pegasus/src/Pegasus/Common/LanguageParser.cpp - diff

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Diff for /pegasus/src/Pegasus/Common/LanguageParser.cpp between version 1.4 and 1.29

version 1.4, 2003/08/26 20:17:08

version 1.29, 2006/10/31 19:38:45

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//%/////////////////////////////////////////////////////////////////////////////

//%2006////////////////////////////////////////////////////////////////////////

// The Open Group, Tivoli Systems

// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.

// IBM Corp.; EMC Corporation, The Open Group.

// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; Symantec Corporation; The Open Group.

// Permission is hereby granted, free of charge, to any person obtaining a copy

// of this software and associated documentation files (the "Software"), to

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//==============================================================================

// Author: Humberto Rivero (hurivero@us.ibm.com)

// Modified By:

//%/////////////////////////////////////////////////////////////////////////////

#include <Pegasus/Common/LanguageParser.h>

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#include <Pegasus/Common/MessageLoader.h> //l10n

#include <cstring>

//PEGASUS_USING_STD;

#ifdef PEGASUS_HAS_ICU

# include <unicode/locid.h>

#endif

#if defined(PEGASUS_OS_OS400)

# include "EBCDIC_OS400.h"

#endif

PEGASUS_NAMESPACE_BEGIN

const LanguageParser LanguageParser::EMPTY = LanguageParser();

static char LANGUAGE_TAG_SEPARATOR_CHAR = '-';

static char LOCALE_ID_SEPARATOR_CHAR = '_';

AcceptLanguageList LanguageParser::parseAcceptLanguageHeader(

const String& acceptLanguageHeader)

{

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseAcceptLanguageHeader");

AcceptLanguageList acceptLanguages;

try

{

Array<String> languageElements;

LanguageParser::_parseLanguageHeader(

acceptLanguageHeader,

languageElements);

for (Uint32 i = 0; i < languageElements.size(); i++)

{

String languageTagString;

Real32 qualityValue;

LanguageParser::_parseAcceptLanguageElement(

languageElements[i], languageTagString, qualityValue);

acceptLanguages.insert(LanguageTag(languageTagString), qualityValue);

}

catch (Exception& e)

{

throw InvalidAcceptLanguageHeader(e.getMessage());

}

PEG_METHOD_EXIT();

return acceptLanguages;

}

ContentLanguageList LanguageParser::parseContentLanguageHeader(

const String& contentLanguageHeader)

{

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseContentLanguageHeader");

ContentLanguageList contentLanguages;

void LanguageParser::parseHdr(Array<String> &values, String & hdr){

try

// look for ',' which designates distict (Accept/Content)-Language fields

{

// the form: [languagetag, languagetag, languagetag] so whitespace removal

Array<String> languageElements;

// may be necessary.

LanguageParser::_parseLanguageHeader(

// then store them in the array

contentLanguageHeader,

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseHdr");

languageElements);

Uint32 i = 0;

while( i != PEG_NOT_FOUND ){

for (Uint32 i = 0; i < languageElements.size(); i++)

i = hdr.find(",");

{

if( i != PEG_NOT_FOUND ){

contentLanguages.append(LanguageTag(languageElements[i]));

values.append(hdr.subString(0,i));

}

while(hdr[i+1] == ' ') i++; // get rid of whitespace after ","

hdr = hdr.subString(i+1);

}

else{ // only one field, build an object with it

values.append(hdr);

}

catch (Exception& e)

{

throw InvalidContentLanguageHeader(e.getMessage());

}

PEG_METHOD_EXIT();

return contentLanguages;

}

Real32 LanguageParser::parseAcceptLanguageValue(String &language_tag, String & hdr){

void LanguageParser::parseLanguageTag(

// look for ';' in hdr, that means we have a quality value to capture

const String& languageTagString,

// if not, we only have a language

String& language,

String& country,

// if hdr begins with "x-" then we have a non-IANA (private) language tag

String& variant)

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseAcceptLanguageValue");

{

Uint32 i;

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseLanguageTag");

Boolean validate_length = true;

if((( i = hdr.find("x-")) != PEG_NOT_FOUND ) && (i == 0)){

language.clear();

hdr = convertPrivateLanguageTag(hdr);

country.clear();

validate_length = false;

variant.clear();

}

if (languageTagString == "*")

