/*

 * Copyright 1998-2007 Sun Microsystems, Inc.  All Rights Reserved.

 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.

 *

 * This code is free software; you can redistribute it and/or modify it

 * under the terms of the GNU General Public License version 2 only, as

 * published by the Free Software Foundation.  Sun designates this

 * particular file as subject to the "Classpath" exception as provided

 * by Sun in the LICENSE file that accompanied this code.

 *

 * This code is distributed in the hope that it will be useful, but WITHOUT

 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or

 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License

 * version 2 for more details (a copy is included in the LICENSE file that

 * accompanied this code).

 *

 * You should have received a copy of the GNU General Public License version

 * 2 along with this work; if not, write to the Free Software Foundation,

 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.

 *

 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,

 * CA 95054 USA or visit www.sun.com if you need additional information or

 * have any questions.

 */

#include <windows.h>

#include <stdio.h>

#include <jni.h>

#include <jni_util.h>

#include <sun_font_FontManager.h>

#define BSIZE (max(512, MAX_PATH+1))

JNIEXPORT jstring JNICALL Java_sun_font_FontManager_getFontPath(JNIEnv *env, jclass obj, jboolean noType1)

{

    char windir[BSIZE];

    char sysdir[BSIZE];

    char fontpath[BSIZE*2];

    char *end;

    /* Locate fonts directories relative to the Windows System directory.

     * If Windows System location is different than the user's window

     * directory location, as in a shared Windows installation,

     * return both locations as potential font directories

     */

    GetSystemDirectory(sysdir, BSIZE);

    end = strrchr(sysdir,'\\');

    if (end && (stricmp(end,"\\System") || stricmp(end,"\\System32"))) {

        *end = 0;

         strcat(sysdir, "\\Fonts");

    }

    GetWindowsDirectory(windir, BSIZE);

    if (strlen(windir) > BSIZE-7) {

        *windir = 0;

    } else {

        strcat(windir, "\\Fonts");

    }

    strcpy(fontpath,sysdir);

    if (stricmp(sysdir,windir)) {

        strcat(fontpath,";");

        strcat(fontpath,windir);

    }

    return JNU_NewStringPlatform(env, fontpath);

}

/* This isn't used on windows, the implementation is added in case shared

 * code accidentally calls this method to prevent an UnsatisfiedLinkError

 */

JNIEXPORT void JNICALL Java_sun_font_FontManager_setNativeFontPath

(JNIEnv *env, jclass obj, jstring theString)

{

    return;

}

/* The code below is used to obtain information from the windows font APIS

 * and registry on which fonts are available and what font files hold those

 * fonts. The results are used to speed font lookup.

 */

typedef struct GdiFontMapInfo {

    JNIEnv *env;

    jstring family;

    jobject fontToFamilyMap;

    jobject familyToFontListMap;

    jobject list;

    jmethodID putMID;

    jmethodID containsKeyMID;

    jclass arrayListClass;

    jmethodID arrayListCtr;

    jmethodID addMID;

    jmethodID toLowerCaseMID;

    jobject locale;

} GdiFontMapInfo;

/* IS_NT means NT or later OSes which support Unicode.

 * We have to painfully deal with the ASCII and non-ASCII case we

 * we really want to get the font names as unicode wherever possible.

 * UNICODE_OS is 0 to mean uninitialised, 1 to mean not a unicode OS,

 * 2 to mean a unicode OS.

 */

#define UC_UNKNOWN 0

#define UC_NO     1

#define UC_YES    2

static int UNICODE_OS = UC_UNKNOWN;

static int GetOSVersion () {

    OSVERSIONINFO vinfo;

    vinfo.dwOSVersionInfoSize = sizeof(vinfo);

    GetVersionEx(&vinfo);

    if ((int)vinfo.dwMajorVersion > 4) {

        UNICODE_OS = UC_YES;

    } else if ((int)vinfo.dwMajorVersion < 4) {

        UNICODE_OS = UC_NO;

    } else {

        if ((int)vinfo.dwPlatformId == VER_PLATFORM_WIN32_WINDOWS) {

            UNICODE_OS = UC_NO;

        } else {

            UNICODE_OS = UC_YES;

        }

    }

    return UNICODE_OS;

}

#define IS_NT ((UNICODE_OS == UC_UNKNOWN) \

   ? (GetOSVersion() == UC_YES) : (UNICODE_OS == UC_YES))

/* NT is W2K & XP. WIN is Win9x */

static const char FONTKEY_NT[] =

    "Software\\Microsoft\\Windows NT\\CurrentVersion\\Fonts";

static const char FONTKEY_WIN[] =

    "Software\\Microsoft\\Windows\\CurrentVersion\\Fonts";

/* Callback for call to EnumFontFamiliesEx in the EnumFamilyNames function.

