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mirror of https://github.com/samba-team/samba.git synced 2024-12-27 03:21:53 +03:00

utf-8 and EUC3 patch from Hiroshi Miura Samba User Group Japan staff.

mkdir high bits patch from Robert Dahlem" <Robert.Dahlem@gmx.net>.
jeremy.
This commit is contained in:
Jeremy Allison 0001-01-01 00:00:00 +00:00
parent 1ebe54666b
commit b40191d271
11 changed files with 1080 additions and 22 deletions

View File

@ -30,7 +30,7 @@
/* FOR SHIFT JIS CODE */
#define is_shift_jis(c) \
((0x81 <= ((unsigned char) (c)) && ((unsigned char) (c)) <= 0x9f) \
|| (0xe0 <= ((unsigned char) (c)) && ((unsigned char) (c)) <= 0xef))
|| (0xe0 <= ((unsigned char) (c)) && ((unsigned char) (c)) <= 0xfc))
#define is_shift_jis2(c) \
(0x40 <= ((unsigned char) (c)) && ((unsigned char) (c)) <= 0xfc \
&& ((unsigned char) (c)) != 0x7f)
@ -52,12 +52,33 @@
(is_sj_upper2 (c) ? ((int) ((unsigned char) (c) - 0x60 + 0x81)) : \
((int) (unsigned char) (c)))
#define is_sj_ru_upper2(c) \
((0x40 <= (unsigned char) (c)) && ((unsigned char) (c) <= 0x60))
#define is_sj_ru_lower2(c) \
(((0x70 <= (unsigned char) (c)) && ((unsigned char) (c) <= 0x7e)) || \
((0x80 <= (unsigned char) (c)) && ((unsigned char) (c) <= 0x91)))
#define sjis_russian 0x84
#define is_sj_russian(c) (sjis_russian == (unsigned char) (c))
#define is_sj_ru_upper(c1, c2) (is_sj_russian (c1) && is_sj_ru_upper2 (c2))
#define is_sj_ru_lower(c1, c2) (is_sj_russian (c1) && is_sj_ru_lower2 (c2))
#define sj_ru_toupper2(c) \
(is_sj_ru_lower2 (c) ? ((int) ((unsigned char) (c) + \
(((unsigned char)(c) >= 0x4f) ? (0x70 - 0x40) : (0x80 - 0x4f)))) : \
((int) (unsigned char) (c)))
#define sj_ru_tolower2(c) \
(is_sj_ru_upper2 (c) ? ((int) ((unsigned char) (c) - \
(((unsigned char)(c) >= 0x80) ? (0x70 - 0x40) : (0x80 - 0x4f)))) : \
((int) (unsigned char) (c)))
#ifdef _KANJI_C_
/* FOR EUC CODE */
#define euc_kana (0x8e)
#define is_euc_kana(c) (((unsigned char) (c)) == euc_kana)
#define is_euc(c) (0xa0 < ((unsigned char) (c)) && ((unsigned char) (c)) < 0xff)
#define euc_sup (0x8f)
#define is_euc_sup(c) (((unsigned char ) (c)) == euc_sup)
/* FOR JIS CODE */
/* default jis third shift code, use for output */
#ifndef JIS_KSO
@ -167,5 +188,552 @@ extern int (*_skip_multibyte_char)(char c);
#define HEX_CODE (5)
#define CAP_CODE (6)
#define DOSV_CODE SJIS_CODE
#define EUC3_CODE (7)
#define UTF8_CODE (8)
#ifdef _KANJI_C_
/* For conversion */
#define EXTSJISC(c) (0xf0 <= ((unsigned char)(c)) \
&& ((unsigned char)(c) <= 0xfc))
#define GETAHI (0x81)
#define GETALO (0xac)
typedef struct _sjis_regur_t {
int start;
int end;
int rstart;
} sjis_regur_t;
/* When Converting to EUC and JIS, there is no room for
* these SJIS codes whose hi byte is larger than 0xf0.
*
* So we must drop or convert it to harmless code.
* This is not standard way, so it is ad hoc but practical.
* It is also thought of backward and future compatibility.
*
* Miura.
*/
static sjis_regur_t sjisconv[] = {
{0xfa40, 0xfa49, 0xeeef},
{0xfa4a, 0xfa53, 0x8754},
{0xfa54, 0xfa54, 0x81ca},
{0xfa55, 0xfa57, 0xeefa},
{0xfa58, 0xfa58, 0x878a},
{0xfa59, 0xfa59, 0x8782},
{0xfa5a, 0xfa5a, 0x8784},
{0xfa5b, 0xfa5b, 0x81e6},
{0xfa5c, 0xfa7e, 0xed40},
{0xfa80, 0xfa9b, 0xed63},
{0xfa9c, 0xfafc, 0xed80},
{0xfb40, 0xfb5b, 0xede1},
{0xfb5c, 0xfb7e, 0xee40},
{0xfb80, 0xfb9b, 0xee63},
{0xfb9c, 0xfbfc, 0xee80},
{0xfc40, 0xfc4b, 0xeee1}
};
#define SJISCONVTBLSIZ (sizeof(sjisconv) / sizeof(sjis_regur_t))
static sjis_regur_t sjisrev[] = {
{0x81ca, 0x81ca, 0xfa54},
{0x81e6, 0x81e6, 0xfa5b},
{0x8754, 0x875d, 0xfa4a},
{0x8782, 0x8782, 0xfa59},
{0x8784, 0x8784, 0xfa5a},
{0x878a, 0x878a, 0xfa58},
{0xed40, 0xed62, 0xfa5c},
{0xed63, 0xed7e, 0xfa80},
{0xed80, 0xede0, 0xfa9c},
{0xede1, 0xedfc, 0xfb40},
{0xee40, 0xee62, 0xfb5c},
{0xee63, 0xee7e, 0xfb80},