// get rid of any beginning or trailing whitespaces

{

Uint32 j;

// Parsing and validation is complete

while( (j = hdr.find(" ")) != PEG_NOT_FOUND ){

PEG_METHOD_EXIT();

hdr.remove(j,1);

return;

}

Real32 quality = 1;

Boolean isStandardFormat = true; // RFC 3066 (ISO 639, ISO 3166)

i = hdr.find(";");

Array<String> subtags;

if(i != PEG_NOT_FOUND){ // extract and store language and quality

if(isValid(hdr.subString(0,i), validate_length)){

_parseLanguageSubtags(subtags, languageTagString);

language_tag = hdr.subString(0,i);

hdr.remove(0,i+3); // remove everything but the quality value

// _parseLanguageSubtags() always returns at least one subtag.

}

PEGASUS_ASSERT(subtags.size() > 0);

else{

//l10n

// Validate the primary subtag.

//throw InvalidAcceptLanguageHeader(

// Given a languageTagString "en-US-mn" the language is "en".

//"AcceptLanguage contains too many characters or non-alpha characters");

MessageLoaderParms parms("Common.LanguageParser.TOO_MANY_OR_NON_ALPHA_CHARACTERS_AL",

language = subtags[0];

"AcceptLanguage contains too many characters or non-alpha characters");

throw InvalidAcceptLanguageHeader(MessageLoader::getMessage(parms));

if ((language == "i") || (language == "x"))

{

// These primary tags are allowed, but are not ISO 639 compliant

isStandardFormat = false;

language.clear();

}

else if ((language.size() != 2) && (language.size() != 3))

{

// Except for "i" and "x", primary tags must be 2 or 3 characters,

// according to RFC 3066.

MessageLoaderParms parms(

"Common.LanguageParser.INVALID_LANGUAGE_TAG",

"Invalid language tag \"$0\".", languageTagString);

PEG_METHOD_EXIT();

// throw Exception(MessageLoader::getMessage(parms));

// do not localize message, requires a language tag for this

// localization can cause recursion here

throw Exception(parms.toString());

}

if (subtags.size() == 1)

{

// If only the primary subtag is present, we are done!

PEG_METHOD_EXIT();

return;

}

//validate quality

quality = atof(hdr.getCString());

// Validate the second subtag.

if(quality > 1.0 || quality < 0.0){

// Given a languageTagString "en-US-mn" the country is "US".

//l10n

//throw InvalidAcceptLanguageHeader(

if (subtags[1].size() == 1)

//"AcceptLanguage contains an invalid quality value");

{

MessageLoaderParms parms("Common.LanguageParser.INVALID_QUALITY_VALUE",

// The second subtag may not be a single character according to

// RFC 3066.

MessageLoaderParms parms(

"Common.LanguageParser.INVALID_LANGUAGE_TAG",

"Invalid language tag \"$0\".", languageTagString);

PEG_METHOD_EXIT();

// throw Exception(MessageLoader::getMessage(parms));

// do not localize message, requires a language tag for this

// localization can cause recursion here

throw Exception(parms.toString());

}

if (isStandardFormat)

{

Uint32 variantIndex = 1;

if (subtags[1].size() == 2)

{

country = subtags[1];

variantIndex = 2;

}

Uint32 numSubtags = subtags.size();

if (variantIndex < numSubtags)

{

variant = subtags[variantIndex++];

while (variantIndex < numSubtags)

{

variant.append(LANGUAGE_TAG_SEPARATOR_CHAR);

variant.append(subtags[variantIndex++]);

}

PEG_METHOD_EXIT();

}

void LanguageParser::validateQualityValue(Real32 quality)

{

if ((quality > 1.0) || (quality < 0.0))

{

MessageLoaderParms parms(

"Common.LanguageParser.INVALID_QUALITY_VALUE",

"AcceptLanguage contains an invalid quality value");

throw InvalidAcceptLanguageHeader(MessageLoader::getMessage(parms));

}

else{ // extract and store language, quality defaults to 1.0

if(isValid(hdr, validate_length)) language_tag = hdr;

String LanguageParser::buildAcceptLanguageHeader(

else{

const AcceptLanguageList& acceptLanguages)

//l10n

{

//throw InvalidAcceptLanguageHeader(

String alString;

