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/*
* File loading code for Mini-XML, a small XML file parsing library.
*
* https://www.msweet.org/mxml
*
* Copyright © 2003-2020 by Michael R Sweet.
*
* Licensed under Apache License v2.0. See the file "LICENSE" for more
* information.
*/
/*
* Include necessary headers...
*/
#ifndef _WIN32
# include <unistd.h>
#endif /* !_WIN32 */
#include "mxml-private.h"
/*
* Character encoding...
*/
#define ENCODE_UTF8 0 /* UTF-8 */
#define ENCODE_UTF16BE 1 /* UTF-16 Big-Endian */
#define ENCODE_UTF16LE 2 /* UTF-16 Little-Endian */
/*
* Macro to test for a bad XML character...
*/
#define mxml_bad_char(ch) ((ch) < ' ' && (ch) != '\n' && (ch) != '\r' && (ch) != '\t')
/*
* Types and structures...
*/
typedef int (*_mxml_getc_cb_t)(void *, int *);
typedef int (*_mxml_putc_cb_t)(int, void *);
typedef struct _mxml_fdbuf_s /**** File descriptor buffer ****/
{
int fd; /* File descriptor */
unsigned char *current, /* Current position in buffer */
*end, /* End of buffer */
buffer[8192]; /* Character buffer */
} _mxml_fdbuf_t;
/*
* Local functions...
*/
static int mxml_add_char(int ch, char **ptr, char **buffer, int *bufsize);
static int mxml_fd_getc(void *p, int *encoding);
static int mxml_fd_putc(int ch, void *p);
static int mxml_fd_read(_mxml_fdbuf_t *buf);
static int mxml_fd_write(_mxml_fdbuf_t *buf);
static int mxml_file_getc(void *p, int *encoding);
static int mxml_file_putc(int ch, void *p);
static int mxml_get_entity(mxml_node_t *parent, void *p, int *encoding, _mxml_getc_cb_t getc_cb, int *line);
static inline int mxml_isspace(int ch)
{
return (ch == ' ' || ch == '\t' || ch == '\r' || ch == '\n');
}
static mxml_node_t *mxml_load_data(mxml_node_t *top, void *p, mxml_load_cb_t cb, _mxml_getc_cb_t getc_cb, mxml_sax_cb_t sax_cb, void *sax_data);
static int mxml_parse_element(mxml_node_t *node, void *p, int *encoding, _mxml_getc_cb_t getc_cb, int *line);
static int mxml_string_getc(void *p, int *encoding);
static int mxml_string_putc(int ch, void *p);
static int mxml_write_name(const char *s, void *p, _mxml_putc_cb_t putc_cb);
static int mxml_write_node(mxml_node_t *node, void *p, mxml_save_cb_t cb, int col, _mxml_putc_cb_t putc_cb, _mxml_global_t *global);
static int mxml_write_string(const char *s, void *p, _mxml_putc_cb_t putc_cb);
static int mxml_write_ws(mxml_node_t *node, void *p, mxml_save_cb_t cb, int ws, int col, _mxml_putc_cb_t putc_cb);
/*
* 'mxmlLoadFd()' - Load a file descriptor into an XML node tree.
*
* The nodes in the specified file are added to the specified top node.
* If no top node is provided, the XML file MUST be well-formed with a
* single parent node like <?xml> for the entire file. The callback
* function returns the value type that should be used for child nodes.
* The constants @code MXML_INTEGER_CALLBACK@, @code MXML_OPAQUE_CALLBACK@,
* @code MXML_REAL_CALLBACK@, and @code MXML_TEXT_CALLBACK@ are defined for
* loading child (data) nodes of the specified type.
*
* Note: The most common programming error when using the Mini-XML library is
* to load an XML file using the @code MXML_TEXT_CALLBACK@, which returns inline
* text as a series of whitespace-delimited words, instead of using the
* @code MXML_OPAQUE_CALLBACK@ which returns the inline text as a single string
* (including whitespace).
*/
mxml_node_t * /* O - First node or @code NULL@ if the file could not be read. */
mxmlLoadFd(mxml_node_t *top, /* I - Top node */
int fd, /* I - File descriptor to read from */
mxml_load_cb_t cb) /* I - Callback function or constant */
{
_mxml_fdbuf_t buf; /* File descriptor buffer */
/*
* Initialize the file descriptor buffer...
*/
buf.fd = fd;
buf.current = buf.buffer;
buf.end = buf.buffer;
/*
* Read the XML data...
*/
return (mxml_load_data(top, &buf, cb, mxml_fd_getc, MXML_NO_CALLBACK, NULL));
}
/*
* 'mxmlLoadFile()' - Load a file into an XML node tree.
*
* The nodes in the specified file are added to the specified top node.
* If no top node is provided, the XML file MUST be well-formed with a
* single parent node like <?xml> for the entire file. The callback
* function returns the value type that should be used for child nodes.
* The constants @code MXML_INTEGER_CALLBACK@, @code MXML_OPAQUE_CALLBACK@,
* @code MXML_REAL_CALLBACK@, and @code MXML_TEXT_CALLBACK@ are defined for
* loading child (data) nodes of the specified type.
*
* Note: The most common programming error when using the Mini-XML library is
* to load an XML file using the @code MXML_TEXT_CALLBACK@, which returns inline
* text as a series of whitespace-delimited words, instead of using the
* @code MXML_OPAQUE_CALLBACK@ which returns the inline text as a single string
* (including whitespace).
*/
mxml_node_t * /* O - First node or @code NULL@ if the file could not be read. */
mxmlLoadFile(mxml_node_t *top, /* I - Top node */
FILE *fp, /* I - File to read from */
mxml_load_cb_t cb) /* I - Callback function or constant */
{
/*
* Read the XML data...
*/
return (mxml_load_data(top, fp, cb, mxml_file_getc, MXML_NO_CALLBACK, NULL));
}
/*
* 'mxmlLoadString()' - Load a string into an XML node tree.
*
* The nodes in the specified string are added to the specified top node.
* If no top node is provided, the XML string MUST be well-formed with a
* single parent node like <?xml> for the entire string. The callback
* function returns the value type that should be used for child nodes.
* The constants @code MXML_INTEGER_CALLBACK@, @code MXML_OPAQUE_CALLBACK@,
* @code MXML_REAL_CALLBACK@, and @code MXML_TEXT_CALLBACK@ are defined for
* loading child (data) nodes of the specified type.
*
* Note: The most common programming error when using the Mini-XML library is
* to load an XML file using the @code MXML_TEXT_CALLBACK@, which returns inline
* text as a series of whitespace-delimited words, instead of using the
* @code MXML_OPAQUE_CALLBACK@ which returns the inline text as a single string
* (including whitespace).
*/
mxml_node_t * /* O - First node or @code NULL@ if the string has errors. */
mxmlLoadString(mxml_node_t *top, /* I - Top node */
const char *s, /* I - String to load */
mxml_load_cb_t cb) /* I - Callback function or constant */
{
/*
* Read the XML data...
*/
return (mxml_load_data(top, (void *)&s, cb, mxml_string_getc, MXML_NO_CALLBACK,
NULL));
}
/*
* 'mxmlSaveAllocString()' - Save an XML tree to an allocated string.
*
* This function returns a pointer to a string containing the textual
* representation of the XML node tree. The string should be freed
* using the free() function when you are done with it. @code NULL@ is returned
* if the node would produce an empty string or if the string cannot be
* allocated.
*
* The callback argument specifies a function that returns a whitespace
* string or NULL before and after each element. If @code MXML_NO_CALLBACK@
* is specified, whitespace will only be added before @code MXML_TEXT@ nodes
* with leading whitespace and before attribute names inside opening
* element tags.
*/
char * /* O - Allocated string or @code NULL@ */
mxmlSaveAllocString(
mxml_node_t *node, /* I - Node to write */
mxml_save_cb_t cb) /* I - Whitespace callback or @code MXML_NO_CALLBACK@ */
{
int bytes; /* Required bytes */
char buffer[8192]; /* Temporary buffer */
char *s; /* Allocated string */
/*
* Write the node to the temporary buffer...
*/
bytes = mxmlSaveString(node, buffer, sizeof(buffer), cb);
if (bytes <= 0)
return (NULL);
if (bytes < (int)(sizeof(buffer) - 1))
{
/*
* Node fit inside the buffer, so just duplicate that string and
* return...