{0xee80, 0xeee0, 0xfb9c},
{0xeee1, 0xeeec, 0xfc40},
{0xeeef, 0xeef8, 0xfa40},
{0xeefa, 0xeefc, 0xfa55}
};
#define SJISREVTBLSIZ (sizeof(sjisrev) / sizeof(sjis_regur_t))
/* EUC3BYTE DEFINITIONS */
typedef struct _sjis_euc_map_t {
int sjis;
int euc;
} sjis_euc_map_t;
static sjis_euc_map_t euc3conv2[] = {
{0x8754 , 0xf3fd},
{0x8755 , 0xf3fe},
{0x8756 , 0xf4a1},
{0x8757 , 0xf4a2},
{0x8758 , 0xf4a3},
{0x8759 , 0xf4a4},
{0x875a , 0xf4a5},
{0x875b , 0xf4a6},
{0x875c , 0xf4a7},
{0x875d , 0xf4a8},
{0x8782 , 0xf4ac},
{0x8784 , 0xf4ad},
{0x878a , 0xf4ab}
};
#define EUC3CONV2TBLSIZ (sizeof(euc3conv2) / sizeof(sjis_euc_map_t))
/* IBM Kanji to EUC 3byte */
static int euc3conv[] = {
/* 0xfa40 */
0xf3f3, 0xf3f4, 0xf3f5, 0xf3f6, 0xf3f7, 0xf3f8, 0xf3f9, 0xf3fa, 0xf3fb, 0xf3fc, 0xf3fd, 0xf3fe, 0xf4a1, 0xf4a2, 0xf4a3, 0xf4a4,
/* 0xfa50 */
0xf4a5, 0xf4a6, 0xf4a7, 0xf4a8, 0, 0xa2c3, 0xf4a9, 0xf4aa, 0xf4ab, 0xf4ac, 0xf4ad, 0, 0xd4e3, 0xdcdf, 0xe4e9, 0xe3f8,
/* 0xfa60 */
0xd9a1, 0xb1bb, 0xf4ae, 0xc2ad, 0xc3fc, 0xe4d0, 0xc2bf, 0xbcf4, 0xb0a9, 0xb0c8, 0xf4af, 0xb0d2, 0xb0d4, 0xb0e3, 0xb0ee, 0xb1a7,
/* 0xfa70 */
0xb1a3, 0xb1ac, 0xb1a9, 0xb1be, 0xb1df, 0xb1d8, 0xb1c8, 0xb1d7, 0xb1e3, 0xb1f4, 0xb1e1, 0xb2a3, 0xf4b0, 0xb2bb, 0xb2e6,
/* 0xfa80 */
0xb2ed, 0xb2f5, 0xb2fc, 0xf4b1, 0xb3b5, 0xb3d8, 0xb3db, 0xb3e5, 0xb3ee, 0xb3fb, 0xf4b2, 0xf4b3, 0xb4c0, 0xb4c7, 0xb4d0, 0xb4de,
/* 0xfa90 */
0xf4b4, 0xb5aa, 0xf4b5, 0xb5af, 0xb5c4, 0xb5e8, 0xf4b6, 0xb7c2, 0xb7e4, 0xb7e8, 0xb7e7, 0xf4b7, 0xf4b8, 0xf4b9, 0xb8ce, 0xb8e1,
/* 0xfaa0 */
0xb8f5, 0xb8f7, 0xb8f8, 0xb8fc, 0xb9af, 0xb9b7, 0xbabe, 0xbadb, 0xcdaa, 0xbae1, 0xf4ba, 0xbaeb, 0xbbb3, 0xbbb8, 0xf4bb, 0xbbca,
/* 0xfab0 */
0xf4bc, 0xf4bd, 0xbbd0, 0xbbde, 0xbbf4, 0xbbf5, 0xbbf9, 0xbce4, 0xbced, 0xbcfe, 0xf4be, 0xbdc2, 0xbde7, 0xf4bf, 0xbdf0, 0xbeb0,
/* 0xfac0 */
0xbeac, 0xf4c0, 0xbeb3, 0xbebd, 0xbecd, 0xbec9, 0xbee4, 0xbfa8, 0xbfc9, 0xc0c4, 0xc0e4, 0xc0f4, 0xc1a6, 0xf4c1, 0xc1f5, 0xc1fc,
/* 0xfad0 */
0xf4c2, 0xc1f8, 0xc2ab, 0xc2a1, 0xc2a5, 0xf4c3, 0xc2b8, 0xc2ba, 0xf4c4, 0xc2c4, 0xc2d2, 0xc2d7, 0xc2db, 0xc2de, 0xc2ed, 0xc2f0,
/* 0xfae0 */
0xf4c5, 0xc3a1, 0xc3b5, 0xc3c9, 0xc3b9, 0xf4c6, 0xc3d8, 0xc3fe, 0xf4c7, 0xc4cc, 0xf4c8, 0xc4d9, 0xc4ea, 0xc4fd, 0xf4c9, 0xc5a7,
/* 0xfaf0 */
0xc5b5, 0xc5b6, 0xf4ca, 0xc5d5, 0xc6b8, 0xc6d7, 0xc6e0, 0xc6ea, 0xc6e3, 0xc7a1, 0xc7ab, 0xc7c7, 0xc7c3,
/* 0xfb40 */
0xc7cb, 0xc7cf, 0xc7d9, 0xf4cb, 0xf4cc, 0xc7e6, 0xc7ee, 0xc7fc, 0xc7eb, 0xc7f0, 0xc8b1, 0xc8e5, 0xc8f8, 0xc9a6, 0xc9ab, 0xc9ad,
/* 0xfb50 */
0xf4cd, 0xc9ca, 0xc9d3, 0xc9e9, 0xc9e3, 0xc9fc, 0xc9f4, 0xc9f5, 0xf4ce, 0xcab3, 0xcabd, 0xcaef, 0xcaf1, 0xcbae, 0xf4cf, 0xcbca,
/* 0xfb60 */
0xcbe6, 0xcbea, 0xcbf0, 0xcbf4, 0xcbee, 0xcca5, 0xcbf9, 0xccab, 0xccae, 0xccad, 0xccb2, 0xccc2, 0xccd0, 0xccd9, 0xf4d0, 0xcdbb,
/* 0xfb70 */
0xf4d1, 0xcebb, 0xf4d2, 0xceba, 0xcec3, 0xf4d3, 0xcef2, 0xb3dd, 0xcfd5, 0xcfe2, 0xcfe9, 0xcfed, 0xf4d4, 0xf4d5, 0xf4d6,
/* 0xfb80 */
0xf4d7, 0xd0e5, 0xf4d8, 0xd0e9, 0xd1e8, 0xf4d9, 0xf4da, 0xd1ec, 0xd2bb, 0xf4db, 0xd3e1, 0xd3e8, 0xd4a7, 0xf4dc, 0xf4dd, 0xd4d4,
/* 0xfb90 */
0xd4f2, 0xd5ae, 0xf4de, 0xd7de, 0xf4df, 0xd8a2, 0xd8b7, 0xd8c1, 0xd8d1, 0xd8f4, 0xd9c6, 0xd9c8, 0xd9d1, 0xf4e0, 0xf4e1, 0xf4e2,
/* 0xfba0 */
0xf4e3, 0xf4e4, 0xdcd3, 0xddc8, 0xddd4, 0xddea, 0xddfa, 0xdea4, 0xdeb0, 0xf4e5, 0xdeb5, 0xdecb, 0xf4e6, 0xdfb9, 0xf4e7, 0xdfc3,
/* 0xfbb0 */
0xf4e8, 0xf4e9, 0xe0d9, 0xf4ea, 0xf4eb, 0xe1e2, 0xf4ec, 0xf4ed, 0xf4ee, 0xe2c7, 0xe3a8, 0xe3a6, 0xe3a9, 0xe3af, 0xe3b0, 0xe3aa,
/* 0xfbc0 */
0xe3ab, 0xe3bc, 0xe3c1, 0xe3bf, 0xe3d5, 0xe3d8, 0xe3d6, 0xe3df, 0xe3e3, 0xe3e1, 0xe3d4, 0xe3e9, 0xe4a6, 0xe3f1, 0xe3f2, 0xe4cb,
/* 0xfbd0 */
0xe4c1, 0xe4c3, 0xe4be, 0xf4ef, 0xe4c0, 0xe4c7, 0xe4bf, 0xe4e0, 0xe4de, 0xe4d1, 0xf4f0, 0xe4dc, 0xe4d2, 0xe4db, 0xe4d4, 0xe4fa,
/* 0xfbe0 */