//"AcceptLanguage contains too many characters or non-alpha characters");

Uint32 numAcceptLanguages = acceptLanguages.size();

MessageLoaderParms parms("Common.LanguageParser.TOO_MANY_OR_NON_ALPHA_CHARACTERS_AL",

"AcceptLanguage contains too many characters or non-alpha characters");

for (Uint32 i = 0; i < numAcceptLanguages; i++)

throw InvalidAcceptLanguageHeader(MessageLoader::getMessage(parms));

{

alString.append(acceptLanguages.getLanguageTag(i).toString());

Real32 q = acceptLanguages.getQualityValue(i);

if (q != 1.0)

{

char qValueString[6];

sprintf(qValueString, "%4.3f", q);

alString.append(";q=");

alString.append(qValueString);

}

if (i < numAcceptLanguages - 1)

{

alString.append(",");

}

PEG_METHOD_EXIT();

return alString;

return quality;

}

String LanguageParser::parseContentLanguageValue(String & hdr){

String LanguageParser::buildContentLanguageHeader(

// we are looking for the language part of the hdr only,

const ContentLanguageList& contentLanguages)

// according to the RFC, there may be parenthesized strings

{

// that describe the purpose of the language, we need to ignore those

String clString;

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseContentLanguageValue");

Uint32 numContentLanguages = contentLanguages.size();

String value = hdr;

Uint32 i,j;

for (Uint32 i = 0; i < numContentLanguages; i++)

while((i = value.find("(")) != PEG_NOT_FOUND){ // get rid of anything in parenthesis in hdr if found

{

if((j = value.find(")")) != PEG_NOT_FOUND)

clString.append(contentLanguages.getLanguageTag(i).toString());

value.remove(i, (j-i)+1);

else{

//l10n

//throw InvalidContentLanguageHeader(

//"ContentLanguage does not contain terminating ) character");

MessageLoaderParms parms("Common.LanguageParser.DOES_NOT_CONTAIN_TERMINATING",

"ContentLanguage does not contain terminating ) character");

throw InvalidContentLanguageHeader(MessageLoader::getMessage(parms));

}

// get rid of any beginning or trailing whitespaces

while( (i = value.find(" ")) != PEG_NOT_FOUND ){

value.remove(i,1);

}

if(!isValid(value)){

//l10n

//throw InvalidContentLanguageHeader(

//"ContentLanguage contains too many characters or non-alpha characters");

MessageLoaderParms parms("Common.LanguageParser.TOO_MANY_OR_NON_ALPHA_CHARACTERS_CL",

"ContentLanguage contains too many characters or non-alpha characters");

throw InvalidContentLanguageHeader(MessageLoader::getMessage(parms));

if (i < numContentLanguages - 1)

{

clString.append(",");

}

PEG_METHOD_EXIT();

return value;

}

String LanguageParser::getLanguage(String & language_tag){

// given a language_tag: en-US-mn we want to return "en"

Uint32 i;

if((i = language_tag.find(findSeparator(language_tag.getCString()))) != PEG_NOT_FOUND)

return language_tag.subString(0,i);

return String(language_tag);

}

String LanguageParser::getCountry(String & language_tag){

// given a language_tag: en-US-mn we want to return "US"

Uint32 i,j;

if( (i = language_tag.find(findSeparator(language_tag.getCString()))) != PEG_NOT_FOUND )

if( (j = language_tag.find(i+1, findSeparator(language_tag.getCString()))) != PEG_NOT_FOUND )

return language_tag.subString(i+1, j-(i+1));

else

return language_tag.subString(i+1);

return String::EMPTY;

}

String LanguageParser::getVariant(String & language_tag){

return clString;

// given a language_tag: en-US-mn we want to return "mn"

Uint32 i;

if( (i = language_tag.find(findSeparator(language_tag.getCString()))) != PEG_NOT_FOUND )

if( (i = language_tag.find(i+1, findSeparator(language_tag.getCString()))) != PEG_NOT_FOUND )

return language_tag.subString(i+1);

return String::EMPTY;

}

void LanguageParser::parseLanguageSubtags(Array<String> &subtags, String language_tag){

#ifdef PEGASUS_HAS_ICU

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::parseLanguageSubtags");

String& LanguageParser::convertLocaleIdToLanguageTag(String& localeId)