*/
return (strdup(buffer));
}
/*
* Allocate a buffer of the required size and save the node to the
* new buffer...
*/
if ((s = malloc(bytes + 1)) == NULL)
return (NULL);
mxmlSaveString(node, s, bytes + 1, cb);
/*
* Return the allocated string...
*/
return (s);
}
/*
* 'mxmlSaveFd()' - Save an XML tree to a file descriptor.
*
* The callback argument specifies a function that returns a whitespace
* string or NULL before and after each element. If @code MXML_NO_CALLBACK@
* is specified, whitespace will only be added before @code MXML_TEXT@ nodes
* with leading whitespace and before attribute names inside opening
* element tags.
*/
int /* O - 0 on success, -1 on error. */
mxmlSaveFd(mxml_node_t *node, /* I - Node to write */
int fd, /* I - File descriptor to write to */
mxml_save_cb_t cb) /* I - Whitespace callback or @code MXML_NO_CALLBACK@ */
{
int col; /* Final column */
_mxml_fdbuf_t buf; /* File descriptor buffer */
_mxml_global_t *global = _mxml_global();
/* Global data */
/*
* Initialize the file descriptor buffer...
*/
buf.fd = fd;
buf.current = buf.buffer;
buf.end = buf.buffer + sizeof(buf.buffer);
/*
* Write the node...
*/
if ((col = mxml_write_node(node, &buf, cb, 0, mxml_fd_putc, global)) < 0)
return (-1);
if (col > 0)
if (mxml_fd_putc('\n', &buf) < 0)
return (-1);
/*
* Flush and return...
*/
return (mxml_fd_write(&buf));
}
/*
* 'mxmlSaveFile()' - Save an XML tree to a file.
*
* The callback argument specifies a function that returns a whitespace
* string or NULL before and after each element. If @code MXML_NO_CALLBACK@
* is specified, whitespace will only be added before @code MXML_TEXT@ nodes
* with leading whitespace and before attribute names inside opening
* element tags.
*/
int /* O - 0 on success, -1 on error. */
mxmlSaveFile(mxml_node_t *node, /* I - Node to write */
FILE *fp, /* I - File to write to */
mxml_save_cb_t cb) /* I - Whitespace callback or @code MXML_NO_CALLBACK@ */
{
int col; /* Final column */
_mxml_global_t *global = _mxml_global();
/* Global data */
/*
* Write the node...
*/
if ((col = mxml_write_node(node, fp, cb, 0, mxml_file_putc, global)) < 0)
return (-1);
if (col > 0)
if (putc('\n', fp) < 0)
return (-1);
/*
* Return 0 (success)...
*/
return (0);
}
/*
* 'mxmlSaveString()' - Save an XML node tree to a string.
*
* This function returns the total number of bytes that would be
* required for the string but only copies (bufsize - 1) characters
* into the specified buffer.
*
* The callback argument specifies a function that returns a whitespace
* string or NULL before and after each element. If @code MXML_NO_CALLBACK@
* is specified, whitespace will only be added before @code MXML_TEXT@ nodes
* with leading whitespace and before attribute names inside opening
* element tags.
*/
int /* O - Size of string */
mxmlSaveString(mxml_node_t *node, /* I - Node to write */
char *buffer, /* I - String buffer */
int bufsize, /* I - Size of string buffer */
mxml_save_cb_t cb) /* I - Whitespace callback or @code MXML_NO_CALLBACK@ */
{
int col; /* Final column */
char *ptr[2]; /* Pointers for putc_cb */
_mxml_global_t *global = _mxml_global();
/* Global data */
/*
* Write the node...
*/
ptr[0] = buffer;
ptr[1] = buffer + bufsize;
if ((col = mxml_write_node(node, ptr, cb, 0, mxml_string_putc, global)) < 0)
return (-1);
if (col > 0)
mxml_string_putc('\n', ptr);
/*
* Nul-terminate the buffer...
*/
if (ptr[0] >= ptr[1])
buffer[bufsize - 1] = '\0';
else
ptr[0][0] = '\0';
/*
* Return the number of characters...
*/
return ((int)(ptr[0] - buffer));
}
/*
* 'mxmlSAXLoadFd()' - Load a file descriptor into an XML node tree
* using a SAX callback.
*
* The nodes in the specified file are added to the specified top node.
* If no top node is provided, the XML file MUST be well-formed with a
* single parent node like <?xml> for the entire file. The callback
* function returns the value type that should be used for child nodes.
* The constants @code MXML_INTEGER_CALLBACK@, @code MXML_OPAQUE_CALLBACK@,
* @code MXML_REAL_CALLBACK@, and @code MXML_TEXT_CALLBACK@ are defined for
* loading child nodes of the specified type.
*
* The SAX callback must call @link mxmlRetain@ for any nodes that need to
* be kept for later use. Otherwise, nodes are deleted when the parent
* node is closed or after each data, comment, CDATA, or directive node.
*
* @since Mini-XML 2.3@
*/
mxml_node_t * /* O - First node or @code NULL@ if the file could not be read. */
mxmlSAXLoadFd(mxml_node_t *top, /* I - Top node */
int fd, /* I - File descriptor to read from */
mxml_load_cb_t cb, /* I - Callback function or constant */
mxml_sax_cb_t sax_cb, /* I - SAX callback or @code MXML_NO_CALLBACK@ */
void *sax_data) /* I - SAX user data */
{
_mxml_fdbuf_t buf; /* File descriptor buffer */
/*
* Initialize the file descriptor buffer...
*/
buf.fd = fd;
buf.current = buf.buffer;
buf.end = buf.buffer;
/*
* Read the XML data...
*/
return (mxml_load_data(top, &buf, cb, mxml_fd_getc, sax_cb, sax_data));
}
/*
* 'mxmlSAXLoadFile()' - Load a file into an XML node tree
* using a SAX callback.
*
* The nodes in the specified file are added to the specified top node.
* If no top node is provided, the XML file MUST be well-formed with a
* single parent node like <?xml> for the entire file. The callback
* function returns the value type that should be used for child nodes.
* The constants @code MXML_INTEGER_CALLBACK@, @code MXML_OPAQUE_CALLBACK@,
* @code MXML_REAL_CALLBACK@, and @code MXML_TEXT_CALLBACK@ are defined for
* loading child nodes of the specified type.
*
* The SAX callback must call @link mxmlRetain@ for any nodes that need to
* be kept for later use. Otherwise, nodes are deleted when the parent
* node is closed or after each data, comment, CDATA, or directive node.
*
* @since Mini-XML 2.3@
*/
mxml_node_t * /* O - First node or @code NULL@ if the file could not be read. */
mxmlSAXLoadFile(
mxml_node_t *top, /* I - Top node */
FILE *fp, /* I - File to read from */
mxml_load_cb_t cb, /* I - Callback function or constant */
mxml_sax_cb_t sax_cb, /* I - SAX callback or @code MXML_NO_CALLBACK@ */
void *sax_data) /* I - SAX user data */
{
/*
* Read the XML data...
*/
return (mxml_load_data(top, fp, cb, mxml_file_getc, sax_cb, sax_data));
}
/*
* 'mxmlSAXLoadString()' - Load a string into an XML node tree
* using a SAX callback.
*
* The nodes in the specified string are added to the specified top node.
* If no top node is provided, the XML string MUST be well-formed with a
* single parent node like <?xml> for the entire string. The callback
* function returns the value type that should be used for child nodes.
* The constants @code MXML_INTEGER_CALLBACK@, @code MXML_OPAQUE_CALLBACK@,
* @code MXML_REAL_CALLBACK@, and @code MXML_TEXT_CALLBACK@ are defined for
* loading child nodes of the specified type.
*
* The SAX callback must call @link mxmlRetain@ for any nodes that need to
* be kept for later use. Otherwise, nodes are deleted when the parent
* node is closed or after each data, comment, CDATA, or directive node.
*
* @since Mini-XML 2.3@
*/
mxml_node_t * /* O - First node or @code NULL@ if the string has errors. */
mxmlSAXLoadString(
mxml_node_t *top, /* I - Top node */
const char *s, /* I - String to load */
mxml_load_cb_t cb, /* I - Callback function or constant */
mxml_sax_cb_t sax_cb, /* I - SAX callback or @code MXML_NO_CALLBACK@ */
void *sax_data) /* I - SAX user data */
{
/*
* Read the XML data...