 * Expects to be called once for each face name in the family specified

 * in the call. We extract the full name for the font which is expected

 * to be in the "system encoding" and create canonical and lower case

 * Java strings for the name which are added to the maps. The lower case

 * name is used as key to the family name value in the font to family map,

 * the canonical name is one of the"list" of members of the family.

 */

static int CALLBACK EnumFontFacesInFamilyProcA(

  ENUMLOGFONTEXA *lpelfe,

  NEWTEXTMETRICEX *lpntme,

  int FontType,

  LPARAM lParam )

{

    GdiFontMapInfo *fmi = (GdiFontMapInfo*)lParam;

    JNIEnv *env = fmi->env;

    jstring fullname, fullnameLC;

    if (FontType != TRUETYPE_FONTTYPE) {

        return 1;

    }

    /* printf("FULL=%s\n",lpelfe->elfFullName);fflush(stdout);  */

    fullname = JNU_NewStringPlatform(env, lpelfe->elfFullName);

    fullnameLC = (*env)->CallObjectMethod(env, fullname,

                                          fmi->toLowerCaseMID, fmi->locale);

    (*env)->CallObjectMethod(env, fmi->list, fmi->addMID, fullname);

    (*env)->CallObjectMethod(env, fmi->fontToFamilyMap,

                             fmi->putMID, fullnameLC, fmi->family);

    return 1;

}

typedef struct CheckFamilyInfo {

  wchar_t *family;

  wchar_t* fullName;

  int isDifferent;

} CheckFamilyInfo;

static int CALLBACK CheckFontFamilyProcW(

  ENUMLOGFONTEXW *lpelfe,

  NEWTEXTMETRICEX *lpntme,

  int FontType,

  LPARAM lParam)

{

    CheckFamilyInfo *info = (CheckFamilyInfo*)lParam;

    info->isDifferent = wcscmp(lpelfe->elfLogFont.lfFaceName, info->family);

/*     if (!info->isDifferent) { */

/*         wprintf(LFor font %s expected family=%s instead got %s\n", */

/*                 lpelfe->elfFullName, */

/*                 info->family, */

/*                 lpelfe->elfLogFont.lfFaceName); */

/*         fflush(stdout); */

/*     } */

    return 0;

}

static int DifferentFamily(wchar_t *family, wchar_t* fullName) {

    LOGFONTW lfw;

    CheckFamilyInfo info;

    /* If fullName can't be stored in the struct, assume correct family */

    if (wcslen((LPWSTR)fullName) >= LF_FACESIZE) {

        return 0;

    }

    memset(&info, 0, sizeof(CheckFamilyInfo));

    info.family = family;

    info.fullName = fullName;

    info.isDifferent = 0;

    memset(&lfw, 0, sizeof(lfw));

    wcscpy(lfw.lfFaceName, fullName);

    lfw.lfCharSet = DEFAULT_CHARSET;

    EnumFontFamiliesExW(GetDC(NULL), &lfw,

                        (FONTENUMPROCW)CheckFontFamilyProcW,

                        (LPARAM)(&info), 0L);

    return info.isDifferent;

}

static int CALLBACK EnumFontFacesInFamilyProcW(

  ENUMLOGFONTEXW *lpelfe,

  NEWTEXTMETRICEX *lpntme,

  int FontType,

  LPARAM lParam)

{

    GdiFontMapInfo *fmi = (GdiFontMapInfo*)lParam;

    JNIEnv *env = fmi->env;

    jstring fullname, fullnameLC;

    if (FontType != TRUETYPE_FONTTYPE) {

        return 1;

    }

    /* Windows has font aliases and so may enumerate fonts from

     * the aliased family if any actual font of that family is installed.

