netsurf/render/form.c
Richard Wilson 1353585036 Implement form targets (fix 1619094)
svn path=/trunk/netsurf/; revision=3125
2006-12-30 00:34:26 +00:00

682 lines
16 KiB
C

/*
* This file is part of NetSurf, http://netsurf-browser.org/
* Licensed under the GNU General Public License,
* http://www.opensource.org/licenses/gpl-license
* Copyright 2004 James Bursa <bursa@users.sourceforge.net>
* Copyright 2003 Phil Mellor <monkeyson@users.sourceforge.net>
* Copyright 2005 John M Bell <jmb202@ecs.soton.ac.uk>
*/
/** \file
* Form handling functions (implementation).
*/
#define _GNU_SOURCE /* for strndup */
#include <assert.h>
#include <ctype.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include "netsurf/render/box.h"
#include "netsurf/render/form.h"
#include "netsurf/utils/log.h"
#include "netsurf/utils/url.h"
#include "netsurf/utils/utf8.h"
#include "netsurf/utils/utils.h"
static char *form_textarea_value(struct form_control *textarea);
static char *form_acceptable_charset(struct form *form);
/**
* Create a struct form.
*
* \param action URL to submit form to, used directly (not copied)
* \param method method and enctype
* \param charset acceptable charactersets for form submission (not copied)
* \param doc_charset characterset of containing document (not copied)
* \return a new structure, or 0 on memory exhaustion
*/
struct form *form_new(char *action, char *target, form_method method, char *charset,
char *doc_charset)
{
struct form *form;
form = malloc(sizeof *form);
if (!form)
return 0;
form->action = action;
form->target = target;
form->method = method;
form->accept_charsets = charset;
form->document_charset = doc_charset;
form->controls = 0;
form->last_control = 0;
form->prev = 0;
return form;
}
/**
* Create a struct form_control.
*
* \param type control type
* \return a new structure, or 0 on memory exhaustion
*/
struct form_control *form_new_control(form_control_type type)
{
struct form_control *control;
if ((control = malloc(sizeof *control)) == NULL)
return NULL;
control->type = type;
control->name = NULL;
control->value = NULL;
control->initial_value = NULL;
control->disabled = false;
control->form = NULL;
control->box = NULL;
control->caret_inline_container = NULL;
control->caret_text_box = NULL;
control->caret_box_offset = control->caret_form_offset = 0;
control->length = control->maxlength = 0;
control->selected = false;
control->prev = NULL;
control->next = NULL;
return control;
}
/**
* Add a control to the list of controls in a form.
*
* \param form The form to add the control to
* \param control The control to add
*/
void form_add_control(struct form *form, struct form_control *control)
{
control->form = form;
if (form->controls != NULL) {
assert(form->last_control);
form->last_control->next = control;
control->prev = form->last_control;
control->next = NULL;
form->last_control = control;
} else {
form->controls = form->last_control = control;
}
}
/**
* Free a struct form_control.
*
* \param control structure to free
*/
void form_free_control(struct form_control *control)
{
free(control->name);
free(control->value);
free(control->initial_value);
if (control->type == GADGET_SELECT) {
struct form_option *option, *next;
for (option = control->data.select.items; option;
option = next) {
next = option->next;
free(option->text);
free(option->value);
free(option);
}
}
free(control);
}
/**
* Add an option to a form select control.
*
* \param control form control of type GADGET_SELECT
* \param value value of option, used directly (not copied)
* \param text text for option, used directly (not copied)
* \param selected this option is selected
* \return true on success, false on memory exhaustion
*/
bool form_add_option(struct form_control *control, char *value, char *text,
bool selected)
{
struct form_option *option;
assert(control);
assert(control->type == GADGET_SELECT);
option = malloc(sizeof *option);
if (!option)
return false;
option->selected = option->initial_selected = false;
option->value = value;
option->text = text;
option->next = 0;
/* add to linked list */
if (control->data.select.items == 0)
control->data.select.items = option;
else
control->data.select.last_item->next = option;
control->data.select.last_item = option;
/* set selected */
if (selected && (control->data.select.num_selected == 0 ||
control->data.select.multiple)) {
option->selected = option->initial_selected = true;
control->data.select.num_selected++;
control->data.select.current = option;
}
control->data.select.num_items++;
return true;
}
/**
* Identify 'successful' controls.
*
* \param form form to search for successful controls
* \param submit_button control used to submit the form, if any
* \param successful_controls updated to point to linked list of
* form_successful_control, 0 if no controls
* \return true on success, false on memory exhaustion
*
* See HTML 4.01 section 17.13.2.
