/***************************************************************************** * xmlwriter - A base library for libxlsxwriter libraries. * * Used in conjunction with the libxlsxwriter library. * * Copyright 2014-2019, John McNamara, jmcnamara@cpan.org. See LICENSE.txt. * */ #include #include #include #include "xlsxwriter/xmlwriter.h" #define LXW_AMP "&" #define LXW_LT "<" #define LXW_GT ">" #define LXW_QUOT """ /* Defines. */ #define LXW_MAX_ENCODED_ATTRIBUTE_LENGTH (LXW_MAX_ATTRIBUTE_LENGTH*6) /* Forward declarations. */ STATIC char *_escape_attributes(struct xml_attribute *attribute); char *lxw_escape_data(const char *data); STATIC void _fprint_escaped_attributes(FILE * xmlfile, struct xml_attribute_list *attributes); STATIC void _fprint_escaped_data(FILE * xmlfile, const char *data); /* * Write the XML declaration. */ void lxw_xml_declaration(FILE * xmlfile) { fprintf(xmlfile, "\n"); } /* * Write an XML start tag with optional attributes. */ void lxw_xml_start_tag(FILE * xmlfile, const char *tag, struct xml_attribute_list *attributes) { fprintf(xmlfile, "<%s", tag); _fprint_escaped_attributes(xmlfile, attributes); fprintf(xmlfile, ">"); } /* * Write an XML start tag with optional, unencoded, attributes. * This is a minor speed optimization for elements that don't need encoding. */ void lxw_xml_start_tag_unencoded(FILE * xmlfile, const char *tag, struct xml_attribute_list *attributes) { struct xml_attribute *attribute; fprintf(xmlfile, "<%s", tag); if (attributes) { STAILQ_FOREACH(attribute, attributes, list_entries) { fprintf(xmlfile, " %s=\"%s\"", attribute->key, attribute->value); } } fprintf(xmlfile, ">"); } /* * Write an XML end tag. */ void lxw_xml_end_tag(FILE * xmlfile, const char *tag) { fprintf(xmlfile, "", tag); } /* * Write an empty XML tag with optional attributes. */ void lxw_xml_empty_tag(FILE * xmlfile, const char *tag, struct xml_attribute_list *attributes) { fprintf(xmlfile, "<%s", tag); _fprint_escaped_attributes(xmlfile, attributes); fprintf(xmlfile, "/>"); } /* * Write an XML start tag with optional, unencoded, attributes. * This is a minor speed optimization for elements that don't need encoding. */ void lxw_xml_empty_tag_unencoded(FILE * xmlfile, const char *tag, struct xml_attribute_list *attributes) { struct xml_attribute *attribute; fprintf(xmlfile, "<%s", tag); if (attributes) { STAILQ_FOREACH(attribute, attributes, list_entries) { fprintf(xmlfile, " %s=\"%s\"", attribute->key, attribute->value); } } fprintf(xmlfile, "/>"); } /* * Write an XML element containing data with optional attributes. */ void lxw_xml_data_element(FILE * xmlfile, const char *tag, const char *data, struct xml_attribute_list *attributes) { fprintf(xmlfile, "<%s", tag); _fprint_escaped_attributes(xmlfile, attributes); fprintf(xmlfile, ">"); _fprint_escaped_data(xmlfile, data); fprintf(xmlfile, "", tag); } /* * Write an XML element for rich strings, without encoding. */ void lxw_xml_rich_si_element(FILE * xmlfile, const char *string) { fprintf(xmlfile, "%s", string); } /* * Escape XML characters in attributes. */ STATIC char * _escape_attributes(struct xml_attribute *attribute) { char *encoded = (char *) calloc(LXW_MAX_ENCODED_ATTRIBUTE_LENGTH, 1); char *p_encoded = encoded; char *p_attr = attribute->value; while (*p_attr) { switch (*p_attr) { case '&': memcpy(p_encoded, LXW_AMP, sizeof(LXW_AMP) - 1); p_encoded += sizeof(LXW_AMP) - 1; break; case '<': memcpy(p_encoded, LXW_LT, sizeof(LXW_LT) - 1); p_encoded += sizeof(LXW_LT) - 1; break; case '>': memcpy(p_encoded, LXW_GT, sizeof(LXW_GT) - 1); p_encoded += sizeof(LXW_GT) - 1; break; case '"': memcpy(p_encoded, LXW_QUOT, sizeof(LXW_QUOT) - 1); p_encoded += sizeof(LXW_QUOT) - 1; break; default: *p_encoded = *p_attr; p_encoded++; break; } p_attr++; } return encoded; } /* * Escape XML characters in data sections of tags. * Note, this is different from _escape_attributes() * in that double quotes are not escaped by Excel. */ char * lxw_escape_data(const char *data) { size_t encoded_len = (strlen(data) * 5 + 1); char *encoded = (char *) calloc(encoded_len, 1); char *p_encoded = encoded; while (*data) { switch (*data) { case '&': memcpy(p_encoded, LXW_AMP, sizeof(LXW_AMP) - 1); p_encoded += sizeof(LXW_AMP) - 1; break; case '<': memcpy(p_encoded, LXW_LT, sizeof(LXW_LT) - 1); p_encoded += sizeof(LXW_LT) - 1; break; case '>': memcpy(p_encoded, LXW_GT, sizeof(LXW_GT) - 1); p_encoded += sizeof(LXW_GT) - 1; break; default: *p_encoded = *data; p_encoded++; break; } data++; } return encoded; } /* * Escape control characters in strings with with _xHHHH_. */ char * lxw_escape_control_characters(const char *string) { size_t escape_len = sizeof("_xHHHH_") - 1; size_t encoded_len = (strlen(string) * escape_len + 1); char *encoded = (char *) calloc(encoded_len, 1); char *p_encoded = encoded; while (*string) { switch (*string) { case '\x01': case '\x02': case '\x03': case '\x04': case '\x05': case '\x06': case '\x07': case '\x08': case '\x0B': case '\x0C': case '\x0D': case '\x0E': case '\x0F': case '\x10': case '\x11': case '\x12': case '\x13': case '\x14': case '\x15': case '\x16': case '\x17': case '\x18': case '\x19': case '\x1A': case '\x1B': case '\x1C': case '\x1D': case '\x1E': case '\x1F': lxw_snprintf(p_encoded, escape_len + 1, "_x%04X_", *string); p_encoded += escape_len; break; default: *p_encoded = *string; p_encoded++; break; } string++; } return encoded; } /* Write out escaped attributes. */ STATIC void _fprint_escaped_attributes(FILE * xmlfile, struct xml_attribute_list *attributes) { struct xml_attribute *attribute; if (attributes) { STAILQ_FOREACH(attribute, attributes, list_entries) { fprintf(xmlfile, " %s=", attribute->key); if (!strpbrk(attribute->value, "&<>\"")) { fprintf(xmlfile, "\"%s\"", attribute->value); } else { char *encoded = _escape_attributes(attribute); if (encoded) { fprintf(xmlfile, "\"%s\"", encoded); free(encoded); } } } } } /* Write out escaped XML data. */ STATIC void _fprint_escaped_data(FILE * xmlfile, const char *data) { /* Escape the data section of the XML element. */ if (!strpbrk(data, "&<>")) { fprintf(xmlfile, "%s", data); } else { char *encoded = lxw_escape_data(data); if (encoded) { fprintf(xmlfile, "%s", encoded); free(encoded); } } } /* Create a new string XML attribute. */ struct xml_attribute * lxw_new_attribute_str(const char *key, const char *value) { struct xml_attribute *attribute = malloc(sizeof(struct xml_attribute)); LXW_ATTRIBUTE_COPY(attribute->key, key); LXW_ATTRIBUTE_COPY(attribute->value, value); return attribute; } /* Create a new integer XML attribute. */ struct xml_attribute * lxw_new_attribute_int(const char *key, uint32_t value) { struct xml_attribute *attribute = malloc(sizeof(struct xml_attribute)); LXW_ATTRIBUTE_COPY(attribute->key, key); lxw_snprintf(attribute->value, LXW_MAX_ATTRIBUTE_LENGTH, "%d", value); return attribute; } /* Create a new double XML attribute. */ struct xml_attribute * lxw_new_attribute_dbl(const char *key, double value) { struct xml_attribute *attribute = malloc(sizeof(struct xml_attribute)); LXW_ATTRIBUTE_COPY(attribute->key, key); lxw_sprintf_dbl(attribute->value, value); return attribute; }