     * To protect against it ignore fonts which aren't enumerated under

     * their true family.

     */

    if (DifferentFamily(lpelfe->elfLogFont.lfFaceName,

                        lpelfe->elfFullName))  {

      return 1;

    }

    fullname = (*env)->NewString(env, lpelfe->elfFullName,

                                 wcslen((LPWSTR)lpelfe->elfFullName));

    fullnameLC = (*env)->CallObjectMethod(env, fullname,

                                          fmi->toLowerCaseMID, fmi->locale);

    (*env)->CallObjectMethod(env, fmi->list, fmi->addMID, fullname);

    (*env)->CallObjectMethod(env, fmi->fontToFamilyMap,

                             fmi->putMID, fullnameLC, fmi->family);

    return 1;

}

/* Callback for EnumFontFamiliesEx in populateFontFileNameMap.

 * Expects to be called for every charset of every font family.

 * If this is the first time we have been called for this family,

 * add a new mapping to the familyToFontListMap from this family to a

 * list of its members. To populate that list, further enumerate all faces

 * in this family for the matched charset. This assumes that all fonts

 * in a family support the same charset, which is a fairly safe assumption

 * and saves time as the call we make here to EnumFontFamiliesEx will

 * enumerate the members of this family just once each.

 * Because we set fmi->list to be the newly created list the call back

 * can safely add to that list without a search.

 */

static int CALLBACK EnumFamilyNamesA(

  ENUMLOGFONTEXA *lpelfe,    /* pointer to logical-font data */

  NEWTEXTMETRICEX *lpntme,   /* pointer to physical-font data */

  int FontType,              /* type of font */

  LPARAM lParam)             /* application-defined data */

{

    GdiFontMapInfo *fmi = (GdiFontMapInfo*)lParam;

    JNIEnv *env = fmi->env;

    jstring familyLC;

    LOGFONTA lfa;

    if (FontType != TRUETYPE_FONTTYPE) {

        return 1;

    }

    /* Windows lists fonts which have a vmtx (vertical metrics) table twice.

     * Once using their normal name, and again preceded by '@'. These appear

     * in font lists in some windows apps, such as wordpad. We don't want

     * these so we skip any font where the first character is '@'

     */

    if (lpelfe->elfLogFont.lfFaceName[0] == '@') {

        return 1;

    }

    fmi->family = JNU_NewStringPlatform(env,lpelfe->elfLogFont.lfFaceName);

    familyLC = (*env)->CallObjectMethod(env, fmi->family,

                                        fmi->toLowerCaseMID, fmi->locale);

    /* check if already seen this family with a different charset */

    if ((*env)->CallBooleanMethod(env,fmi->familyToFontListMap,

                                  fmi->containsKeyMID, familyLC)) {

        return 1;

    }

    fmi->list = (*env)->NewObject(env,

                                  fmi->arrayListClass, fmi->arrayListCtr, 4);

    (*env)->CallObjectMethod(env, fmi->familyToFontListMap,

                             fmi->putMID, familyLC, fmi->list);

/*  printf("FAMILY=%s\n", lpelfe->elfLogFont.lfFaceName);fflush(stdout); */

    memset(&lfa, 0, sizeof(lfa));

    strcpy(lfa.lfFaceName, lpelfe->elfLogFont.lfFaceName);

    lfa.lfCharSet = lpelfe->elfLogFont.lfCharSet;

    EnumFontFamiliesExA(GetDC(NULL), &lfa,

                        (FONTENUMPROCA)EnumFontFacesInFamilyProcA,

                        lParam, 0L);

    return 1;

}

static int CALLBACK EnumFamilyNamesW(

  ENUMLOGFONTEXW *lpelfe,    /* pointer to logical-font data */

  NEWTEXTMETRICEX *lpntme,  /* pointer to physical-font data */

  int FontType,             /* type of font */

  LPARAM lParam )           /* application-defined data */

{

    GdiFontMapInfo *fmi = (GdiFontMapInfo*)lParam;

    JNIEnv *env = fmi->env;

    jstring familyLC;

    int slen;

    LOGFONTW lfw;

    if (FontType != TRUETYPE_FONTTYPE) {

        return 1;

    }

/*     wprintf(L"FAMILY=%s charset=%d FULL=%s\n", */

/*          lpelfe->elfLogFont.lfFaceName, */

/*          lpelfe->elfLogFont.lfCharSet, */

/*          lpelfe->elfFullName); */

/*     fflush(stdout); */

    /* Windows lists fonts which have a vmtx (vertical metrics) table twice.