0xe4ef, 0xe5b3, 0xe5bf, 0xe5c9, 0xe5d0, 0xe5e2, 0xe5ea, 0xe5eb, 0xf4f1, 0xf4f2, 0xf4f3, 0xe6e8, 0xe6ef, 0xe7ac, 0xf4f4, 0xe7ae,
/* 0xfbf0 */
0xf4f5, 0xe7b1, 0xf4f6, 0xe7b2, 0xe8b1, 0xe8b6, 0xf4f7, 0xf4f8, 0xe8dd, 0xf4f9, 0xf4fa, 0xe9d1, 0xf4fb,
/* 0xfc40 */
0xe9ed, 0xeacd, 0xf4fc, 0xeadb, 0xeae6, 0xeaea, 0xeba5, 0xebfb, 0xebfa, 0xf4fd, 0xecd6, 0xf4fe
};
#define EUC3CONVTBLSIZ (sizeof(euc3conv) / sizeof(int))
/* EUC3byte to SJIS Code */
typedef struct _sjis_euc_revmap_t {
int euc;
int sjis;
} sjis_euc_revmap_t;
static sjis_euc_revmap_t euc3rev[] = {
{0xa2c3, 0xfa55},
{0xb0a9, 0xfa68},
{0xb0c8, 0xfa69},
{0xb0d2, 0xfa6b},
{0xb0d4, 0xfa6c},
{0xb0e3, 0xfa6d},
{0xb0ee, 0xfa6e},
{0xb1a3, 0xfa70},
{0xb1a7, 0xfa6f},
{0xb1a9, 0xfa72},
{0xb1ac, 0xfa71},
{0xb1bb, 0xfa61},
{0xb1be, 0xfa73},
{0xb1c8, 0xfa76},
{0xb1d7, 0xfa77},
{0xb1d8, 0xfa75},
{0xb1df, 0xfa74},
{0xb1e1, 0xfa7a},
{0xb1e3, 0xfa78},
{0xb1f4, 0xfa79},
{0xb2a3, 0xfa7b},
{0xb2bb, 0xfa7d},
{0xb2e6, 0xfa7e},
{0xb2ed, 0xfa80},
{0xb2f5, 0xfa81},
{0xb2fc, 0xfa82},
{0xb3b5, 0xfa84},
{0xb3d8, 0xfa85},
{0xb3db, 0xfa86},
{0xb3dd, 0xfb77},
{0xb3e5, 0xfa87},
{0xb3ee, 0xfa88},
{0xb3fb, 0xfa89},
{0xb4c0, 0xfa8c},
{0xb4c7, 0xfa8d},
{0xb4d0, 0xfa8e},
{0xb4de, 0xfa8f},
{0xb5aa, 0xfa91},
{0xb5af, 0xfa93},
{0xb5c4, 0xfa94},
{0xb5e8, 0xfa95},
{0xb7c2, 0xfa97},
{0xb7e4, 0xfa98},
{0xb7e7, 0xfa9a},
{0xb7e8, 0xfa99},
{0xb8ce, 0xfa9e},
{0xb8e1, 0xfa9f},
{0xb8f5, 0xfaa0},
{0xb8f7, 0xfaa1},
{0xb8f8, 0xfaa2},
{0xb8fc, 0xfaa3},
{0xb9af, 0xfaa4},
{0xb9b7, 0xfaa5},
{0xbabe, 0xfaa6},
{0xbadb, 0xfaa7},
{0xbae1, 0xfaa9},
{0xbaeb, 0xfaab},
{0xbbb3, 0xfaac},
{0xbbb8, 0xfaad},
{0xbbca, 0xfaaf},
{0xbbd0, 0xfab2},
{0xbbde, 0xfab3},
{0xbbf4, 0xfab4},
{0xbbf5, 0xfab5},
{0xbbf9, 0xfab6},
{0xbce4, 0xfab7},
{0xbced, 0xfab8},
{0xbcf4, 0xfa67},
{0xbcfe, 0xfab9},
{0xbdc2, 0xfabb},
{0xbde7, 0xfabc},
{0xbdf0, 0xfabe},
{0xbeac, 0xfac0},
{0xbeb0, 0xfabf},
{0xbeb3, 0xfac2},
{0xbebd, 0xfac3},
{0xbec9, 0xfac5},
{0xbecd, 0xfac4},
{0xbee4, 0xfac6},
{0xbfa8, 0xfac7},
{0xbfc9, 0xfac8},
{0xc0c4, 0xfac9},
{0xc0e4, 0xfaca},
{0xc0f4, 0xfacb},
{0xc1a6, 0xfacc},
{0xc1f5, 0xface},
{0xc1f8, 0xfad1},
{0xc1fc, 0xfacf},
{0xc2a1, 0xfad3},
{0xc2a5, 0xfad4},
{0xc2ab, 0xfad2},
{0xc2ad, 0xfa63},
{0xc2b8, 0xfad6},
{0xc2ba, 0xfad7},
{0xc2bf, 0xfa66},
{0xc2c4, 0xfad9},
{0xc2d2, 0xfada},
{0xc2d7, 0xfadb},
{0xc2db, 0xfadc},
{0xc2de, 0xfadd},
{0xc2ed, 0xfade},
{0xc2f0, 0xfadf},
{0xc3a1, 0xfae1},
{0xc3b5, 0xfae2},
{0xc3b9, 0xfae4},
{0xc3c9, 0xfae3},
{0xc3d8, 0xfae6},
{0xc3fc, 0xfa64},
{0xc3fe, 0xfae7},
{0xc4cc, 0xfae9},
{0xc4d9, 0xfaeb},
{0xc4ea, 0xfaec},
{0xc4fd, 0xfaed},
{0xc5a7, 0xfaef},
{0xc5b5, 0xfaf0},
{0xc5b6, 0xfaf1},
{0xc5d5, 0xfaf3},
{0xc6b8, 0xfaf4},
{0xc6d7, 0xfaf5},
{0xc6e0, 0xfaf6},
{0xc6e3, 0xfaf8},
{0xc6ea, 0xfaf7},
{0xc7a1, 0xfaf9},
{0xc7ab, 0xfafa},
{0xc7c3, 0xfafc},
{0xc7c7, 0xfafb},
{0xc7cb, 0xfb40},
{0xc7cf, 0xfb41},
{0xc7d9, 0xfb42},
{0xc7e6, 0xfb45},
{0xc7eb, 0xfb48},
{0xc7ee, 0xfb46},
{0xc7f0, 0xfb49},
{0xc7fc, 0xfb47},
{0xc8b1, 0xfb4a},
{0xc8e5, 0xfb4b},
{0xc8f8, 0xfb4c},
{0xc9a6, 0xfb4d},
{0xc9ab, 0xfb4e},
{0xc9ad, 0xfb4f},
{0xc9ca, 0xfb51},
{0xc9d3, 0xfb52},
{0xc9e3, 0xfb54},
{0xc9e9, 0xfb53},
{0xc9f4, 0xfb56},
{0xc9f5, 0xfb57},
{0xc9fc, 0xfb55},
{0xcab3, 0xfb59},
{0xcabd, 0xfb5a},
{0xcaef, 0xfb5b},
{0xcaf1, 0xfb5c},
{0xcbae, 0xfb5d},
{0xcbca, 0xfb5f},
{0xcbe6, 0xfb60},
{0xcbea, 0xfb61},
{0xcbee, 0xfb64},
{0xcbf0, 0xfb62},
{0xcbf4, 0xfb63},
{0xcbf9, 0xfb66},
{0xcca5, 0xfb65},
{0xccab, 0xfb67},
{0xccad, 0xfb69},
{0xccae, 0xfb68},
{0xccb2, 0xfb6a},
{0xccc2, 0xfb6b},
{0xccd0, 0xfb6c},
{0xccd9, 0xfb6d},
{0xcdaa, 0xfaa8},
{0xcdbb, 0xfb6f},
{0xceba, 0xfb73},
{0xcebb, 0xfb71},
{0xcec3, 0xfb74},
{0xcef2, 0xfb76},
{0xcfd5, 0xfb78},
{0xcfe2, 0xfb79},
{0xcfe9, 0xfb7a},
{0xcfed, 0xfb7b},
{0xd0e5, 0xfb81},
{0xd0e9, 0xfb83},
{0xd1e8, 0xfb84},
{0xd1ec, 0xfb87},
{0xd2bb, 0xfb88},