*/
return (mxml_load_data(top, (void *)&s, cb, mxml_string_getc, sax_cb, sax_data));
}
/*
* 'mxmlSetCustomHandlers()' - Set the handling functions for custom data.
*
* The load function accepts a node pointer and a data string and must
* return 0 on success and non-zero on error.
*
* The save function accepts a node pointer and must return a malloc'd
* string on success and @code NULL@ on error.
*
*/
void
mxmlSetCustomHandlers(
mxml_custom_load_cb_t load, /* I - Load function */
mxml_custom_save_cb_t save) /* I - Save function */
{
_mxml_global_t *global = _mxml_global();
/* Global data */
global->custom_load_cb = load;
global->custom_save_cb = save;
}
/*
* 'mxmlSetErrorCallback()' - Set the error message callback.
*/
void
mxmlSetErrorCallback(mxml_error_cb_t cb)/* I - Error callback function */
{
_mxml_global_t *global = _mxml_global();
/* Global data */
global->error_cb = cb;
}
/*
* 'mxmlSetWrapMargin()' - Set the wrap margin when saving XML data.
*
* Wrapping is disabled when "column" is 0.
*
* @since Mini-XML 2.3@
*/
void
mxmlSetWrapMargin(int column) /* I - Column for wrapping, 0 to disable wrapping */
{
_mxml_global_t *global = _mxml_global();
/* Global data */
global->wrap = column;
}
/*
* 'mxml_add_char()' - Add a character to a buffer, expanding as needed.
*/
static int /* O - 0 on success, -1 on error */
mxml_add_char(int ch, /* I - Character to add */
char **bufptr, /* IO - Current position in buffer */
char **buffer, /* IO - Current buffer */
int *bufsize) /* IO - Current buffer size */
{
char *newbuffer; /* New buffer value */
if (*bufptr >= (*buffer + *bufsize - 4))
{
/*
* Increase the size of the buffer...
*/
if (*bufsize < 1024)
(*bufsize) *= 2;
else
(*bufsize) += 1024;
if ((newbuffer = realloc(*buffer, *bufsize)) == NULL)
{
free(*buffer);
mxml_error("Unable to expand string buffer to %d bytes!", *bufsize);
return (-1);
}
*bufptr = newbuffer + (*bufptr - *buffer);
*buffer = newbuffer;
}
if (ch < 0x80)
{
/*
* Single byte ASCII...
*/
*(*bufptr)++ = ch;
}
else if (ch < 0x800)
{
/*
* Two-byte UTF-8...
*/
*(*bufptr)++ = 0xc0 | (ch >> 6);
*(*bufptr)++ = 0x80 | (ch & 0x3f);
}
else if (ch < 0x10000)
{
/*
* Three-byte UTF-8...
*/
*(*bufptr)++ = 0xe0 | (ch >> 12);
*(*bufptr)++ = 0x80 | ((ch >> 6) & 0x3f);
*(*bufptr)++ = 0x80 | (ch & 0x3f);
}
else
{
/*
* Four-byte UTF-8...
*/
*(*bufptr)++ = 0xf0 | (ch >> 18);
*(*bufptr)++ = 0x80 | ((ch >> 12) & 0x3f);
*(*bufptr)++ = 0x80 | ((ch >> 6) & 0x3f);
*(*bufptr)++ = 0x80 | (ch & 0x3f);
}
return (0);
}
/*
* 'mxml_fd_getc()' - Read a character from a file descriptor.
*/
static int /* O - Character or EOF */
mxml_fd_getc(void *p, /* I - File descriptor buffer */
int *encoding) /* IO - Encoding */
{
_mxml_fdbuf_t *buf; /* File descriptor buffer */
int ch, /* Current character */
temp; /* Temporary character */
/*
* Grab the next character in the buffer...
*/
buf = (_mxml_fdbuf_t *)p;
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
ch = *(buf->current)++;
switch (*encoding)
{
case ENCODE_UTF8 :
/*
* Got a UTF-8 character; convert UTF-8 to Unicode and return...
*/
if (!(ch & 0x80))
{
#if DEBUG > 1
printf("mxml_fd_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
return (ch);
}
else if (ch == 0xfe)
{
/*
* UTF-16 big-endian BOM?
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
ch = *(buf->current)++;
if (ch != 0xff)
return (EOF);
*encoding = ENCODE_UTF16BE;
return (mxml_fd_getc(p, encoding));
}
else if (ch == 0xff)
{
/*
* UTF-16 little-endian BOM?
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
ch = *(buf->current)++;
if (ch != 0xfe)
return (EOF);
*encoding = ENCODE_UTF16LE;
return (mxml_fd_getc(p, encoding));
}
else if ((ch & 0xe0) == 0xc0)
{
/*
* Two-byte value...
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
if ((temp & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x1f) << 6) | (temp & 0x3f);
if (ch < 0x80)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
}
else if ((ch & 0xf0) == 0xe0)
{
/*
* Three-byte value...
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
if ((temp & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x0f) << 6) | (temp & 0x3f);
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
if ((temp & 0xc0) != 0x80)
return (EOF);
ch = (ch << 6) | (temp & 0x3f);
if (ch < 0x800)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
/*
* Ignore (strip) Byte Order Mark (BOM)...
*/
if (ch == 0xfeff)
return (mxml_fd_getc(p, encoding));
}
else if ((ch & 0xf8) == 0xf0)
{
/*
* Four-byte value...
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
if ((temp & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x07) << 6) | (temp & 0x3f);
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
if ((temp & 0xc0) != 0x80)
return (EOF);
ch = (ch << 6) | (temp & 0x3f);
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
if ((temp & 0xc0) != 0x80)
return (EOF);
ch = (ch << 6) | (temp & 0x3f);
if (ch < 0x10000)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
}
else
return (EOF);
break;
case ENCODE_UTF16BE :
/*
* Read UTF-16 big-endian char...
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
ch = (ch << 8) | temp;
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
else if (ch >= 0xd800 && ch <= 0xdbff)
{
/*
* Multi-word UTF-16 char...
*/
int lch;
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
lch = *(buf->current)++;
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
lch = (lch << 8) | temp;
if (lch < 0xdc00 || lch >= 0xdfff)
return (EOF);
ch = (((ch & 0x3ff) << 10) | (lch & 0x3ff)) + 0x10000;
}
break;
case ENCODE_UTF16LE :
/*
* Read UTF-16 little-endian char...
*/
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
ch |= (temp << 8);
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
else if (ch >= 0xd800 && ch <= 0xdbff)
{
/*
* Multi-word UTF-16 char...
*/
int lch;
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
lch = *(buf->current)++;
if (buf->current >= buf->end)
if (mxml_fd_read(buf) < 0)
return (EOF);
temp = *(buf->current)++;
lch |= (temp << 8);
if (lch < 0xdc00 || lch >= 0xdfff)
return (EOF);
ch = (((ch & 0x3ff) << 10) | (lch & 0x3ff)) + 0x10000;
}
break;
}
#if DEBUG > 1
printf("mxml_fd_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
/*
* 'mxml_fd_putc()' - Write a character to a file descriptor.
*/
static int /* O - 0 on success, -1 on error */
mxml_fd_putc(int ch, /* I - Character */
void *p) /* I - File descriptor buffer */
{
_mxml_fdbuf_t *buf; /* File descriptor buffer */
/*
* Flush the write buffer as needed...
*/
buf = (_mxml_fdbuf_t *)p;
if (buf->current >= buf->end)
if (mxml_fd_write(buf) < 0)
return (-1);
*(buf->current)++ = ch;
/*
* Return successfully...
*/
return (0);
}
/*
* 'mxml_fd_read()' - Read a buffer of data from a file descriptor.
*/
static int /* O - 0 on success, -1 on error */
mxml_fd_read(_mxml_fdbuf_t *buf) /* I - File descriptor buffer */
{
int bytes; /* Bytes read... */
/*
* Range check input...
*/
if (!buf)
return (-1);
/*
* Read from the file descriptor...
*/
while ((bytes = (int)read(buf->fd, buf->buffer, sizeof(buf->buffer))) < 0)
#ifdef EINTR
if (errno != EAGAIN && errno != EINTR)
#else
if (errno != EAGAIN)
#endif /* EINTR */
return (-1);
if (bytes == 0)
return (-1);
/*
* Update the pointers and return success...