     * Once using their normal name, and again preceded by '@'. These appear

     * in font lists in some windows apps, such as wordpad. We don't want

     * these so we skip any font where the first character is '@'

     */

    if (lpelfe->elfLogFont.lfFaceName[0] == L'@') {

            return 1;

    }

    slen = wcslen(lpelfe->elfLogFont.lfFaceName);

    fmi->family = (*env)->NewString(env,lpelfe->elfLogFont.lfFaceName, slen);

    familyLC = (*env)->CallObjectMethod(env, fmi->family,

                                        fmi->toLowerCaseMID, fmi->locale);

    /* check if already seen this family with a different charset */

    if ((*env)->CallBooleanMethod(env,fmi->familyToFontListMap,

                                  fmi->containsKeyMID, familyLC)) {

        return 1;

    }

    fmi->list = (*env)->NewObject(env,

                                  fmi->arrayListClass, fmi->arrayListCtr, 4);

    (*env)->CallObjectMethod(env, fmi->familyToFontListMap,

                             fmi->putMID, familyLC, fmi->list);

    memset(&lfw, 0, sizeof(lfw));

    wcscpy(lfw.lfFaceName, lpelfe->elfLogFont.lfFaceName);

    lfw.lfCharSet = lpelfe->elfLogFont.lfCharSet;

    EnumFontFamiliesExW(GetDC(NULL), &lfw,

                        (FONTENUMPROCW)EnumFontFacesInFamilyProcW,

                        lParam, 0L);

    return 1;

}

/* It looks like TrueType fonts have " (TrueType)" tacked on the end of their

 * name, so we can try to use that to distinguish TT from other fonts.

 * However if a program "installed" a font in the registry the key may

 * not include that. We could also try to "pass" fonts which have no "(..)"

 * at the end. But that turns out to pass a few .FON files that MS supply.

 * If there's no parenthesised type string, we could next try to infer

 * the file type from the file name extension. Since the MS entries that

 * have no type string are very few, and have odd names like "MS-DOS CP 437"

 * and would never return a Java Font anyway its currently OK to put these

 * in the font map, although clearly the returned names must never percolate

 * up into a list of available fonts returned to the application.

 * Additionally for TTC font files the key looks like

 * Font 1 & Font 2 (TrueType)

 * or sometimes even :

 * Font 1 & Font 2 & Font 3 (TrueType)

 * Also if a Font has a name for this locale that name also

 * exists in the registry using the appropriate platform encoding.

 * What do we do then?

 */

/* static const wchar_t W_TTSUFFIX[] = L" (TrueType)"; */

/* static const char C_TTSUFFIX[] = " (TrueType)"; */

/* static int TTSLEN = 11;  hard-coded - be careful */

static BOOL RegistryToBaseTTNameA(LPCSTR name) {

    static const char TTSUFFIX[] = " (TrueType)";

    int TTSLEN = strlen(TTSUFFIX);

    char *match;

    int len = strlen(name);

    if (len == 0) {

        return FALSE;

    }

    if (name[len-1] != ')') {

        return FALSE;

    }

    if (len <= TTSLEN) {

        return FALSE;

    }

    match = strstr(name, TTSUFFIX);

    if ((match != NULL) && (match == name+(len-TTSLEN))) {

        match[0] = '\0'; /* truncate name */

        return TRUE;

    } else {

        return FALSE;

    }

}

static BOOL RegistryToBaseTTNameW(LPWSTR name) {

    static const wchar_t TTSUFFIX[] = L" (TrueType)";

    int TTSLEN = wcslen(TTSUFFIX);

    wchar_t *match;

    int len = wcslen(name);

    if (len == 0) {

        return FALSE;