{0xd3e1, 0xfb8a},
{0xd3e8, 0xfb8b},
{0xd4a7, 0xfb8c},
{0xd4d4, 0xfb8f},
{0xd4e3, 0xfa5c},
{0xd4f2, 0xfb90},
{0xd5ae, 0xfb91},
{0xd7de, 0xfb93},
{0xd8a2, 0xfb95},
{0xd8b7, 0xfb96},
{0xd8c1, 0xfb97},
{0xd8d1, 0xfb98},
{0xd8f4, 0xfb99},
{0xd9a1, 0xfa60},
{0xd9c6, 0xfb9a},
{0xd9c8, 0xfb9b},
{0xd9d1, 0xfb9c},
{0xdcd3, 0xfba2},
{0xdcdf, 0xfa5d},
{0xddc8, 0xfba3},
{0xddd4, 0xfba4},
{0xddea, 0xfba5},
{0xddfa, 0xfba6},
{0xdea4, 0xfba7},
{0xdeb0, 0xfba8},
{0xdeb5, 0xfbaa},
{0xdecb, 0xfbab},
{0xdfb9, 0xfbad},
{0xdfc3, 0xfbaf},
{0xe0d9, 0xfbb2},
{0xe1e2, 0xfbb5},
{0xe2c7, 0xfbb9},
{0xe3a6, 0xfbbb},
{0xe3a8, 0xfbba},
{0xe3a9, 0xfbbc},
{0xe3aa, 0xfbbf},
{0xe3ab, 0xfbc0},
{0xe3af, 0xfbbd},
{0xe3b0, 0xfbbe},
{0xe3bc, 0xfbc1},
{0xe3bf, 0xfbc3},
{0xe3c1, 0xfbc2},
{0xe3d4, 0xfbca},
{0xe3d5, 0xfbc4},
{0xe3d6, 0xfbc6},
{0xe3d8, 0xfbc5},
{0xe3df, 0xfbc7},
{0xe3e1, 0xfbc9},
{0xe3e3, 0xfbc8},
{0xe3e9, 0xfbcb},
{0xe3f1, 0xfbcd},
{0xe3f2, 0xfbce},
{0xe3f8, 0xfa5f},
{0xe4a6, 0xfbcc},
{0xe4be, 0xfbd2},
{0xe4bf, 0xfbd6},
{0xe4c0, 0xfbd4},
{0xe4c1, 0xfbd0},
{0xe4c3, 0xfbd1},
{0xe4c7, 0xfbd5},
{0xe4cb, 0xfbcf},
{0xe4d0, 0xfa65},
{0xe4d1, 0xfbd9},
{0xe4d2, 0xfbdc},
{0xe4d4, 0xfbde},
{0xe4db, 0xfbdd},
{0xe4dc, 0xfbdb},
{0xe4de, 0xfbd8},
{0xe4e0, 0xfbd7},
{0xe4e9, 0xfa5e},
{0xe4ef, 0xfbe0},
{0xe4fa, 0xfbdf},
{0xe5b3, 0xfbe1},
{0xe5bf, 0xfbe2},
{0xe5c9, 0xfbe3},
{0xe5d0, 0xfbe4},
{0xe5e2, 0xfbe5},
{0xe5ea, 0xfbe6},
{0xe5eb, 0xfbe7},
{0xe6e8, 0xfbeb},
{0xe6ef, 0xfbec},
{0xe7ac, 0xfbed},
{0xe7ae, 0xfbef},
{0xe7b1, 0xfbf1},
{0xe7b2, 0xfbf3},
{0xe8b1, 0xfbf4},
{0xe8b6, 0xfbf5},
{0xe8dd, 0xfbf8},
{0xe9d1, 0xfbfb},
{0xe9ed, 0xfc40},
{0xeacd, 0xfc41},
{0xeadb, 0xfc43},
{0xeae6, 0xfc44},
{0xeaea, 0xfc45},
{0xeba5, 0xfc46},
{0xebfa, 0xfc48},
{0xebfb, 0xfc47},
{0xecd6, 0xfc4a},
{0xf3f3, 0xfa40},
{0xf3f4, 0xfa41},
{0xf3f5, 0xfa42},
{0xf3f6, 0xfa43},
{0xf3f7, 0xfa44},
{0xf3f8, 0xfa45},
{0xf3f9, 0xfa46},
{0xf3fa, 0xfa47},
{0xf3fb, 0xfa48},
{0xf3fc, 0xfa49},
{0xf3fd, 0xfa4a},
{0xf3fe, 0xfa4b},
{0xf4a1, 0xfa4c},
{0xf4a2, 0xfa4d},
{0xf4a3, 0xfa4e},
{0xf4a4, 0xfa4f},
{0xf4a5, 0xfa50},
{0xf4a6, 0xfa51},
{0xf4a7, 0xfa52},
{0xf4a8, 0xfa53},
{0xf4a9, 0xfa56},
{0xf4aa, 0xfa57},
{0xf4ab, 0xfa58},
{0xf4ac, 0xfa59},
{0xf4ad, 0xfa5a},
{0xf4ae, 0xfa62},
{0xf4af, 0xfa6a},
{0xf4b0, 0xfa7c},
{0xf4b1, 0xfa83},
{0xf4b2, 0xfa8a},
{0xf4b3, 0xfa8b},
{0xf4b4, 0xfa90},
{0xf4b5, 0xfa92},
{0xf4b6, 0xfa96},
{0xf4b7, 0xfa9b},
{0xf4b8, 0xfa9c},
{0xf4b9, 0xfa9d},
{0xf4ba, 0xfaaa},
{0xf4bb, 0xfaae},
{0xf4bc, 0xfab0},
{0xf4bd, 0xfab1},
{0xf4be, 0xfaba},
{0xf4bf, 0xfabd},
{0xf4c0, 0xfac1},
{0xf4c1, 0xfacd},
{0xf4c2, 0xfad0},
{0xf4c3, 0xfad5},
{0xf4c4, 0xfad8},
{0xf4c5, 0xfae0},
{0xf4c6, 0xfae5},
{0xf4c7, 0xfae8},
{0xf4c8, 0xfaea},
{0xf4c9, 0xfaee},
{0xf4ca, 0xfaf2},
{0xf4cb, 0xfb43},
{0xf4cc, 0xfb44},
{0xf4cd, 0xfb50},
{0xf4ce, 0xfb58},
{0xf4cf, 0xfb5e},
{0xf4d0, 0xfb6e},
{0xf4d1, 0xfb70},
{0xf4d2, 0xfb72},
{0xf4d3, 0xfb75},
{0xf4d4, 0xfb7c},
{0xf4d5, 0xfb7d},
{0xf4d6, 0xfb7e},
{0xf4d7, 0xfb80},
{0xf4d8, 0xfb82},
{0xf4d9, 0xfb85},
{0xf4da, 0xfb86},
{0xf4db, 0xfb89},
{0xf4dc, 0xfb8d},
{0xf4dd, 0xfb8e},
{0xf4de, 0xfb92},
{0xf4df, 0xfb94},
{0xf4e0, 0xfb9d},
{0xf4e1, 0xfb9e},
{0xf4e2, 0xfb9f},
{0xf4e3, 0xfba0},
{0xf4e4, 0xfba1},
{0xf4e5, 0xfba9},
{0xf4e6, 0xfbac},
{0xf4e7, 0xfbae},
{0xf4e8, 0xfbb0},
{0xf4e9, 0xfbb1},
{0xf4ea, 0xfbb3},
{0xf4eb, 0xfbb4},
{0xf4ec, 0xfbb6},
{0xf4ed, 0xfbb7},
{0xf4ee, 0xfbb8},
{0xf4ef, 0xfbd3},
{0xf4f0, 0xfbda},
{0xf4f1, 0xfbe8},
{0xf4f2, 0xfbe9},
{0xf4f3, 0xfbea},
{0xf4f4, 0xfbee},
{0xf4f5, 0xfbf0},
{0xf4f6, 0xfbf2},
{0xf4f7, 0xfbf6},
{0xf4f8, 0xfbf7},
{0xf4f9, 0xfbf9},
{0xf4fa, 0xfbfa},
{0xf4fb, 0xfbfc},
{0xf4fc, 0xfc42},
{0xf4fd, 0xfc49},
{0xf4fe, 0xfc4b},
};
#define EUC3REVTBLSIZ (sizeof(euc3rev) / sizeof(sjis_euc_revmap_t))
#endif /* _KANJI_C_ */
#endif /* _KANJI_H_ */