*/
bool form_successful_controls(struct form *form,
struct form_control *submit_button,
struct form_successful_control **successful_controls)
{
struct form_control *control;
struct form_option *option;
struct form_successful_control sentinel, *last_success, *success_new;
char *value;
bool had_submit = false;
last_success = &sentinel;
sentinel.next = 0;
for (control = form->controls; control; control = control->next) {
/* ignore disabled controls */
if (control->disabled)
continue;
/* ignore controls with no name */
if (!control->name)
continue;
switch (control->type) {
case GADGET_HIDDEN:
case GADGET_TEXTBOX:
case GADGET_PASSWORD:
if (control->value)
value = strdup(control->value);
else
value = strdup("");
if (!value) {
LOG(("failed to duplicate value"
"'%s' for control %s",
control->value,
control->name));
goto no_memory;
}
break;
case GADGET_RADIO:
case GADGET_CHECKBOX:
/* ignore checkboxes and radio buttons which
* aren't selected */
if (!control->selected)
continue;
if (control->value)
value = strdup(control->value);
else
value = strdup("on");
if (!value) {
LOG(("failed to duplicate"
"value '%s' for"
"control %s",
control->value,
control->name));
goto no_memory;
}
break;
case GADGET_SELECT:
/* select */
for (option = control->data.select.items;
option != NULL;
option = option->next) {
if (!option->selected)
continue;
success_new = malloc(sizeof(*success_new));
if (!success_new) {
LOG(("malloc failed"));
goto no_memory;
}
success_new->file = false;
success_new->name = strdup(control->name);
success_new->value = strdup(option->value);
success_new->next = NULL;
last_success->next = success_new;
last_success = success_new;
if (!success_new->name ||
!success_new->value) {
LOG(("strdup failed"));
goto no_memory;
}
}
continue;
break;
case GADGET_TEXTAREA:
/* textarea */
value = form_textarea_value(control);
if (!value) {
LOG(("failed handling textarea"));
goto no_memory;
}
if (value[0] == 0) {
free(value);
continue;
}
break;
case GADGET_IMAGE: {
/* image */
if (control != submit_button)
/* only the activated submit button
* is successful */
continue;
const size_t len = strlen(control->name) + 3;
/* x */
success_new = malloc(sizeof(*success_new));
if (!success_new) {
LOG(("malloc failed"));
goto no_memory;
}
success_new->file = false;
success_new->name = malloc(len);
success_new->value = malloc(20);
if (!success_new->name ||
!success_new->value) {
free(success_new->name);
free(success_new->value);
free(success_new);
LOG(("malloc failed"));
goto no_memory;
}
sprintf(success_new->name, "%s.x",
control->name);
sprintf(success_new->value, "%i",
control->data.image.mx);
success_new->next = 0;
last_success->next = success_new;
last_success = success_new;
/* y */
success_new = malloc(sizeof(*success_new));
if (!success_new) {
LOG(("malloc failed"));
goto no_memory;
}
success_new->file = false;
success_new->name = malloc(len);
success_new->value = malloc(20);
if (!success_new->name ||
!success_new->value) {
free(success_new->name);
free(success_new->value);
free(success_new);
LOG(("malloc failed"));
goto no_memory;
}
sprintf(success_new->name, "%s.y",
control->name);
sprintf(success_new->value, "%i",
control->data.image.my);
success_new->next = 0;
last_success->next = success_new;
last_success = success_new;
continue;
break;
}
case GADGET_SUBMIT:
if (!submit_button && !had_submit)
/* no submit button specified, so
* use first declared in form */
had_submit = true;
else if (control != submit_button)
/* only the activated submit button
* is successful */
continue;
if (control->value)
value = strdup(control->value);
else
value = strdup("");
if (!value) {
LOG(("failed to duplicate value"
"'%s' for control %s",
control->value,
control->name));
goto no_memory;
}
break;
case GADGET_RESET:
/* ignore reset */
continue;
break;
case GADGET_FILE:
/* file */
if (!control->value)
continue;
success_new = malloc(sizeof(*success_new));
if (!success_new) {
LOG(("malloc failed"));
goto no_memory;
}
success_new->file = true;
success_new->name = strdup(control->name);
success_new->value = strdup(control->value);
success_new->next = 0;
last_success->next = success_new;
last_success = success_new;
if (!success_new->name ||
!success_new->value) {
LOG(("strdup failed"));
goto no_memory;
}
continue;
break;
default:
assert(0);
break;
}
success_new = malloc(sizeof(*success_new));
if (!success_new) {
LOG(("malloc failed"));
goto no_memory;
}
success_new->file = false;
success_new->name = strdup(control->name);
success_new->value = value;
success_new->next = NULL;
last_success->next = success_new;
last_success = success_new;
if (!success_new->name) {
LOG(("failed to duplicate name '%s'",
control->name));
goto no_memory;
}
}
*successful_controls = sentinel.next;
return true;
no_memory:
warn_user("NoMemory", 0);
form_free_successful(sentinel.next);
return false;
}
/**
* Find the value for a textarea control.