*/
buf->current = buf->buffer;
buf->end = buf->buffer + bytes;
return (0);
}
/*
* 'mxml_fd_write()' - Write a buffer of data to a file descriptor.
*/
static int /* O - 0 on success, -1 on error */
mxml_fd_write(_mxml_fdbuf_t *buf) /* I - File descriptor buffer */
{
int bytes; /* Bytes written */
unsigned char *ptr; /* Pointer into buffer */
/*
* Range check...
*/
if (!buf)
return (-1);
/*
* Return 0 if there is nothing to write...
*/
if (buf->current == buf->buffer)
return (0);
/*
* Loop until we have written everything...
*/
for (ptr = buf->buffer; ptr < buf->current; ptr += bytes)
if ((bytes = (int)write(buf->fd, ptr, buf->current - ptr)) < 0)
return (-1);
/*
* All done, reset pointers and return success...
*/
buf->current = buf->buffer;
return (0);
}
/*
* 'mxml_file_getc()' - Get a character from a file.
*/
static int /* O - Character or EOF */
mxml_file_getc(void *p, /* I - Pointer to file */
int *encoding) /* IO - Encoding */
{
int ch, /* Character from file */
temp; /* Temporary character */
FILE *fp; /* Pointer to file */
/*
* Read a character from the file and see if it is EOF or ASCII...
*/
fp = (FILE *)p;
ch = getc(fp);
if (ch == EOF)
return (EOF);
switch (*encoding)
{
case ENCODE_UTF8 :
/*
* Got a UTF-8 character; convert UTF-8 to Unicode and return...
*/
if (!(ch & 0x80))
{
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
#if DEBUG > 1
printf("mxml_file_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
else if (ch == 0xfe)
{
/*
* UTF-16 big-endian BOM?
*/
ch = getc(fp);
if (ch != 0xff)
return (EOF);
*encoding = ENCODE_UTF16BE;
return (mxml_file_getc(p, encoding));
}
else if (ch == 0xff)
{
/*
* UTF-16 little-endian BOM?
*/
ch = getc(fp);
if (ch != 0xfe)
return (EOF);
*encoding = ENCODE_UTF16LE;
return (mxml_file_getc(p, encoding));
}
else if ((ch & 0xe0) == 0xc0)
{
/*
* Two-byte value...
*/
if ((temp = getc(fp)) == EOF || (temp & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x1f) << 6) | (temp & 0x3f);
if (ch < 0x80)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
}
else if ((ch & 0xf0) == 0xe0)
{
/*
* Three-byte value...
*/
if ((temp = getc(fp)) == EOF || (temp & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x0f) << 6) | (temp & 0x3f);
if ((temp = getc(fp)) == EOF || (temp & 0xc0) != 0x80)
return (EOF);
ch = (ch << 6) | (temp & 0x3f);
if (ch < 0x800)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
/*
* Ignore (strip) Byte Order Mark (BOM)...
*/
if (ch == 0xfeff)
return (mxml_file_getc(p, encoding));
}
else if ((ch & 0xf8) == 0xf0)
{
/*
* Four-byte value...
*/
if ((temp = getc(fp)) == EOF || (temp & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x07) << 6) | (temp & 0x3f);
if ((temp = getc(fp)) == EOF || (temp & 0xc0) != 0x80)
return (EOF);
ch = (ch << 6) | (temp & 0x3f);
if ((temp = getc(fp)) == EOF || (temp & 0xc0) != 0x80)
return (EOF);
ch = (ch << 6) | (temp & 0x3f);
if (ch < 0x10000)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
}
else
return (EOF);
break;
case ENCODE_UTF16BE :
/*
* Read UTF-16 big-endian char...
*/
ch = (ch << 8) | getc(fp);
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
else if (ch >= 0xd800 && ch <= 0xdbff)
{
/*
* Multi-word UTF-16 char...
*/
int lch = getc(fp);
lch = (lch << 8) | getc(fp);
if (lch < 0xdc00 || lch >= 0xdfff)
return (EOF);
ch = (((ch & 0x3ff) << 10) | (lch & 0x3ff)) + 0x10000;
}
break;
case ENCODE_UTF16LE :
/*
* Read UTF-16 little-endian char...
*/
ch |= (getc(fp) << 8);
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
else if (ch >= 0xd800 && ch <= 0xdbff)
{
/*
* Multi-word UTF-16 char...
*/
int lch = getc(fp);
lch |= (getc(fp) << 8);
if (lch < 0xdc00 || lch >= 0xdfff)
return (EOF);
ch = (((ch & 0x3ff) << 10) | (lch & 0x3ff)) + 0x10000;
}
break;
}
#if DEBUG > 1
printf("mxml_file_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
/*
* 'mxml_file_putc()' - Write a character to a file.
*/
static int /* O - 0 on success, -1 on failure */
mxml_file_putc(int ch, /* I - Character to write */
void *p) /* I - Pointer to file */
{
return (putc(ch, (FILE *)p) == EOF ? -1 : 0);
}
/*
* 'mxml_get_entity()' - Get the character corresponding to an entity...
*/
static int /* O - Character value or EOF on error */
mxml_get_entity(mxml_node_t *parent, /* I - Parent node */
void *p, /* I - Pointer to source */
int *encoding, /* IO - Character encoding */
int (*getc_cb)(void *, int *),
/* I - Get character function */
int *line) /* IO - Current line number */
{
int ch; /* Current character */
char entity[64], /* Entity string */
*entptr; /* Pointer into entity */
entptr = entity;
while ((ch = (*getc_cb)(p, encoding)) != EOF)
{
if (ch > 126 || (!isalnum(ch) && ch != '#'))
break;
else if (entptr < (entity + sizeof(entity) - 1))
*entptr++ = ch;
else
{
mxml_error("Entity name too long under parent <%s> on line %d.", parent ? parent->value.element.name : "null", *line);
break;
}
}
*entptr = '\0';
if (ch != ';')
{
mxml_error("Character entity '%s' not terminated under parent <%s> on line %d.", entity, parent ? parent->value.element.name : "null", *line);
if (ch == '\n')
(*line)++;
return (EOF);
}
if (entity[0] == '#')
{
if (entity[1] == 'x')
ch = (int)strtol(entity + 2, NULL, 16);
else
ch = (int)strtol(entity + 1, NULL, 10);
}
else if ((ch = mxmlEntityGetValue(entity)) < 0)
mxml_error("Entity name '%s;' not supported under parent <%s> on line %d.", entity, parent ? parent->value.element.name : "null", *line);
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x under parent <%s> on line %d not allowed by XML standard.", ch, parent ? parent->value.element.name : "null", *line);
return (EOF);
}
return (ch);
}
/*
* 'mxml_load_data()' - Load data into an XML node tree.
*/
static mxml_node_t * /* O - First node or NULL if the file could not be read. */
mxml_load_data(
mxml_node_t *top, /* I - Top node */
void *p, /* I - Pointer to data */
mxml_load_cb_t cb, /* I - Callback function or MXML_NO_CALLBACK */
_mxml_getc_cb_t getc_cb, /* I - Read function */
mxml_sax_cb_t sax_cb, /* I - SAX callback or MXML_NO_CALLBACK */
void *sax_data) /* I - SAX user data */
{
mxml_node_t *node, /* Current node */
*first, /* First node added */
*parent; /* Current parent node */
int line = 1, /* Current line number */
ch, /* Character from file */
whitespace; /* Non-zero if whitespace seen */
char *buffer, /* String buffer */
*bufptr; /* Pointer into buffer */
int bufsize; /* Size of buffer */
mxml_type_t type; /* Current node type */
int encoding; /* Character encoding */
_mxml_global_t *global = _mxml_global();
/* Global data */
static const char * const types[] = /* Type strings... */
{
"MXML_ELEMENT", /* XML element with attributes */
"MXML_INTEGER", /* Integer value */
"MXML_OPAQUE", /* Opaque string */
"MXML_REAL", /* Real value */
"MXML_TEXT", /* Text fragment */
"MXML_CUSTOM" /* Custom data */
};
/*
* Read elements and other nodes from the file...