View File

@ -616,6 +616,8 @@ void all_string_sub_w(smb_ucs2_t *s,const smb_ucs2_t *pattern,const smb_ucs2_t *
void split_at_last_component_w(smb_ucs2_t *path, smb_ucs2_t *front, smb_ucs2_t sep, smb_ucs2_t *back);
smb_ucs2_t *octal_string_w(int i);
smb_ucs2_t *string_truncate_w(smb_ucs2_t *s, size_t length);
smb_ucs2_t doscp2ucs2(int w);
int ucs2doscp(smb_ucs2_t w);
/*The following definitions come from lib/wins_srv.c */
@ -3868,6 +3870,7 @@ int vfs_init_default(connection_struct *conn);
BOOL vfs_init_custom(connection_struct *conn);
int vfs_stat(connection_struct *conn, char *fname, SMB_STRUCT_STAT *st);
BOOL vfs_directory_exist(connection_struct *conn, char *dname, SMB_STRUCT_STAT *st);
int vfs_mkdir(connection_struct *conn, char *fname, mode_t mode);
int vfs_unlink(connection_struct *conn, char *fname);
int vfs_chmod(connection_struct *conn, char *fname,mode_t mode);
int vfs_chown(connection_struct *conn, char *fname, uid_t uid, gid_t gid);

View File

@ -191,8 +191,10 @@ struct vfs_ops {
int (*ftruncate)(int fd, SMB_OFF_T offset);
BOOL (*lock)(int fd, int op, SMB_OFF_T offset, SMB_OFF_T count, int type);
#if 0
size_t (*get_nt_acl)(files_struct *fsp, SEC_DESC **ppdesc);
BOOL (*set_nt_acl)(files_struct *fsp, uint32 security_info_sent, SEC_DESC *psd);
size_t (*fget_nt_acl)(int fd, SEC_DESC **ppdesc);
size_t (*get_nt_acl)(char *name, SEC_DESC **ppdesc);
BOOL (*fset_nt_acl)(int fd, uint32 security_info_sent, SEC_DESC *psd);
BOOL (*set_nt_acl)(char *name, uint32 security_info_sent, SEC_DESC *psd);
#endif
};

View File

@ -112,6 +112,7 @@ int dos_lstat(char *fname,SMB_STRUCT_STAT *sbuf)
return(sys_lstat(dos_to_unix(fname,False),sbuf));
}
#if 0 /* VFS */
/*******************************************************************
Mkdir() that calls dos_to_unix.
Cope with UNIXes that don't allow high order mode bits on mkdir.
@ -128,6 +129,7 @@ int dos_mkdir(char *dname,mode_t mode)
else
return ret;
}
#endif
/*******************************************************************
Rmdir() - call dos_to_unix.