Uint32 i;

{

char separator = findSeparator(language_tag.getCString());

Uint32 index = 0;

while( (i = language_tag.find(Char16(separator))) != PEG_NOT_FOUND ){

while ((index = localeId.find(index, LOCALE_ID_SEPARATOR_CHAR)) !=

subtags.append(language_tag.subString(0,i));

PEG_NOT_FOUND)

language_tag.remove(0,i + 1);

{

localeId[index] = LANGUAGE_TAG_SEPARATOR_CHAR;

}

if(language_tag.size() > 0)

return localeId;

subtags.append(language_tag);

PEG_METHOD_EXIT();

}

#endif

Boolean LanguageParser::isValid(String language_tag, Boolean validate_length){

AcceptLanguageList LanguageParser::getDefaultAcceptLanguages()

//break the String down into parts(subtags), then validate each part

{

#if defined(PEGASUS_HAS_MESSAGES) && defined(PEGASUS_HAS_ICU)

Locale default_loc = Locale::getDefault();

if(language_tag == "*") return true;

# ifdef PEGASUS_OS_OS400

char* tmp = (char*)default_loc.getName();

char tmp_[100];

EtoA(strcpy(tmp_,tmp));

String localeId = tmp_;

# else

String localeId = default_loc.getName();

# endif

Array<String> subtags;

try

parseLanguageSubtags(subtags, language_tag);

{

if(subtags.size() > 0){

return LanguageParser::parseAcceptLanguageHeader(

for(Uint32 i = 0; i < subtags.size(); i++){

convertLocaleIdToLanguageTag(localeId));

//length should be 8 or less AND all characters should be A-Z or a-z

if((validate_length && subtags[i].size() > 8) || !checkAlpha(subtags[i].getCString()))

return false;

}

catch (const InvalidAcceptLanguageHeader& e)

{

Logger::put_l(Logger::ERROR_LOG, System::CIMSERVER, Logger::SEVERE,

"src.Server.cimserver.FAILED_TO_GET_PROCESS_LOCALE",

"Could not convert the system locale to a valid accept-language "

"format");

Logger::put(Logger::ERROR_LOG, System::CIMSERVER, Logger::SEVERE,

e.getMessage());

AcceptLanguageList al;

al.insert(LanguageTag("*"), 1);

return al;

}

else{ //nothing back from parseLanguageSubtags

#else

return false;

return AcceptLanguageList();

#endif

}

return true;

void LanguageParser::_parseLanguageHeader(

const String& languageHeaderValue,

Array<String>& languageElements)

{

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::_parseLanguageHeader");

languageElements.clear();

String element;

for (Uint32 i=0, len=languageHeaderValue.size(); i<len; i++)

{

Char16 nextChar = languageHeaderValue[i];

if (isascii(nextChar) && isspace(nextChar))

{

// Ignore whitespace

}

else if (nextChar == '(')

{

// Ignore comments

while (i < len)

{

// Search for the closing parenthesis

if (languageHeaderValue[i] == ')')

{

break;

}

String LanguageParser::convertPrivateLanguageTag(String language_tag){

// Skip over escape characters

// figure out if its a unix style locale or windows locale

if (languageHeaderValue[i] == '\\')

Uint32 i;

{

if(( i = language_tag.find("pegasus-")) != PEG_NOT_FOUND ){

i++;

language_tag = language_tag.subString(i+5); // capture the remainder of the string

return String(replaceSeparator(language_tag.getCString(), '-'));

}

//else if( (i = language_tag.find("win-")) != PEG_NOT_FOUND ){

// return language_tag.subString(i+4); // capture the remainder of the string

// call windows ID to ICU convert routine or locmap.c function here

//}

else{

return language_tag;

}

i++;

}

Boolean LanguageParser::checkAlpha(CString _str){

// Check for a missing closing parenthesis

Uint32 length = (Uint32) strlen(_str);

if (i >= len)

for(Uint32 i = 0; i < length; i++)

{

if( !isalpha(_str[i]) )

MessageLoaderParms parms(

"Common.LanguageParser.DOES_NOT_CONTAIN_TERMINATING",

"Closing \")\" character is missing.");

throw Exception(MessageLoader::getMessage(parms));

}

else if (nextChar == ',')

{

// Check for the end of the element

languageElements.append(element);

element.clear();

}

else

{

// Unescape an escape character

if ((nextChar == '\\') && (i < len-1))

{

nextChar = languageHeaderValue[++i];

}

// Include this character in the value

element.append(nextChar);

}

// Include the last element in the languageElements array

languageElements.append(element);

PEG_METHOD_EXIT();

}

void LanguageParser::_parseAcceptLanguageElement(

const String& acceptLanguageElement,

String& languageTag,

Real32& quality)

{

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::_parseAcceptLanguageElement");

// look for ';' in acceptLanguageElement, that means we have a

// quality value to capture. If not present, we only have a language tag.