*/
if ((buffer = malloc(64)) == NULL)
{
mxml_error("Unable to allocate string buffer!");
return (NULL);
}
bufsize = 64;
bufptr = buffer;
parent = top;
first = NULL;
whitespace = 0;
encoding = ENCODE_UTF8;
if (cb && parent)
type = (*cb)(parent);
else if (parent)
type = MXML_TEXT;
else
type = MXML_IGNORE;
if ((ch = (*getc_cb)(p, &encoding)) == EOF)
{
free(buffer);
return (NULL);
}
else if (ch != '<' && !top)
{
free(buffer);
mxml_error("XML does not start with '<' (saw '%c').", ch);
return (NULL);
}
do
{
if ((ch == '<' ||
(mxml_isspace(ch) && type != MXML_OPAQUE && type != MXML_CUSTOM)) &&
bufptr > buffer)
{
/*
* Add a new value node...
*/
*bufptr = '\0';
switch (type)
{
case MXML_INTEGER :
node = mxmlNewInteger(parent, (int)strtol(buffer, &bufptr, 0));
break;
case MXML_OPAQUE :
node = mxmlNewOpaque(parent, buffer);
break;
case MXML_REAL :
node = mxmlNewReal(parent, strtod(buffer, &bufptr));
break;
case MXML_TEXT :
node = mxmlNewText(parent, whitespace, buffer);
break;
case MXML_CUSTOM :
if (global->custom_load_cb)
{
/*
* Use the callback to fill in the custom data...
*/
node = mxmlNewCustom(parent, NULL, NULL);
if ((*global->custom_load_cb)(node, buffer))
{
mxml_error("Bad custom value '%s' in parent <%s> on line %d.", buffer, parent ? parent->value.element.name : "null", line);
mxmlDelete(node);
node = NULL;
}
break;
}
default : /* Ignore... */
node = NULL;
break;
}
if (*bufptr)
{
/*
* Bad integer/real number value...
*/
mxml_error("Bad %s value '%s' in parent <%s> on line %d.", type == MXML_INTEGER ? "integer" : "real", buffer, parent ? parent->value.element.name : "null", line);
break;
}
bufptr = buffer;
whitespace = mxml_isspace(ch) && type == MXML_TEXT;
if (!node && type != MXML_IGNORE)
{
/*
* Print error and return...
*/
mxml_error("Unable to add value node of type %s to parent <%s> on line %d.", types[type], parent ? parent->value.element.name : "null", line);
goto error;
}
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_DATA, sax_data);
if (!mxmlRelease(node))
node = NULL;
}
if (!first && node)
first = node;
}
else if (mxml_isspace(ch) && type == MXML_TEXT)
whitespace = 1;
if (ch == '\n')
line ++;
/*
* Add lone whitespace node if we have an element and existing
* whitespace...
*/
if (ch == '<' && whitespace && type == MXML_TEXT)
{
if (parent)
{
node = mxmlNewText(parent, whitespace, "");
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_DATA, sax_data);
if (!mxmlRelease(node))
node = NULL;
}
if (!first && node)
first = node;
}
whitespace = 0;
}
if (ch == '<')
{
/*
* Start of open/close tag...
*/
bufptr = buffer;
while ((ch = (*getc_cb)(p, &encoding)) != EOF)
{
if (mxml_isspace(ch) || ch == '>' || (ch == '/' && bufptr > buffer))
break;
else if (ch == '<')
{
mxml_error("Bare < in element!");
goto error;
}
else if (ch == '&')
{
if ((ch = mxml_get_entity(parent, p, &encoding, getc_cb, &line)) == EOF)
goto error;
if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
}
else if (ch < '0' && ch != '!' && ch != '-' && ch != '.' && ch != '/')
goto error;
else if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
else if (((bufptr - buffer) == 1 && buffer[0] == '?') ||
((bufptr - buffer) == 3 && !strncmp(buffer, "!--", 3)) ||
((bufptr - buffer) == 8 && !strncmp(buffer, "![CDATA[", 8)))
break;
if (ch == '\n')
line ++;
}
*bufptr = '\0';
if (!strcmp(buffer, "!--"))
{
/*
* Gather rest of comment...
*/
while ((ch = (*getc_cb)(p, &encoding)) != EOF)
{
if (ch == '>' && bufptr > (buffer + 4) &&
bufptr[-3] != '-' && bufptr[-2] == '-' && bufptr[-1] == '-')
break;
else if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
if (ch == '\n')
line ++;
}
/*
* Error out if we didn't get the whole comment...
*/
if (ch != '>')
{
/*
* Print error and return...
*/
mxml_error("Early EOF in comment node on line %d.", line);
goto error;
}
/*
* Otherwise add this as an element under the current parent...
*/
*bufptr = '\0';
if (!parent && first)
{
/*
* There can only be one root element!
*/
mxml_error("<%s> cannot be a second root node after <%s> on line %d.", buffer, first->value.element.name, line);
goto error;
}
if ((node = mxmlNewElement(parent, buffer)) == NULL)
{
/*
* Just print error for now...
*/
mxml_error("Unable to add comment node to parent <%s> on line %d.", parent ? parent->value.element.name : "null", line);
break;
}
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_COMMENT, sax_data);
if (!mxmlRelease(node))
node = NULL;
}
if (node && !first)
first = node;
}
else if (!strcmp(buffer, "![CDATA["))
{
/*
* Gather CDATA section...
*/
while ((ch = (*getc_cb)(p, &encoding)) != EOF)
{
if (ch == '>' && !strncmp(bufptr - 2, "]]", 2))
{
/*
* Drop terminator from CDATA string...
*/
bufptr[-2] = '\0';
break;
}
else if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
if (ch == '\n')
line ++;
}
/*
* Error out if we didn't get the whole comment...
*/
if (ch != '>')
{
/*
* Print error and return...
*/
mxml_error("Early EOF in CDATA node on line %d.", line);
goto error;
}
/*
* Otherwise add this as an element under the current parent...
*/
*bufptr = '\0';
if (!parent && first)
{
/*
* There can only be one root element!
*/
mxml_error("<%s> cannot be a second root node after <%s> on line %d.", buffer, first->value.element.name, line);
goto error;
}
if ((node = mxmlNewElement(parent, buffer)) == NULL)
{
/*
* Print error and return...
*/
mxml_error("Unable to add CDATA node to parent <%s> on line %d.", parent ? parent->value.element.name : "null", line);
goto error;
}
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_CDATA, sax_data);
if (!mxmlRelease(node))
node = NULL;
}
if (node && !first)
first = node;
}
else if (buffer[0] == '?')
{
/*
* Gather rest of processing instruction...
*/
while ((ch = (*getc_cb)(p, &encoding)) != EOF)
{
if (ch == '>' && bufptr > buffer && bufptr[-1] == '?')
break;
else if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
if (ch == '\n')
line ++;
}
/*
* Error out if we didn't get the whole processing instruction...
*/
if (ch != '>')
{
/*
* Print error and return...
*/
mxml_error("Early EOF in processing instruction node on line %d.", line);
goto error;
}
/*
* Otherwise add this as an element under the current parent...
*/
*bufptr = '\0';
if (!parent && first)
{
/*
* There can only be one root element!
*/
mxml_error("<%s> cannot be a second root node after <%s> on line %d.", buffer, first->value.element.name, line);
goto error;
}
if ((node = mxmlNewElement(parent, buffer)) == NULL)
{
/*
* Print error and return...
*/
mxml_error("Unable to add processing instruction node to parent <%s> on line %d.", parent ? parent->value.element.name : "null", line);
goto error;
}
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_DIRECTIVE, sax_data);
if (strncmp(node->value.element.name, "?xml ", 5) && !mxmlRelease(node))
node = NULL;
}
if (node)
{
if (!first)
first = node;
if (!parent)
{
parent = node;
if (cb)
type = (*cb)(parent);
else
type = MXML_TEXT;
}
}
}
else if (buffer[0] == '!')
{
/*
* Gather rest of declaration...
*/
do
{
if (ch == '>')
break;
else
{
if (ch == '&')
{
if ((ch = mxml_get_entity(parent, p, &encoding, getc_cb, &line)) == EOF)
goto error;
}
if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
}
if (ch == '\n')
line ++;
}
while ((ch = (*getc_cb)(p, &encoding)) != EOF);
/*
* Error out if we didn't get the whole declaration...
*/
if (ch != '>')
{
/*
* Print error and return...
*/
mxml_error("Early EOF in declaration node on line %d.", line);
goto error;
}
/*
* Otherwise add this as an element under the current parent...