View File

@ -22,6 +22,8 @@
and extend coding system to EUC/SJIS/JIS/HEX at 1994.10.11
and add all jis codes sequence type at 1995.8.16
Notes: Hexadecimal code by <ohki@gssm.otuka.tsukuba.ac.jp>
Adding features about Machine dependent codes and User Defined Codes
by Hiroshi MIURA <miura@samba.gr.jp> 2000.3.19
*/
#define _KANJI_C_
@ -387,15 +389,63 @@ static char cvtbuf[2*sizeof(pstring)];
static int euc2sjis (int hi, int lo)
{
if (hi & 1)
return ((hi / 2 + (hi < 0xdf ? 0x31 : 0x71)) << 8) |
(lo - (lo >= 0xe0 ? 0x60 : 0x61));
else
return ((hi / 2 + (hi < 0xdf ? 0x30 : 0x70)) << 8) | (lo - 2);
int w;
int maxidx = SJISREVTBLSIZ;
int minidx = 0;
int i = 2;
if (hi & 1) {
hi = hi / 2 + (hi < 0xdf ? 0x31 : 0x71);
w = (hi << 8) | (lo - (lo >= 0xe0 ? 0x60 : 0x61));
} else {
hi = hi / 2 + (hi < 0xdf ? 0x30 : 0x70);
w = (hi << 8) | (lo - 2);
}
if ( (0x87 < hi ) && (hi < 0xed ) ) {
return w;
}
while ( maxidx >= minidx ) {
if ( sjisrev[i].start > w ) {
maxidx = i-1;
} else if ( w > sjisrev[i].end ) {
minidx = i+1;
} else {
w -= sjisrev[i].start;
w += sjisrev[i].rstart;
break;
}
i = (int)( minidx + (maxidx - minidx) % 2 );
}
return w;
}
static int sjis2euc (int hi, int lo)
{
int minidx = 0;
int maxidx = SJISCONVTBLSIZ;
int i = ( 0 + SJISCONVTBLSIZ ) % 2;
int w = (int)((hi << 8) | lo);
if ( (sjisconv[0].start < w) && (w < sjisconv[SJISCONVTBLSIZ].end) ) {
while (maxidx >= minidx) {
if ( sjisconv[i].start > w ) {
maxidx = i-1;
} else if (w > sjisconv[i].end) {
minidx = i+1;
} else {
w -= sjisconv[i].start;
w += sjisconv[i].rstart;
break;
}
i = (int)( minidx + (maxidx-minidx)%2 );
}
hi = (int) ((w >> 8) & 0xff);
lo = (int) (w & 0xff);
}
if (hi >= 0xf0) {
hi = GETAHI;
lo = GETALO;
}
if (lo >= 0x9f)
return ((hi * 2 - (hi >= 0xe0 ? 0xe0 : 0x60)) << 8) | (lo + 2);
else
@ -418,7 +468,7 @@ static char *sj_to_euc(char *from, BOOL overwrite)
if (is_shift_jis (*from)) {
int code = sjis2euc ((int) from[0] & 0xff, (int) from[1] & 0xff);
*out++ = (code >> 8) & 0xff;
*out++ = code;
*out++ = code & 0xff;
from += 2;
} else if (is_kana (*from)) {
*out++ = (char)euc_kana;
@ -451,7 +501,7 @@ static char *euc_to_sj(char *from, BOOL overwrite)
if (is_euc (*from)) {
int code = euc2sjis ((int) from[0] & 0xff, (int) from[1] & 0xff);
*out++ = (code >> 8) & 0xff;
*out++ = code;
*out++ = code & 0xff;
from += 2;
} else if (is_euc_kana (*from)) {
*out++ = from[1];
@ -461,6 +511,258 @@ static char *euc_to_sj(char *from, BOOL overwrite)
}
}
*out = 0;
if (overwrite) {
pstrcpy(save, (char *) cvtbuf);
return save;
} else {
return cvtbuf;
}
}
/*******************************************************************
EUC3 <-> SJIS
********************************************************************/
static int sjis3euc (int hi, int lo, int *len)
{
int i,w;
int minidx;
int maxidx;
w = (int)((hi << 8) | lo);
/* no sjis */
if ( ( 0x40 >= lo ) && (lo >= 0xfc) && (lo == 0x7f )) {
w = (GETAHI << 8) | GETALO;
/* IBM Extended Kanji */
} else if (( w == 0xfa54 )||( w == 0x81ca )) {
*len = 2;
return (0xa2cc);
} else if (( w == 0xfa5b )||( w == 0x81e6)) {
*len = 2;
return (0xa2e8);
} else if (( 0xfa <= hi ) && ( hi <= 0xfc ) ) {
i = w - 0xfa40 - ( hi - 0xfa )*( 0xfb40 - 0xfafc) - ((lo < 0x7f)? 0 : 1 );
if ( i <= EUC3CONVTBLSIZ ){
*len = 3;
return euc3conv[i];
}
/* NEC selected IBM Extend Kanji */
/* there are 3 code that is not good for conv */
} else if (( 0x8754 <= w ) && ( w <= 0x878a)) {
minidx = 0;
maxidx = EUC3CONV2TBLSIZ;
i = minidx + (maxidx - minidx) % 2;
while ( maxidx >= minidx ) {
if ( euc3conv2[i].sjis > w ) {
maxidx = i-1;
} else if ( w > euc3conv2[i].sjis ) {
minidx = i+1;
} else {
*len = 3;
return (euc3conv2[i].euc);
}
i = (int)( minidx + (maxidx - minidx) % 2 );
}
/* else normal EUC */
} else if (( w == 0xeef9 ) || ( w == 0x81ca )) {
*len = 2;
return (0xa2cc);
} else if (( 0xed <= hi ) && ( hi <= 0xef )) {
minidx = 0;
maxidx = SJISREVTBLSIZ;
i = 10;
while ( maxidx >= minidx ) {
if ( sjisrev[i].start > w ) {
maxidx = i-1;
} else if ( w > sjisrev[i].end ) {
minidx = i+1;
} else {
w -= sjisrev[i].start;
w += sjisrev[i].rstart;
break;
}
i = (int)( minidx + (maxidx - minidx) % 2 );
}
if ( w >= 0xfa40 ) {
i = w - 0xfa40 - ( hi - 0xfa )*( 0xfb40 - 0xfafc) - ((lo < 0x7f)? 0 : 1 );
if ( i <= EUC3CONVTBLSIZ ){
*len = 3;
return euc3conv[i];
} else {
w = (GETAHI << 8) | GETALO;
}
}
/* else normal EUC */
/* UDC half low*/
/* this area maps to the G2 UDC area: 0xf5a1 -- 0xfefe */
} else if ((0xf0 <= hi) && (hi <= 0xf4)) {
*len = 2;
if (lo >= 0x9f) {
return (((hi * 2 - 0xea) << 8) | (lo + 2));
} else {
return (((hi * 2 - 0xeb) << 8) | (lo + (lo >=0x7f ? 0x60: 0x61 )));
}
/* UDC half high*/
/* this area maps to the G3 UDC area: 0xf8f5a1 -- 0xf8fefe */
} else if ((0xf5 <= hi) && (hi <= 0xf9)) {
*len = 3;
if (lo >= 0x9f) {
return (((hi*2 - 0xf4) << 8) | (lo + 2));
} else {
return (((hi*2 - 0xf5) << 8) | (lo + (lo >= 0x7f ? 0x60: 0x61 )));
}
/* ....checked all special case */
}
/* These Normal 2 byte EUC */
*len = 2;
hi = (int) ((w >> 8) & 0xff);
lo = (int) (w & 0xff);
if (hi >= 0xf0) { /* Check range */
hi = GETAHI;
lo = GETALO;
}
if (lo >= 0x9f)
return ((hi * 2 - (hi >= 0xe0 ? 0xe0 : 0x60)) << 8) | (lo + 2);
else
return ((hi * 2 - (hi >= 0xe0 ? 0xe1 : 0x61)) << 8) |
(lo + (lo >= 0x7f ? 0x60 : 0x61));
}
static int euc3sjis (int hi, int lo, BOOL is_3byte)
{
int w;
w = (int)((hi << 8) | lo);
if (is_3byte) {
if (( 0xf5 <= hi) && ( hi <= 0xfe)) {
/* UDC half high*/
/* this area maps to the G3 UDC area */
/* 0xf8f5a1 -- 0xf8fefe --> 0xf540 -- 0xf9fc */
if (hi & 1) {
return (((hi / 2 + 0x7b) << 8) | (lo - (lo >= 0xe0 ? 0x60 : 0x61)));
} else {
return (((hi / 2 + 0x7a) << 8) | (lo - 2));
}
} else {
/* Using map table */
int minidx = 0;
int maxidx = EUC3REVTBLSIZ;
int i = minidx + (maxidx - minidx) % 2;
while ( maxidx >= minidx ) {
if (euc3rev[i].euc > w) {
maxidx = i-1;
} else if (euc3rev[i].euc < w) {
minidx = i+1;
} else {
return (euc3rev[i].sjis);
}
i = (int)( minidx + ( maxidx - minidx ) % 2);
}
return ((GETAHI << 8 ) | GETALO);
}
} else { /* is_2byte */
if ((0xf5 <= hi) && (hi <= 0xfe)) {
/* UDC half low*/
/* this area maps to the G2 UDC area */
/* 0xf5a1 -- 0xfefe --> 0xf040 -- 0xf4fc */
if (hi & 1) {
return (((hi / 2 + 0x76) << 8) | (lo - (lo >= 0xe0 ? 0x60 : 0x61)));
} else {
return (((hi / 2 + 0x75) << 8) | (lo - 2));