Uint32 semicolonIndex = acceptLanguageElement.find(";");

if (semicolonIndex != PEG_NOT_FOUND)

{

// Separate the language tag and quality value

String qualityString =

acceptLanguageElement.subString(semicolonIndex+1);

languageTag = acceptLanguageElement.subString(0, semicolonIndex);

// Parse the quality value

char dummyChar;

int scanfConversions = sscanf(

qualityString.getCString(),

"q=%f%c", &quality, &dummyChar);

if ((scanfConversions != 1) ||

(qualityString.size() > 7))

{

MessageLoaderParms parms(

"Common.LanguageParser.INVALID_QUALITY_VALUE",

"AcceptLanguage contains an invalid quality value");

PEG_METHOD_EXIT();

throw Exception(MessageLoader::getMessage(parms));

}

else

{

languageTag = acceptLanguageElement;

quality = 1.0;

}

PEG_METHOD_EXIT();

}

void LanguageParser::_parseLanguageSubtags(

Array<String>& subtags,

const String& languageTagString)

{

PEG_METHOD_ENTER(TRC_L10N, "LanguageParser::_parseLanguageSubtags");

// Parse the language tag into subtags

Uint32 subtagIndex = 0;

Uint32 separatorIndex;

while ((separatorIndex = languageTagString.find(

subtagIndex, LANGUAGE_TAG_SEPARATOR_CHAR)) != PEG_NOT_FOUND)

{

subtags.append(languageTagString.subString(

subtagIndex, separatorIndex - subtagIndex));

subtagIndex = separatorIndex + 1;

}

subtags.append(languageTagString.subString(subtagIndex));

// Validate the syntax of each of the subtags

for (Uint32 i = 0, n = subtags.size(); i < n; i++)

{

if (((i == 0) && !_isValidPrimarySubtagSyntax(subtags[i])) ||

((i > 0) && !_isValidSubtagSyntax(subtags[i])))

{

MessageLoaderParms parms(

"Common.LanguageParser.MALFORMED_LANGUAGE_TAG",

"Malformed language tag \"$0\".", languageTagString);

PEG_METHOD_EXIT();

// throw Exception(MessageLoader::getMessage(parms));

// do not localize message, requires a language tag for this

// localization can cause recursion here

throw Exception(parms.toString());

}

PEG_METHOD_EXIT();

}

Boolean LanguageParser::_isValidPrimarySubtagSyntax(const String& subtag)

{

if ((subtag.size() == 0) || (subtag.size() > 8))

{

return false;

}

for (Uint32 i = 0, n = subtag.size(); i < n; i++)

{

if (!(isascii(subtag[i]) && isalpha(subtag[i])))

{

return false;

}

return true;

}

char LanguageParser::findSeparator(CString _str){

Boolean LanguageParser::_isValidSubtagSyntax(const String& subtag)

Uint32 length = (Uint32) strlen(_str);

{

for(Uint32 i = 0; i < length; i++)

if ((subtag.size() == 0) || (subtag.size() > 8))

if(!isalnum(_str[i]))

{

return _str[i];

return false;

return '\0';

}

CString LanguageParser::replaceSeparator(CString _s, char new_sep){

for (Uint32 i = 0, n = subtag.size(); i < n; i++)

char * _str = const_cast<char *>((const char*)_s);

{

Uint32 length = (Uint32) strlen(_str);

if (!(isascii(subtag[i]) && isalnum(subtag[i])))

for(Uint32 i = 0; i < length; i++)

{

_str[i] = (!isalnum(_str[i])) ? new_sep : _str[i];

return false;

return (String(_str)).getCString();

}

return true;

}

PEGASUS_NAMESPACE_END

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