*/
*bufptr = '\0';
if (!parent && first)
{
/*
* There can only be one root element!
*/
mxml_error("<%s> cannot be a second root node after <%s> on line %d.", buffer, first->value.element.name, line);
goto error;
}
if ((node = mxmlNewElement(parent, buffer)) == NULL)
{
/*
* Print error and return...
*/
mxml_error("Unable to add declaration node to parent <%s> on line %d.", parent ? parent->value.element.name : "null", line);
goto error;
}
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_DIRECTIVE, sax_data);
if (!mxmlRelease(node))
node = NULL;
}
if (node)
{
if (!first)
first = node;
if (!parent)
{
parent = node;
if (cb)
type = (*cb)(parent);
else
type = MXML_TEXT;
}
}
}
else if (buffer[0] == '/')
{
/*
* Handle close tag...
*/
if (!parent || strcmp(buffer + 1, parent->value.element.name))
{
/*
* Close tag doesn't match tree; print an error for now...
*/
mxml_error("Mismatched close tag <%s> under parent <%s> on line %d.", buffer, parent ? parent->value.element.name : "(null)", line);
goto error;
}
/*
* Keep reading until we see >...
*/
while (ch != '>' && ch != EOF)
ch = (*getc_cb)(p, &encoding);
node = parent;
parent = parent->parent;
if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_ELEMENT_CLOSE, sax_data);
if (!mxmlRelease(node) && first == node)
first = NULL;
}
/*
* Ascend into the parent and set the value type as needed...
*/
if (cb && parent)
type = (*cb)(parent);
}
else
{
/*
* Handle open tag...
*/
if (!parent && first)
{
/*
* There can only be one root element!
*/
mxml_error("<%s> cannot be a second root node after <%s> on line %d.", buffer, first->value.element.name, line);
goto error;
}
if ((node = mxmlNewElement(parent, buffer)) == NULL)
{
/*
* Just print error for now...
*/
mxml_error("Unable to add element node to parent <%s> on line %d.", parent ? parent->value.element.name : "null", line);
goto error;
}
if (mxml_isspace(ch))
{
if ((ch = mxml_parse_element(node, p, &encoding, getc_cb, &line)) == EOF)
goto error;
}
else if (ch == '/')
{
if ((ch = (*getc_cb)(p, &encoding)) != '>')
{
mxml_error("Expected > but got '%c' instead for element <%s/> on line %d.", ch, buffer, line);
mxmlDelete(node);
goto error;
}
ch = '/';
}
if (sax_cb)
(*sax_cb)(node, MXML_SAX_ELEMENT_OPEN, sax_data);
if (!first)
first = node;
if (ch == EOF)
break;
if (ch != '/')
{
/*
* Descend into this node, setting the value type as needed...
*/
parent = node;
if (cb && parent)
type = (*cb)(parent);
else
type = MXML_TEXT;
}
else if (sax_cb)
{
(*sax_cb)(node, MXML_SAX_ELEMENT_CLOSE, sax_data);
if (!mxmlRelease(node) && first == node)
first = NULL;
}
}
bufptr = buffer;
}
else if (ch == '&')
{
/*
* Add character entity to current buffer...
*/
if ((ch = mxml_get_entity(parent, p, &encoding, getc_cb, &line)) == EOF)
goto error;
if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
}
else if (type == MXML_OPAQUE || type == MXML_CUSTOM || !mxml_isspace(ch))
{
/*
* Add character to current buffer...
*/
if (mxml_add_char(ch, &bufptr, &buffer, &bufsize))
goto error;
}
}
while ((ch = (*getc_cb)(p, &encoding)) != EOF);
/*
* Free the string buffer - we don't need it anymore...
*/
free(buffer);
/*
* Find the top element and return it...
*/
if (parent)
{
node = parent;
while (parent != top && parent->parent)
parent = parent->parent;
if (node != parent)
{
mxml_error("Missing close tag </%s> under parent <%s> on line %d.", node->value.element.name, node->parent ? node->parent->value.element.name : "(null)", line);
mxmlDelete(first);
return (NULL);
}
}
if (parent)
return (parent);
else
return (first);
/*
* Common error return...
*/
error:
mxmlDelete(first);
free(buffer);
return (NULL);
}
/*
* 'mxml_parse_element()' - Parse an element for any attributes...
*/
static int /* O - Terminating character */
mxml_parse_element(
mxml_node_t *node, /* I - Element node */
void *p, /* I - Data to read from */
int *encoding, /* IO - Encoding */
_mxml_getc_cb_t getc_cb, /* I - Data callback */
int *line) /* IO - Current line number */
{
int ch, /* Current character in file */
quote; /* Quoting character */
char *name, /* Attribute name */
*value, /* Attribute value */
*ptr; /* Pointer into name/value */
int namesize, /* Size of name string */
valsize; /* Size of value string */
/*
* Initialize the name and value buffers...
*/
if ((name = malloc(64)) == NULL)
{
mxml_error("Unable to allocate memory for name!");
return (EOF);
}
namesize = 64;
if ((value = malloc(64)) == NULL)
{
free(name);
mxml_error("Unable to allocate memory for value!");
return (EOF);
}
valsize = 64;
/*
* Loop until we hit a >, /, ?, or EOF...
*/
while ((ch = (*getc_cb)(p, encoding)) != EOF)
{
#if DEBUG > 1
fprintf(stderr, "parse_element: ch='%c'\n", ch);
#endif /* DEBUG > 1 */
/*
* Skip leading whitespace...
*/
if (mxml_isspace(ch))
{
if (ch == '\n')
(*line)++;
continue;
}
/*
* Stop at /, ?, or >...
*/
if (ch == '/' || ch == '?')
{
/*
* Grab the > character and print an error if it isn't there...
*/
quote = (*getc_cb)(p, encoding);
if (quote != '>')
{
mxml_error("Expected '>' after '%c' for element %s, but got '%c' on line %d.", ch, node->value.element.name, quote, *line);
goto error;
}
break;
}
else if (ch == '<')
{
mxml_error("Bare < in element %s on line %d.", node->value.element.name, *line);
goto error;
}
else if (ch == '>')
break;
/*
* Read the attribute name...
*/
ptr = name;
if (mxml_add_char(ch, &ptr, &name, &namesize))
goto error;
if (ch == '\"' || ch == '\'')
{
/*
* Name is in quotes, so get a quoted string...
*/
quote = ch;
while ((ch = (*getc_cb)(p, encoding)) != EOF)
{
if (ch == '&')
{
if ((ch = mxml_get_entity(node, p, encoding, getc_cb, line)) == EOF)
goto error;
}
else if (ch == '\n')
(*line)++;
if (mxml_add_char(ch, &ptr, &name, &namesize))
goto error;
if (ch == quote)
break;
}
}
else
{
/*
* Grab an normal, non-quoted name...
*/
while ((ch = (*getc_cb)(p, encoding)) != EOF)
{
if (mxml_isspace(ch) || ch == '=' || ch == '/' || ch == '>' ||
ch == '?')
{
if (ch == '\n')
(*line)++;
break;
}
else
{
if (ch == '&')
{
if ((ch = mxml_get_entity(node, p, encoding, getc_cb, line)) == EOF)
goto error;
}
if (mxml_add_char(ch, &ptr, &name, &namesize))
goto error;
}
}
}
*ptr = '\0';
if (mxmlElementGetAttr(node, name))
{
mxml_error("Duplicate attribute '%s' in element %s on line %d.", name, node->value.element.name, *line);
goto error;
}
while (ch != EOF && mxml_isspace(ch))
{
ch = (*getc_cb)(p, encoding);
if (ch == '\n')
(*line)++;
}
if (ch == '=')
{
/*
* Read the attribute value...
*/
while ((ch = (*getc_cb)(p, encoding)) != EOF && mxml_isspace(ch))
{
if (ch == '\n')
(*line)++;
}
if (ch == EOF)
{
mxml_error("Missing value for attribute '%s' in element %s on line %d.", name, node->value.element.name, *line);
goto error;
}
if (ch == '\'' || ch == '\"')
{
/*
* Read quoted value...