}
} else { /* Normal EUC */
if (hi & 1) {
hi = hi / 2 + (hi < 0xdf ? 0x31 : 0x71);
return ((hi << 8) | (lo - (lo >= 0xe0 ? 0x60 : 0x61)));
} else {
hi = hi / 2 + (hi < 0xdf ? 0x30 : 0x70);
return ((hi << 8) | (lo - 2));
}
}
}
return ((GETAHI << 8) | GETALO);
}
/*******************************************************************
Convert FROM contain SHIFT JIS codes to EUC codes (with SS2)
return converted buffer
********************************************************************/
static char *sj_to_euc3(char *from, BOOL overwrite)
{
char *out;
char *save;
int len;
save = (char *) from;
for (out = cvtbuf; *from && (out - cvtbuf < sizeof(cvtbuf)-4);) {
if (is_shift_jis (*from)) {
int code = sjis3euc ((int) from[0] & 0xff, (int) from[1] & 0xff, &len);
if (len == 3) {
*out++ = (char)euc_sup;
}
*out++ = (code >> 8) & 0xff;
*out++ = code & 0xff;
from += 2;
} else if (is_kana (*from)) {
*out++ = (char)euc_kana;
*out++ = *from++;
} else {
*out++ = *from++;
}
}
*out = 0;
if (overwrite) {
pstrcpy((char *) save, (char *) cvtbuf);
return (char *) save;
} else {
return cvtbuf;
}
}
/*******************************************************************
Convert FROM contain EUC codes (with Sup-Kanji) to SHIFT JIS codes
return converted buffer
********************************************************************/
static char *euc3_to_sj(char *from, BOOL overwrite)
{
char *out;
char *save;
save = (char *) from;
for (out = cvtbuf; *from && (out - cvtbuf < sizeof(cvtbuf)-3); ) {
if (is_euc_sup (*from)) {
int code = euc3sjis((int) from[1] & 0xff, (int) from[2] & 0xff, True);
*out++ = (code >> 8) & 0xff;
*out++ = code & 0xff;
from += 3;
} else if (is_euc (*from)) {
int code = euc3sjis ((int) from[0] & 0xff, (int) from[1] & 0xff,False);
*out++ = (code >> 8) & 0xff;
*out++ = code & 0xff;
from += 2;
} else if (is_euc_kana (*from)) {
*out++ = from[1];
from += 2;
} else {
*out++ = *from++;
}
}
*out = 0;
if (overwrite) {
pstrcpy(save, (char *) cvtbuf);
return save;
@ -475,6 +777,31 @@ static char *euc_to_sj(char *from, BOOL overwrite)
static int sjis2jis(int hi, int lo)
{
int minidx = 0;
int maxidx = SJISCONVTBLSIZ;
int i = (0 + SJISCONVTBLSIZ) % 2;
int w = (int)((hi << 8) | lo);
if ((sjisconv[0].start < w) && (w < sjisconv[SJISCONVTBLSIZ].end)) {
while (maxidx >= minidx) {
if (sjisconv[i].start > w) {
maxidx = i-1;
} else if (w > sjisconv[i].end) {
minidx = i+1;
} else {
w -= sjisconv[i].start;
w += sjisconv[i].rstart;
break;
}
i = (int)( minidx + (maxidx-minidx) %2 );
}
hi = (int) ((w >> 8) & 0xff);
lo = (int) (w & 0xff);
}
if (hi >= 0xf0) {
hi = GETAHI;
lo = GETALO;
}
if (lo >= 0x9f)
return ((hi * 2 - (hi >= 0xe0 ? 0x160 : 0xe0)) << 8) | (lo - 0x7e);
else
@ -484,11 +811,35 @@ static int sjis2jis(int hi, int lo)
static int jis2sjis(int hi, int lo)
{
if (hi & 1)
return ((hi / 2 + (hi < 0x5f ? 0x71 : 0xb1)) << 8) |
(lo + (lo >= 0x60 ? 0x20 : 0x1f));
else
return ((hi / 2 + (hi < 0x5f ? 0x70 : 0xb0)) << 8) | (lo + 0x7e);
int w;
int minidx = 0;
int maxidx = SJISREVTBLSIZ;
int i = 2;
if (hi & 1) {
hi = hi / 2 + (hi < 0x5f ? 0x71 : 0xb1);
w = (hi << 8) | (lo + (lo >= 0x60 ? 0x20 : 0x1f));
} else {
hi = hi / 2 + (hi < 0x5f ? 0x70 : 0xb0);
w = (hi << 8) | (lo + 0x7e);
}
if (( 0x87 < hi ) && ( hi < 0xed )) {
return w;
}
while (maxidx >= minidx) {
if (sjisrev[i].start > w) {
maxidx = i-1;
} else if (w > sjisrev[i].end) {
minidx = i+1;
} else {
w -= sjisrev[i].start;
w += sjisrev[i].rstart;
break;
}
i = (int)( minidx + (maxidx-minidx) %2 );
}
return w;
}
/*******************************************************************
@ -999,6 +1350,90 @@ static char *sj_to_sj(char *from, BOOL overwrite)
}
}
/*******************************************************************
cp to utf8
********************************************************************/
static char *cp_to_utf8(char *from, BOOL overwrite)
{
unsigned char *dst;
unsigned char *src;
smb_ucs2_t val;
int w;
size_t len;
src = (unsigned char *)from;
dst = (unsigned char *)cvtbuf;
while (*src && (((char *)dst - cvtbuf) < sizeof(cvtbuf)-4)) {
len = _skip_multibyte_char(*src);
if ( len == 2 ) {
w = (int)(*src++ & 0xff);
w = (int)((w << 8)|(*src++ & 0xff));
} else {
w = (int)(*src++ & 0xff);
}
val = doscp2ucs2(w);
if ( val <= 0x7f ) {
*dst++ = (char)(val & 0xff);
} else if ( val <= 0x7ff ){
*dst++ = (char)( 0xc0 | ((val >> 6) & 0xff));
*dst++ = (char)( 0x80 | ( val & 0x3f ));
} else {
*dst++ = (char)( 0xe0 | ((val >> 12) & 0x0f));
*dst++ = (char)( 0x80 | ((val >> 6) & 0x3f));
*dst++ = (char)( 0x80 | (val & 0x3f));
}
}
*dst++='\0';
if (overwrite) {
pstrcpy ((char *) from, (char *) cvtbuf);
return (char *) from;
} else {
return cvtbuf;
}
}
/*******************************************************************
utf8 to cp
********************************************************************/
static char *utf8_to_cp(char *from, BOOL overwrite)
{
unsigned char *src;
unsigned char *dst;
smb_ucs2_t val;
int w;
src = (unsigned char *)from;
dst = (unsigned char *)cvtbuf;
while (*src && ((char *)dst - cvtbuf < sizeof(cvtbuf)-4)) {
val = (*src++ & 0xff);
if (val < 0x80) {
*dst++ = (char)(val & 0x7f);
} else if ((0xc0 <= val) && (val <= 0xdf)
&& (0x80 <= *src) && (*src <= 0xbf)) {
w = ucs2doscp( ((val & 31) << 6) | ((*src++) & 63 ));
*dst++ = (char)((w >> 8) & 0xff);
*dst++ = (char)(w & 0xff);
} else {
val = (val & 0x0f) << 12;
val |= ((*src++ & 0x3f) << 6);
val |= (*src++ & 0x3f);
w = ucs2doscp(val);
*dst++ = (char)((w >> 8) & 0xff);
*dst++ = (char)(w & 0xff);
}
}
*dst++='\0';
if (overwrite) {
pstrcpy ((char *) from, (char *) cvtbuf);
return (char *) from;
} else {
return cvtbuf;
}
}
/************************************************************************
conversion:
_dos_to_unix _unix_to_dos
@ -1046,6 +1481,14 @@ static void setup_string_function(int codes)
_dos_to_unix = sj_to_cap;
_unix_to_dos = cap_to_sj;
break;
case UTF8_CODE:
_dos_to_unix = cp_to_utf8;
_unix_to_dos = utf8_to_cp;
break;
case EUC3_CODE:
_dos_to_unix = sj_to_euc3;
_unix_to_dos = euc3_to_sj;
break;
}
}
@ -1142,6 +1585,10 @@ void interpret_coding_system(char *str)
codes = JUNET_CODE;
jis_kso = '@';
jis_ksi = 'H';
} else if (strequal (str, "utf8")) {
codes = UTF8_CODE;
} else if (strequal (str, "euc3")) {
codes = EUC3_CODE;
}
setup_string_function (codes);
}