    }

    if (name[len-1] != L')') {

        return FALSE;

    }

    if (len <= TTSLEN) {

        return FALSE;

    }

    match = wcsstr(name, TTSUFFIX);

    if ((match != NULL) && (match == name+(len-TTSLEN))) {

        match[0] = L'\0'; /* truncate name */

        return TRUE;

    } else {

        return FALSE;

    }

}

static void registerFontA(GdiFontMapInfo *fmi, jobject fontToFileMap,

                          LPCSTR name, LPCSTR data) {

    LPSTR ptr1, ptr2;

    jstring fontStr;

    JNIEnv *env = fmi->env;

    int dslen = strlen(data);

    jstring fileStr = JNU_NewStringPlatform(env, data);

    /* TTC or ttc means it may be a collection. Need to parse out

     * multiple font face names separated by " & "

     * By only doing this for fonts which look like collections based on

     * file name we are adhering to MS recommendations for font file names

     * so it seems that we can be sure that this identifies precisely

     * the MS-supplied truetype collections.

     * This avoids any potential issues if a TTF file happens to have

     * a & in the font name (I can't find anything which prohibits this)

     * and also means we only parse the key in cases we know to be

     * worthwhile.

     */

    if ((data[dslen-1] == 'C' || data[dslen-1] == 'c') &&

        (ptr1 = strstr(name, " & ")) != NULL) {

        ptr1+=3;

        while (ptr1 >= name) { /* marginally safer than while (true) */

            while ((ptr2 = strstr(ptr1, " & ")) != NULL) {

                    ptr1 = ptr2+3;

            }

            fontStr = JNU_NewStringPlatform(env, ptr1);

            fontStr = (*env)->CallObjectMethod(env, fontStr,

                                               fmi->toLowerCaseMID,

                                               fmi->locale);

            (*env)->CallObjectMethod(env, fontToFileMap, fmi->putMID,

                                     fontStr, fileStr);

            if (ptr1 == name) {

                break;

            } else {

                *(ptr1-3) ='\0';

                ptr1 = (LPSTR)name;

            }

        }

    } else {

        fontStr = JNU_NewStringPlatform(env, name);

        fontStr = (*env)->CallObjectMethod(env, fontStr,

                                           fmi->toLowerCaseMID, fmi->locale);

        (*env)->CallObjectMethod(env, fontToFileMap, fmi->putMID,

                                 fontStr, fileStr);

    }

}

static void registerFontW(GdiFontMapInfo *fmi, jobject fontToFileMap,

                          LPWSTR name, LPWSTR data) {

    wchar_t *ptr1, *ptr2;

    jstring fontStr;

    JNIEnv *env = fmi->env;

    int dslen = wcslen(data);

    jstring fileStr = (*env)->NewString(env, data, dslen);

    /* TTC or ttc means it may be a collection. Need to parse out

     * multiple font face names separated by " & "

     * By only doing this for fonts which look like collections based on

     * file name we are adhering to MS recommendations for font file names

     * so it seems that we can be sure that this identifies precisely

     * the MS-supplied truetype collections.

     * This avoids any potential issues if a TTF file happens to have

     * a & in the font name (I can't find anything which prohibits this)

     * and also means we only parse the key in cases we know to be

     * worthwhile.

     */

    if ((data[dslen-1] == L'C' || data[dslen-1] == L'c') &&

        (ptr1 = wcsstr(name, L" & ")) != NULL) {

        ptr1+=3;

        while (ptr1 >= name) { /* marginally safer than while (true) */

            while ((ptr2 = wcsstr(ptr1, L" & ")) != NULL) {

                ptr1 = ptr2+3;

            }

            fontStr = (*env)->NewString(env, ptr1, wcslen(ptr1));

            fontStr = (*env)->CallObjectMethod(env, fontStr,

                                               fmi->toLowerCaseMID,

                                               fmi->locale);

            (*env)->CallObjectMethod(env, fontToFileMap, fmi->putMID,

                                     fontStr, fileStr);

            if (ptr1 == name) {

                break;

            } else {

                *(ptr1-3) = L'\0';

                ptr1 = name;

            }

        }

    } else {

        fontStr = (*env)->NewString(env, name, wcslen(name));