/* * libcaca Colour ASCII-Art library * Copyright (c) 2006-2010 Sam Hocevar * All Rights Reserved * * This library is free software. It comes without any warranty, to * the extent permitted by applicable law. You can redistribute it * and/or modify it under the terms of the Do What The Fuck You Want * To Public License, Version 2, as published by Sam Hocevar. See * http://sam.zoy.org/wtfpl/COPYING for more details. */ /* * This file contains functions for compressed file I/O. */ #include "config.h" #if !defined __KERNEL__ # include # include # include # if defined HAVE_ZLIB_H # include # define READSIZE 128 /* Read buffer size */ # define WRITESIZE 128 /* Inflate buffer size */ # endif #endif #include "caca.h" #include "caca_internals.h" #if !defined __KERNEL__ && defined HAVE_ZLIB_H static int zipread(caca_file_t *, void *, unsigned int); #endif #if !defined __KERNEL__ struct caca_file { # if defined HAVE_ZLIB_H uint8_t read_buffer[READSIZE]; z_stream stream; gzFile gz; int eof, zip, total; # endif FILE *f; int readonly; }; #endif /** \brief Open a file for reading or writing * * Create a caca file handle for a file. If the file is zipped, it is * decompressed on the fly. * * If an error occurs, NULL is returned and \b errno is set accordingly: * - \c ENOSTS Function not implemented. * - \c EINVAL File not found or permission denied. * * \param path The file path * \param mode The file open mode * \return A file handle to \e path. */ caca_file_t *caca_file_open(char const *path, const char *mode) { #if defined __KERNEL__ seterrno(ENOSYS); return NULL; #else caca_file_t *fp = malloc(sizeof(*fp)); fp->readonly = !!strchr(mode, 'r'); # if defined HAVE_ZLIB_H uint8_t buf[4]; unsigned int skip_size = 0; fp->gz = gzopen(path, fp->readonly ? "rb" : "wb"); if(!fp->gz) { free(fp); seterrno(EINVAL); return NULL; } fp->eof = 0; fp->zip = 0; fp->total = 0; if(fp->readonly) { /* Parse ZIP file and go to start of first file */ gzread(fp->gz, buf, 4); if(memcmp(buf, "PK\3\4", 4)) { gzseek(fp->gz, 0, SEEK_SET); return fp; } fp->zip = 1; gzseek(fp->gz, 22, SEEK_CUR); gzread(fp->gz, buf, 2); /* Filename size */ skip_size += (uint16_t)buf[0] | ((uint16_t)buf[1] << 8); gzread(fp->gz, buf, 2); /* Extra field size */ skip_size += (uint16_t)buf[0] | ((uint16_t)buf[1] << 8); gzseek(fp->gz, skip_size, SEEK_CUR); /* Initialise inflate stream */ fp->stream.total_out = 0; fp->stream.zalloc = NULL; fp->stream.zfree = NULL; fp->stream.opaque = NULL; fp->stream.next_in = NULL; fp->stream.avail_in = 0; if(inflateInit2(&fp->stream, -MAX_WBITS)) { free(fp); gzclose(fp->gz); seterrno(EINVAL); return NULL; } } # else fp->f = fopen(path, mode); if(!fp->f) { free(fp); seterrno(EINVAL); return NULL; } # endif return fp; #endif } /** \brief Close a file handle * * Close and destroy the resources associated with a caca file handle. * * This function is a wrapper for fclose() or, if available, gzclose(). * * \param fp The file handle * \return The return value of fclose() or gzclose(). */ int caca_file_close(caca_file_t *fp) { #if defined __KERNEL__ seterrno(ENOSYS); return 0; #elif defined HAVE_ZLIB_H gzFile gz = fp->gz; if(fp->zip) inflateEnd(&fp->stream); free(fp); return gzclose(gz); #else FILE *f = fp->f; free(fp); return fclose(f); #endif } /** \brief Return the position in a file handle * * Return the file handle position, in bytes. * * \param fp The file handle * \return The current offset in the file handle. */ uint64_t caca_file_tell(caca_file_t *fp) { #if defined __KERNEL__ seterrno(ENOSYS); return 0; #elif defined HAVE_ZLIB_H if(fp->zip) return fp->total; return gztell(fp->gz); #else return ftell(fp->f); #endif } /** \brief Read data from a file