*
* \param textarea control of type GADGET_TEXTAREA
* \return the value as a UTF-8 string on heap, or 0 on memory exhaustion
*/
char *form_textarea_value(struct form_control *textarea)
{
unsigned int len = 0;
char *value, *s;
struct box *text_box;
/* find required length */
for (text_box = textarea->box->children->children; text_box;
text_box = text_box->next) {
if (text_box->type == BOX_TEXT)
len += text_box->length + 1;
else /* BOX_BR */
len += 2;
}
/* construct value */
s = value = malloc(len + 1);
if (!s)
return 0;
for (text_box = textarea->box->children->children; text_box;
text_box = text_box->next) {
if (text_box->type == BOX_TEXT) {
strncpy(s, text_box->text, text_box->length);
s += text_box->length;
if (text_box->next && text_box->next->type != BOX_BR)
/* only add space if this isn't
* the last box on a line (or in the area) */
*s++ = ' ';
} else { /* BOX_BR */
*s++ = '\r';
*s++ = '\n';
}
}
*s = 0;
return value;
}
/**
* Encode controls using application/x-www-form-urlencoded.
*
* \param form form to which successful controls relate
* \param control linked list of form_successful_control
* \return URL-encoded form, or 0 on memory exhaustion
*/
char *form_url_encode(struct form *form,
struct form_successful_control *control)
{
char *name, *value, *n_temp, *v_temp;
char *s = malloc(1), *s2;
char *charset;
unsigned int len = 0, len1;
utf8_convert_ret err;
url_func_result url_err;
if (!s)
return 0;
s[0] = 0;
charset = form_acceptable_charset(form);
if (!charset)
return 0;
for (; control; control = control->next) {
err = utf8_to_enc(control->name, charset, 0, &n_temp);
if (err == UTF8_CONVERT_BADENC) {
/* charset not understood, try document charset */
err = utf8_to_enc(control->name,
form->document_charset, 0, &n_temp);
if (err == UTF8_CONVERT_BADENC)
/* that also failed, use 8859-1 */
err = utf8_to_enc(control->name,
"ISO-8859-1", 0, &n_temp);
}
if (err == UTF8_CONVERT_NOMEM) {
free(charset);
free(s);
return 0;
}
assert(err == UTF8_CONVERT_OK);
err = utf8_to_enc(control->value, charset, 0, &v_temp);
if (err == UTF8_CONVERT_BADENC) {
err = utf8_to_enc(control->value,
form->document_charset, 0, &v_temp);
if (err == UTF8_CONVERT_BADENC)
err = utf8_to_enc(control->value,
"ISO-8859-1", 0, &v_temp);
}
if (err == UTF8_CONVERT_NOMEM) {
free(n_temp);
free(charset);
free(s);
return 0;
}
assert(err == UTF8_CONVERT_OK);
url_err = url_escape(n_temp, true, &name);
if (url_err == URL_FUNC_NOMEM) {
free(v_temp);
free(n_temp);
free(charset);
free(s);
return 0;
}
assert(url_err == URL_FUNC_OK);
url_err = url_escape(v_temp, true, &value);
if (url_err == URL_FUNC_NOMEM) {
free(name);
free(v_temp);
free(n_temp);
free(charset);
free(s);
return 0;
}
assert(url_err == URL_FUNC_OK);
len1 = len + strlen(name) + strlen(value) + 2;
s2 = realloc(s, len1 + 1);
if (!s2) {
free(value);
free(name);
free(v_temp);
free(n_temp);
free(charset);
free(s);
return 0;
}
s = s2;
sprintf(s + len, "%s=%s&", name, value);
len = len1;
free(name);
free(value);
free(v_temp);
free(n_temp);
}
free(charset);
if (len)
s[len - 1] = 0;
return s;
}
/**
* Free a linked list of form_successful_control.
*
* \param control Pointer to head of list to free
*/
void form_free_successful(struct form_successful_control *control)
{
struct form_successful_control *next;
for (; control; control = next) {
next = control->next;
free(control->name);
free(control->value);
free(control);
}
}
/**
* Find an acceptable character set encoding with which to submit the form
*
* \param form The form
* \return Pointer to charset name (on heap, caller should free) or NULL
*/
char *form_acceptable_charset(struct form *form)
{
char *temp, *c;
if (!form)
return NULL;
if (!form->accept_charsets) {
/* no accept-charsets attribute for this form */
if (form->document_charset)
/* document charset present, so use it */
return strdup(form->document_charset);
else
/* no document charset, so default to 8859-1 */
return strdup("ISO-8859-1");
}
/* make temporary copy of accept-charsets attribute */
temp = strdup(form->accept_charsets);
if (!temp)
return NULL;
/* make it upper case */
for (c = temp; *c; c++)
*c = toupper(*c);
/* is UTF-8 specified? */
c = strstr(temp, "UTF-8");
if (c) {
free(temp);
return strdup("UTF-8");
}
/* dispense with temporary copy */
free(temp);
/* according to RFC2070, the accept-charsets attribute of the
* form element contains a space and/or comma separated list */
c = form->accept_charsets;
/* What would be an improvement would be to choose an encoding
* acceptable to the server which covers as much of the input
* values as possible. Additionally, we need to handle the case
* where none of the acceptable encodings cover all the textual
* input values.
* For now, we just extract the first element of the charset list
*/
while (*c && !isspace(*c)) {
if (*c == ',')
break;
c++;
}
return strndup(form->accept_charsets, c - form->accept_charsets);
}