*/
quote = ch;
ptr = value;
while ((ch = (*getc_cb)(p, encoding)) != EOF)
{
if (ch == quote)
{
break;
}
else
{
if (ch == '&')
{
if ((ch = mxml_get_entity(node, p, encoding, getc_cb, line)) == EOF)
goto error;
}
else if (ch == '\n')
(*line)++;
if (mxml_add_char(ch, &ptr, &value, &valsize))
goto error;
}
}
*ptr = '\0';
}
else
{
/*
* Read unquoted value...
*/
ptr = value;
if (mxml_add_char(ch, &ptr, &value, &valsize))
goto error;
while ((ch = (*getc_cb)(p, encoding)) != EOF)
{
if (mxml_isspace(ch) || ch == '=' || ch == '/' || ch == '>')
{
if (ch == '\n')
(*line)++;
break;
}
else
{
if (ch == '&')
{
if ((ch = mxml_get_entity(node, p, encoding, getc_cb, line)) == EOF)
goto error;
}
if (mxml_add_char(ch, &ptr, &value, &valsize))
goto error;
}
}
*ptr = '\0';
}
/*
* Set the attribute with the given string value...
*/
mxmlElementSetAttr(node, name, value);
}
else
{
mxml_error("Missing value for attribute '%s' in element %s on line %d.", name, node->value.element.name, *line);
goto error;
}
/*
* Check the end character...
*/
if (ch == '/' || ch == '?')
{
/*
* Grab the > character and print an error if it isn't there...
*/
quote = (*getc_cb)(p, encoding);
if (quote != '>')
{
mxml_error("Expected '>' after '%c' for element %s, but got '%c' on line %d.", ch, node->value.element.name, quote, *line);
ch = EOF;
}
break;
}
else if (ch == '>')
break;
}
/*
* Free the name and value buffers and return...
*/
free(name);
free(value);
return (ch);
/*
* Common error return point...
*/
error:
free(name);
free(value);
return (EOF);
}
/*
* 'mxml_string_getc()' - Get a character from a string.
*/
static int /* O - Character or EOF */
mxml_string_getc(void *p, /* I - Pointer to file */
int *encoding) /* IO - Encoding */
{
int ch; /* Character */
const char **s; /* Pointer to string pointer */
s = (const char **)p;
if ((ch = (*s)[0] & 255) != 0 || *encoding == ENCODE_UTF16LE)
{
/*
* Got character; convert UTF-8 to integer and return...
*/
(*s)++;
switch (*encoding)
{
case ENCODE_UTF8 :
if (!(ch & 0x80))
{
#if DEBUG > 1
printf("mxml_string_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
return (ch);
}
else if (ch == 0xfe)
{
/*
* UTF-16 big-endian BOM?
*/
if (((*s)[0] & 255) != 0xff)
return (EOF);
*encoding = ENCODE_UTF16BE;
(*s)++;
return (mxml_string_getc(p, encoding));
}
else if (ch == 0xff)
{
/*
* UTF-16 little-endian BOM?
*/
if (((*s)[0] & 255) != 0xfe)
return (EOF);
*encoding = ENCODE_UTF16LE;
(*s)++;
return (mxml_string_getc(p, encoding));
}
else if ((ch & 0xe0) == 0xc0)
{
/*
* Two-byte value...
*/
if (((*s)[0] & 0xc0) != 0x80)
return (EOF);
ch = ((ch & 0x1f) << 6) | ((*s)[0] & 0x3f);
(*s)++;
if (ch < 0x80)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
#if DEBUG > 1
printf("mxml_string_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
else if ((ch & 0xf0) == 0xe0)
{
/*
* Three-byte value...
*/
if (((*s)[0] & 0xc0) != 0x80 ||
((*s)[1] & 0xc0) != 0x80)
return (EOF);
ch = ((((ch & 0x0f) << 6) | ((*s)[0] & 0x3f)) << 6) | ((*s)[1] & 0x3f);
(*s) += 2;
if (ch < 0x800)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
/*
* Ignore (strip) Byte Order Mark (BOM)...
*/
if (ch == 0xfeff)
return (mxml_string_getc(p, encoding));
#if DEBUG > 1
printf("mxml_string_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
else if ((ch & 0xf8) == 0xf0)
{
/*
* Four-byte value...
*/
if (((*s)[0] & 0xc0) != 0x80 ||
((*s)[1] & 0xc0) != 0x80 ||
((*s)[2] & 0xc0) != 0x80)
return (EOF);
ch = ((((((ch & 0x07) << 6) | ((*s)[0] & 0x3f)) << 6) |
((*s)[1] & 0x3f)) << 6) | ((*s)[2] & 0x3f);
(*s) += 3;
if (ch < 0x10000)
{
mxml_error("Invalid UTF-8 sequence for character 0x%04x!", ch);
return (EOF);
}
#if DEBUG > 1
printf("mxml_string_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
else
return (EOF);
case ENCODE_UTF16BE :
/*
* Read UTF-16 big-endian char...
*/
ch = (ch << 8) | ((*s)[0] & 255);
(*s) ++;
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
else if (ch >= 0xd800 && ch <= 0xdbff)
{
/*
* Multi-word UTF-16 char...
*/
int lch; /* Lower word */
if (!(*s)[0])
return (EOF);
lch = (((*s)[0] & 255) << 8) | ((*s)[1] & 255);
(*s) += 2;
if (lch < 0xdc00 || lch >= 0xdfff)
return (EOF);
ch = (((ch & 0x3ff) << 10) | (lch & 0x3ff)) + 0x10000;
}
#if DEBUG > 1
printf("mxml_string_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
case ENCODE_UTF16LE :
/*
* Read UTF-16 little-endian char...
*/
ch = ch | (((*s)[0] & 255) << 8);
if (!ch)
{
(*s) --;
return (EOF);
}
(*s) ++;
if (mxml_bad_char(ch))
{
mxml_error("Bad control character 0x%02x not allowed by XML standard!",
ch);
return (EOF);
}
else if (ch >= 0xd800 && ch <= 0xdbff)
{
/*
* Multi-word UTF-16 char...
*/
int lch; /* Lower word */
if (!(*s)[1])
return (EOF);
lch = (((*s)[1] & 255) << 8) | ((*s)[0] & 255);
(*s) += 2;
if (lch < 0xdc00 || lch >= 0xdfff)
return (EOF);
ch = (((ch & 0x3ff) << 10) | (lch & 0x3ff)) + 0x10000;
}
#if DEBUG > 1
printf("mxml_string_getc: %c (0x%04x)\n", ch < ' ' ? '.' : ch, ch);
#endif /* DEBUG > 1 */
return (ch);
}
}
return (EOF);
}
/*
* 'mxml_string_putc()' - Write a character to a string.
*/
static int /* O - 0 on success, -1 on failure */
mxml_string_putc(int ch, /* I - Character to write */
void *p) /* I - Pointer to string pointers */
{
char **pp; /* Pointer to string pointers */
pp = (char **)p;
if (pp[0] < pp[1])
pp[0][0] = ch;
pp[0] ++;
return (0);
}
/*
* 'mxml_write_name()' - Write a name string.
*/
static int /* O - 0 on success, -1 on failure */
mxml_write_name(const char *s, /* I - Name to write */
void *p, /* I - Write pointer */
int (*putc_cb)(int, void *))
/* I - Write callback */
{
char quote; /* Quote character */
const char *name; /* Entity name */
if (*s == '\"' || *s == '\'')
{
/*
* Write a quoted name string...
*/
if ((*putc_cb)(*s, p) < 0)
return (-1);
quote = *s++;
while (*s && *s != quote)
{
if ((name = mxmlEntityGetName(*s)) != NULL)
{
if ((*putc_cb)('&', p) < 0)
return (-1);
while (*name)
{
if ((*putc_cb)(*name, p) < 0)
return (-1);
name ++;
}
if ((*putc_cb)(';', p) < 0)
return (-1);
}
else if ((*putc_cb)(*s, p) < 0)
return (-1);
s ++;
}
/*
* Write the end quote...
*/
if ((*putc_cb)(quote, p) < 0)
return (-1);
}
else
{
/*
* Write a non-quoted name string...
*/
while (*s)
{
if ((*putc_cb)(*s, p) < 0)
return (-1);
s ++;
}
}
return (0);
}
/*
* 'mxml_write_node()' - Save an XML node to a file.
