/* Copyright (C) 2004 Manuel Novoa III * * GNU Library General Public License (LGPL) version 2 or later. * * Dedicated to Toni. See uClibc/DEDICATION.mjn3 for details. */ #include #ifdef __USE_GNU #include "_stdio.h" #ifndef __UCLIBC_HAS_GLIBC_CUSTOM_STREAMS__ #error no custom streams! #endif typedef struct { size_t pos; size_t len; size_t eof; int dynbuf; unsigned char *buf; FILE *fp; } __fmo_cookie; #define COOKIE ((__fmo_cookie *) cookie) static ssize_t fmo_read(register void *cookie, char *buf, size_t bufsize) { size_t count = COOKIE->len - COOKIE->pos; /* Note: 0 < bufsize < SSIZE_MAX because of _stdio_READ. */ if (!count) { /* EOF! */ return 0; } if (bufsize > count) { bufsize = count; } memcpy(buf, COOKIE->buf + COOKIE->pos, bufsize); COOKIE->pos += bufsize; return bufsize; } static ssize_t fmo_write(register void *cookie, const char *buf, size_t bufsize) { size_t count; /* Note: bufsize < SSIZE_MAX because of _stdio_WRITE. */ /* If appending, need to seek to end of file!!!! */ if (COOKIE->fp->__modeflags & __FLAG_APPEND) { COOKIE->pos = COOKIE->eof; } count = COOKIE->len - COOKIE->pos; if (bufsize > count) { bufsize = count; if (count == 0) { /* We're at the end of the buffer... */ __set_errno(EFBIG); return -1; } } memcpy(COOKIE->buf + COOKIE->pos, buf, bufsize); COOKIE->pos += bufsize; if (COOKIE->pos > COOKIE->eof) { COOKIE->eof = COOKIE->pos; if (bufsize < count) { /* New eof and still room in buffer? */ *(COOKIE->buf + COOKIE->pos) = 0; } } return bufsize; } /* glibc doesn't allow seeking, but it has in-buffer seeks... we don't. */ static int fmo_seek(register void *cookie, __offmax_t *pos, int whence) { __offmax_t p = *pos; /* Note: fseek already checks that whence is legal, so don't check here * unless debugging. */ assert(((unsigned int) whence) <= 2); if (whence != SEEK_SET) { p += (whence == SEEK_CUR) ? COOKIE->pos : /* SEEK_END */ COOKIE->eof; } /* Note: glibc only allows seeking in the buffer. We'll actually restrict * to the data. */ /* Check for offset < 0, offset > eof, or offset overflow... */ if (((uintmax_t) p) > COOKIE->eof) { return -1; } COOKIE->pos = *pos = p; return 0; } static int fmo_close(register void *cookie) { if (COOKIE->dynbuf) { free(COOKIE->buf); } free(cookie); return 0; } #undef COOKIE static const cookie_io_functions_t _fmo_io_funcs = { fmo_read, fmo_write, fmo_seek, fmo_close }; /* TODO: If we have buffers enabled, it might be worthwile to add a pointer * to the FILE in the cookie and have read, write, and seek operate directly * on the buffer itself (ie replace the FILE buffer with the cookie buffer * and update FILE bufstart, etc. whenever we seek). */ FILE *fmemopen(void *s, size_t len, const char *modes) { FILE *fp; register __fmo_cookie *cookie; size_t i; if ((cookie = malloc(sizeof(__fmo_cookie))) != NULL) { cookie->len = len; cookie->eof = cookie->pos = 0; /* pos and eof adjusted below. */ cookie->dynbuf = 0; if (((cookie->buf = s) == NULL) && (len > 0)) { if ((cookie->buf = malloc(len)) == NULL) { goto EXIT_cookie; } cookie->dynbuf = 1; *cookie->buf = 0; /* If we're appending, treat as empty file. */ } #ifndef __BCC__ fp = fopencookie(cookie, modes, _fmo_io_funcs); #else fp = fopencookie(cookie, modes, &_fmo_io_funcs); #endif /* Note: We don't need to worry about locking fp in the thread case * as the only possible access would be a close or flush with * nothing currently in the FILE's write buffer. */ if (fp != NULL) { cookie->fp = fp; if (fp->__modeflags & __FLAG_READONLY) { cookie->eof = len; } if ((fp->__modeflags & __FLAG_APPEND) && (len > 0)) { for (i = 0 ; i < len ; i++) { if (cookie->buf[i] == 0) { break; } } cookie->eof = cookie->pos = i; /* Adjust eof and pos. */ } __STDIO_STREAM_VALIDATE(fp); return fp; } } if (!s) { free(cookie->buf); } EXIT_cookie: free(cookie); return NULL; } #endif