View File

@ -1977,3 +1977,17 @@ smb_ucs2_t *string_truncate_w(smb_ucs2_t *s, size_t length)
return s;
}
/******************************************************************
functions for UTF8 support (using in kanji.c)
******************************************************************/
smb_ucs2_t doscp2ucs2(int w)
{
return ((smb_ucs2_t)doscp_to_ucs2[w]);
}
int ucs2doscp(smb_ucs2_t w)
{
return ((int)ucs2_to_doscp[w]);
}

View File

@ -2243,6 +2243,7 @@ static BOOL handle_client_code_page(char *pszParmValue, char **ptr)
if (saved_character_set != NULL)
interpret_character_set(saved_character_set,
lp_client_code_page());
codepage_initialise(lp_client_code_page());
return (True);
}

View File

@ -897,8 +897,7 @@ files_struct *open_directory(connection_struct *conn,
return NULL;
}
if(conn->vfs_ops.mkdir(dos_to_unix(fname, False),
unix_mode(conn,aDIR, fname)) < 0) {
if(vfs_mkdir(conn,fname, unix_mode(conn,aDIR, fname)) < 0) {
DEBUG(0,("open_directory: unable to create %s. Error was %s\n",
fname, strerror(errno) ));
file_free(fsp);

View File

@ -3099,8 +3099,7 @@ int mkdir_internal(connection_struct *conn, char *inbuf, char *outbuf, pstring d
unix_convert(directory,conn,0,&bad_path,NULL);
if (check_name(directory, conn))
ret = conn->vfs_ops.mkdir(dos_to_unix(directory,False),
unix_mode(conn,aDIR,directory));
ret = vfs_mkdir(conn,directory,unix_mode(conn,aDIR,directory));
if (ret < 0)
{

View File

@ -2014,8 +2014,7 @@ static int call_trans2mkdir(connection_struct *conn,
unix_convert(directory,conn,0,&bad_path,NULL);
if (check_name(directory,conn))
ret = conn->vfs_ops.mkdir(dos_to_unix(directory,False),
unix_mode(conn,aDIR,directory));
ret = vfs_mkdir(conn,directory,unix_mode(conn,aDIR,directory));
if(ret < 0)
{

View File

@ -266,6 +266,30 @@ BOOL vfs_directory_exist(connection_struct *conn, char *dname, SMB_STRUCT_STAT *
return ret;
}
/*******************************************************************
vfs mkdir wrapper that calls dos_to_unix.
********************************************************************/
int vfs_mkdir(connection_struct *conn, char *fname, mode_t mode)
{
int ret;
pstring name;
SMB_STRUCT_STAT sbuf;
pstrcpy(name,dos_to_unix(fname,False)); /* paranoia copy */
if(!(ret=conn->vfs_ops.mkdir(name,mode))) {
/*
* Check if high bits should have been set,
* then (if bits are missing): add them.
* Consider bits automagically set by UNIX, i.e. SGID bit from parent dir.
*/
if(mode & ~(S_IRWXU|S_IRWXG|S_IRWXO) &&
!vfs_stat(conn,name,&sbuf) && (mode & ~sbuf.st_mode))
vfs_chmod(conn,name,sbuf.st_mode | (mode & ~sbuf.st_mode));
}
return ret;
}
/*******************************************************************
vfs Unlink wrapper that calls dos_to_unix.
********************************************************************/