handle * * Read data from a file handle and copy them into the given buffer. * * \param fp The file handle * \param ptr The destination buffer * \param size The number of bytes to read * \return The number of bytes read */ size_t caca_file_read(caca_file_t *fp, void *ptr, size_t size) { #if defined __KERNEL__ seterrno(ENOSYS); return 0; #elif defined HAVE_ZLIB_H if(fp->zip) return zipread(fp, ptr, size); return gzread(fp->gz, ptr, size); #else return fread(ptr, 1, size, fp->f); #endif } /** \brief Write data to a file handle * * Write the contents of the given buffer to the file handle. * * \param fp The file handle * \param ptr The source buffer * \param size The number of bytes to write * \return The number of bytes written */ size_t caca_file_write(caca_file_t *fp, const void *ptr, size_t size) { #if defined __KERNEL__ seterrno(ENOSYS); return 0; #else if(fp->readonly) return 0; # if defined HAVE_ZLIB_H if(fp->zip) { /* FIXME: zip files are not supported */ seterrno(ENOSYS); return 0; } return gzwrite(fp->gz, ptr, size); # else return fwrite(ptr, 1, size, fp->f); # endif #endif } /** \brief Read a line from a file handle * * Read one line of data from a file handle, up to one less than the given * number of bytes. A trailing zero is appended to the data. * * \param fp The file handle * \param s The destination buffer * \param size The maximum number of bytes to read * \return The number of bytes read, including the trailing zero */ char *caca_file_gets(caca_file_t *fp, char *s, int size) { #if defined __KERNEL__ seterrno(ENOSYS); return NULL; #elif defined HAVE_ZLIB_H if(fp->zip) { int i; for(i = 0; i < size; i++) { int ret = zipread(fp, s + i, 1); if(ret < 0) return NULL; if(ret == 0 || s[i] == '\n') { if(i + 1 < size) s[i + 1] = '\0'; return s; } } return s; } return gzgets(fp->gz, s, size); #else return fgets(s, size, fp->f); #endif } /** \brief Tell whether a file handle reached end of file * * Return the end-of-file status of the file handle. * * This function is a wrapper for feof() or, if available, gzeof(). * * \param fp The file handle * \return 1 if EOF was reached, 0 otherwise */ int caca_file_eof(caca_file_t *fp) { #if defined __KERNEL__ return 1; #elif defined HAVE_ZLIB_H return fp->zip ? fp->eof : gzeof(fp->gz); #else return feof(fp->f); #endif } #if !defined __KERNEL__ && defined HAVE_ZLIB_H static int zipread(caca_file_t *fp, void *buf, unsigned int len) { unsigned int total_read = 0; if(len == 0) return 0; fp->stream.next_out = buf; fp->stream.avail_out = len; while(fp->stream.avail_out > 0) { unsigned int tmp; int ret = 0; if(fp->stream.avail_in == 0 && !gzeof(fp->gz)) { int bytes_read; bytes_read = gzread(fp->gz, fp->read_buffer, READSIZE); if(bytes_read < 0) return -1; fp->stream.next_in = fp->read_buffer; fp->stream.avail_in = bytes_read; } tmp = fp->stream.total_out; ret = inflate(&fp->stream, Z_SYNC_FLUSH); total_read += fp->stream.total_out - tmp; if(ret == Z_STREAM_END) { fp->eof = 1; fp->total += total_read; return total_read; } if(ret != Z_OK) return ret; } fp->total += total_read; return total_read; } #endif /* * XXX: The following functions are aliases. */ cucul_file_t *cucul_file_open(char const *, const char *) CACA_ALIAS(caca_file_open); int cucul_file_close(cucul_file_t *) CACA_ALIAS(caca_file_close); uint64_t cucul_file_tell(cucul_file_t *) CACA_ALIAS(caca_file_tell); size_t cucul_file_read(cucul_file_t *, void *, size_t) CACA_ALIAS(caca_file_read); size_t cucul_file_write(cucul_file_t *, const void *, size_t) CACA_ALIAS(caca_file_write); char * cucul_file_gets(cucul_file_t *, char *, int) CACA_ALIAS(caca_file_gets); int cucul_file_eof(cucul_file_t *) CACA_ALIAS(caca_file_eof);