == NULL)
pdata->last_vt_node->first_displayarea_node = new_node;
else
pdata->last_displayarea_node->next = new_node;
pdata->last_displayarea_node = new_node;
pdata->last_vt_node->n_displayareas++;
clear_tarea(&tarea);
/* process attributes */
while (attr[attr_number] != NULL) {
attribute = attr[attr_number];
value = attr[attr_number + 1];
if (attribute_is(attribute, "devid")) {
strncpy(new_node->devid, value, sizeof(devid_t)-1);
new_node->devid[sizeof(devid_t)-1] = 0;
} else if (!assign_tarea_attribute(attribute, value, &tarea, NULL)) {
fprintf(stderr, "Warning: unrecognized displayarea attribute '%s'\n", attribute);
}
attr_number += 2;
}
assign_tarea_to_area(&tarea, &new_node->area);
}
START_HANDLER_DECL(waiting_gui_start)
{
if (strcmp(element, "gui") == 0) {
pdata->state = WAITING_VT_START;
} else {
fprintf(stderr, "Unexpected element '%s' in line %ld; expected <gui>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
END_HANDLER_DECL(waiting_gui_start)
{
fprintf(stderr, "Unexpected closing element '%s' in line %ld\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
START_HANDLER_DECL(waiting_vt_start)
{
if (strcmp(element, "vt") == 0) {
pdata->state = WAITING_VT_CONTENT;
add_new_vt(pdata, element, attr);
} else {
fprintf(stderr, "Unexpected element '%s' in line %ld; expected <vt>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
END_HANDLER_DECL(waiting_vt_start)
{
if (strcmp(element, "gui") == 0) {
/* OK! */
} else {
fprintf(stderr, "Unexpected closing element '%s' in line %ld; expected </gui>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
START_HANDLER_DECL(waiting_vt_content)
{
if (strcmp(element, "button") == 0) {
pdata->state = WAITING_BUTTON_END;
add_new_button(pdata, element, attr);
} else if (strcmp(element, "displayarea") == 0) {
pdata->state = WAITING_DAREA_END;
add_new_darea(pdata, element, attr);
} else if (strcmp(element, "pointerarea") == 0) {
pdata->state = WAITING_PAREA_END;
add_new_parea(pdata, element, attr);
} else {
fprintf(stderr, "Unexpected element '%s' in line %ld; expected <button>, <displayarea>, or <pointerarea>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
END_HANDLER_DECL(waiting_vt_content)
{
if (strcmp(element, "vt") == 0) {
pdata->state = WAITING_VT_START;
} else {
fprintf(stderr, "Unexpected closing element '%s' in line %ld; expected </vt>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
START_HANDLER_DECL(waiting_button_end)
{
fprintf(stderr, "Unexpected element '%s' in line %ld; expected closing </button>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
END_HANDLER_DECL(waiting_button_end)
{
if (strcmp(element, "button") == 0) {
pdata->state = WAITING_VT_CONTENT;
} else {
fprintf(stderr, "Unexpected closing element '%s' in line %ld; expected </button>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
START_HANDLER_DECL(waiting_parea_end)
{
fprintf(stderr, "Unexpected element '%s' in line %ld; expected closing </pointerarea>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
END_HANDLER_DECL(waiting_parea_end)
{
if (strcmp(element, "pointerarea") == 0) {
pdata->state = WAITING_VT_CONTENT;
} else {
fprintf(stderr, "Unexpected closing element '%s' in line %ld; expected </pointerarea>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
START_HANDLER_DECL(waiting_darea_end)
{
fprintf(stderr, "Unexpected element '%s' in line %ld; expected closing </displayarea>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
END_HANDLER_DECL(waiting_darea_end)
{
if (strcmp(element, "displayarea") == 0) {
pdata->state = WAITING_VT_CONTENT;
} else {
fprintf(stderr, "Unexpected closing element '%s' in line %ld; expected </displayarea>\n",
element,
XML_GetCurrentLineNumber(pdata->parser));
}
}
/**************************/
static void parser_start_hndl(void *data, const char *element, const char **attr)
{
parser_data_t *pdata = (parser_data_t*)data;
state_handler[pdata->state].start(pdata, element, attr);
}
static void parser_end_hndl(void *data, const char *element)
{
parser_data_t *pdata = (parser_data_t*)data;
state_handler[pdata->state].end(pdata, element);
}
static void test_start_hndl(void *data, const char *element, const char **attr)
{
fprintf(stderr, "start '%s'\n", element);
}
static void test_end_hndl(void *data, const char *element)
{
fprintf(stderr, "end '%s'\n", element);
}
parse_result_t parse_gui_xml(const char *xml_file, gui_xml_tree_t *gui_xml_tree)
{
parser_data_t parser_data;
FILE *xml;
int done = 0;
char buffer[128];
parser_data.parser = XML_ParserCreate(NULL);
parser_data.result = PARSE_OK;
parser_data.state = WAITING_GUI_START;
parser_data.gui_xml_tree = gui_xml_tree;
memset(gui_xml_tree, 0, sizeof(gui_xml_tree_t));
if (parser_data.parser == NULL) {
fprintf(stderr, "Couldn't allocate memory for parser\n");
return OUT_OF_MEMORY;
}
xml = fopen(xml_file, "r");
if (xml == NULL) {
fprintf(stderr, "XML file not found\n");
XML_ParserFree(parser_data.parser);
return FILE_NOT_FOUND;
}
XML_SetUserData(parser_data.parser, &parser_data);
XML_SetElementHandler(parser_data.parser, parser_start_hndl, parser_end_hndl);
do {
if (fgets(buffer, sizeof(buffer), xml) == NULL)
done = 1;
else {
done = feof(xml);
if (! XML_Parse(parser_data.parser, buffer, strlen(buffer), done)) {
fprintf(stderr, "Parse error at line %ld:\n%s\n",
XML_GetCurrentLineNumber(parser_data.parser),
XML_ErrorString(XML_GetErrorCode(parser_data.parser)));
parser_data.result = UNEXPECTED_EOF;
}
}
}while(!done && parser_data.result == PARSE_OK);
if (done && !feof(xml)) {
parser_data.result = UNEXPECTED_EOF;
}
fclose(xml);
XML_ParserFree(parser_data.parser);
return parser_data.result;
}