*/
static int /* O - Column or -1 on error */
mxml_write_node(mxml_node_t *node, /* I - Node to write */
void *p, /* I - File to write to */
mxml_save_cb_t cb, /* I - Whitespace callback */
int col, /* I - Current column */
_mxml_putc_cb_t putc_cb,/* I - Output callback */
_mxml_global_t *global)/* I - Global data */
{
mxml_node_t *current, /* Current node */
*next; /* Next node */
int i, /* Looping var */
width; /* Width of attr + value */
_mxml_attr_t *attr; /* Current attribute */
char s[255]; /* Temporary string */
/*
* Loop through this node and all of its children...
*/
for (current = node; current; current = next)
{
/*
* Print the node value...
*/
switch (current->type)
{
case MXML_ELEMENT :
col = mxml_write_ws(current, p, cb, MXML_WS_BEFORE_OPEN, col, putc_cb);
if ((*putc_cb)('<', p) < 0)
return (-1);
if (current->value.element.name[0] == '?' ||
!strncmp(current->value.element.name, "!--", 3))
{
/*
* Comments and processing instructions do not use character
* entities.
*/
const char *ptr; /* Pointer into name */
for (ptr = current->value.element.name; *ptr; ptr ++)
if ((*putc_cb)(*ptr, p) < 0)
return (-1);
}
else if (!strncmp(current->value.element.name, "![CDATA[", 8))
{
/*
* CDATA elements do not use character entities, but also need the
* "]]" terminator added at the end.
*/
const char *ptr; /* Pointer into name */
for (ptr = current->value.element.name; *ptr; ptr ++)
if ((*putc_cb)(*ptr, p) < 0)
return (-1);
if ((*putc_cb)(']', p) < 0)
return (-1);
if ((*putc_cb)(']', p) < 0)
return (-1);
}
else if (mxml_write_name(current->value.element.name, p, putc_cb) < 0)
return (-1);
col += strlen(current->value.element.name) + 1;
for (i = current->value.element.num_attrs, attr = current->value.element.attrs;
i > 0;
i --, attr ++)
{
width = (int)strlen(attr->name);
if (attr->value)
width += strlen(attr->value) + 3;
if (global->wrap > 0 && (col + width) > global->wrap)
{
if ((*putc_cb)('\n', p) < 0)
return (-1);
col = 0;
}
else
{
if ((*putc_cb)(' ', p) < 0)
return (-1);
col ++;
}
if (mxml_write_name(attr->name, p, putc_cb) < 0)
return (-1);
if (attr->value)
{
if ((*putc_cb)('=', p) < 0)
return (-1);
if ((*putc_cb)('\"', p) < 0)
return (-1);
if (mxml_write_string(attr->value, p, putc_cb) < 0)
return (-1);
if ((*putc_cb)('\"', p) < 0)
return (-1);
}
col += width;
}
if (current->child)
{
/*
* Write children...
*/
if ((*putc_cb)('>', p) < 0)
return (-1);
else
col ++;
col = mxml_write_ws(current, p, cb, MXML_WS_AFTER_OPEN, col, putc_cb);
}
else if (current->value.element.name[0] == '!' ||
current->value.element.name[0] == '?')
{
/*
* The ? and ! elements are special-cases...
*/
if ((*putc_cb)('>', p) < 0)
return (-1);
else
col ++;
col = mxml_write_ws(current, p, cb, MXML_WS_AFTER_OPEN, col, putc_cb);
}
else
{
if ((*putc_cb)(' ', p) < 0)
return (-1);
if ((*putc_cb)('/', p) < 0)
return (-1);
if ((*putc_cb)('>', p) < 0)
return (-1);
col += 3;
col = mxml_write_ws(current, p, cb, MXML_WS_AFTER_OPEN, col, putc_cb);
}
break;
case MXML_INTEGER :
if (current->prev)
{
if (global->wrap > 0 && col > global->wrap)
{
if ((*putc_cb)('\n', p) < 0)
return (-1);
col = 0;
}
else if ((*putc_cb)(' ', p) < 0)
return (-1);
else
col ++;
}
snprintf(s, sizeof(s), "%d", current->value.integer);
if (mxml_write_string(s, p, putc_cb) < 0)
return (-1);
col += strlen(s);
break;
case MXML_OPAQUE :
if (mxml_write_string(current->value.opaque, p, putc_cb) < 0)
return (-1);
col += strlen(current->value.opaque);
break;
case MXML_REAL :
if (current->prev)
{
if (global->wrap > 0 && col > global->wrap)
{
if ((*putc_cb)('\n', p) < 0)
return (-1);
col = 0;
}
else if ((*putc_cb)(' ', p) < 0)
return (-1);
else
col ++;
}
snprintf(s, sizeof(s), "%f", current->value.real);
if (mxml_write_string(s, p, putc_cb) < 0)
return (-1);
col += strlen(s);
break;
case MXML_TEXT :
if (current->value.text.whitespace && col > 0)
{
if (global->wrap > 0 && col > global->wrap)
{
if ((*putc_cb)('\n', p) < 0)
return (-1);
col = 0;
}
else if ((*putc_cb)(' ', p) < 0)
return (-1);
else
col ++;
}
if (mxml_write_string(current->value.text.string, p, putc_cb) < 0)
return (-1);
col += strlen(current->value.text.string);
break;
case MXML_CUSTOM :
if (global->custom_save_cb)
{
char *data; /* Custom data string */
const char *newline; /* Last newline in string */
if ((data = (*global->custom_save_cb)(current)) == NULL)
return (-1);
if (mxml_write_string(data, p, putc_cb) < 0)
return (-1);
if ((newline = strrchr(data, '\n')) == NULL)
col += strlen(data);
else
col = (int)strlen(newline);
free(data);
break;
}
default : /* Should never happen */
return (-1);
}
/*
* Figure out the next node...
*/
if ((next = current->child) == NULL)
{
if (current == node)
{
/*
* Don't traverse to sibling node if we are at the "root" node...
*/
next = NULL;
}
else
{
/*
* Try the next sibling, and continue traversing upwards as needed...
*/
while ((next = current->next) == NULL)
{
if (current == node || !current->parent)
break;
/*
* The ? and ! elements are special-cases and have no end tags...
*/
current = current->parent;
if (current->value.element.name[0] != '!' &&
current->value.element.name[0] != '?')
{
col = mxml_write_ws(current, p, cb, MXML_WS_BEFORE_CLOSE, col, putc_cb);
if ((*putc_cb)('<', p) < 0)
return (-1);
if ((*putc_cb)('/', p) < 0)
return (-1);
if (mxml_write_string(current->value.element.name, p, putc_cb) < 0)
return (-1);
if ((*putc_cb)('>', p) < 0)
return (-1);
col += strlen(current->value.element.name) + 3;
col = mxml_write_ws(current, p, cb, MXML_WS_AFTER_CLOSE, col, putc_cb);
}
if (current == node)
break;
}
}
}
}
return (col);
}
/*
* 'mxml_write_string()' - Write a string, escaping & and < as needed.
*/
static int /* O - 0 on success, -1 on failure */
mxml_write_string(
const char *s, /* I - String to write */
void *p, /* I - Write pointer */
_mxml_putc_cb_t putc_cb) /* I - Write callback */
{
const char *name; /* Entity name, if any */
while (*s)
{
if ((name = mxmlEntityGetName(*s)) != NULL)
{
if ((*putc_cb)('&', p) < 0)
return (-1);
while (*name)
{
if ((*putc_cb)(*name, p) < 0)
return (-1);
name ++;
}
if ((*putc_cb)(';', p) < 0)
return (-1);
}
else if ((*putc_cb)(*s, p) < 0)
return (-1);
s ++;
}
return (0);
}
/*
* 'mxml_write_ws()' - Do whitespace callback...
*/
static int /* O - New column */
mxml_write_ws(mxml_node_t *node, /* I - Current node */
void *p, /* I - Write pointer */
mxml_save_cb_t cb, /* I - Callback function */
int ws, /* I - Where value */
int col, /* I - Current column */
_mxml_putc_cb_t putc_cb) /* I - Write callback */
{
const char *s; /* Whitespace string */
if (cb && (s = (*cb)(node, ws)) != NULL)
{
while (*s)
{
if ((*putc_cb)(*s, p) < 0)
return (-1);
else if (*s == '\n')
col = 0;
else if (*s == '\t')
{
col += MXML_TAB;
col = col - (col % MXML_TAB);
}
else
col ++;
s ++;
}
}
return (col);
}