/* * deblock_media.c - * * Written by Eryk Vershen */ /* * Copyright 1997,1998 by Apple Computer, Inc. * All Rights Reserved * * Permission to use, copy, modify, and distribute this software and * its documentation for any purpose and without fee is hereby granted, * provided that the above copyright notice appears in all copies and * that both the copyright notice and this permission notice appear in * supporting documentation. * * APPLE COMPUTER DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE. * * IN NO EVENT SHALL APPLE COMPUTER BE LIABLE FOR ANY SPECIAL, INDIRECT, OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN ACTION OF CONTRACT, * NEGLIGENCE, OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION * WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #include // for malloc() & free() #include // for memcpy() #include #include "deblock_media.h" /* * Defines */ /* * Types */ typedef struct deblock_media *DEBLOCK_MEDIA; struct deblock_media { struct media m; long need_filtering; MEDIA next_media; uint32_t next_block_size; uint8_t *buffer; }; struct deblock_globals { long exists; long kind; }; /* * Global Constants */ /* * Global Variables */ static long deblock_inited = 0; static struct deblock_globals deblock_info; /* * Forward declarations */ void deblock_init(void); DEBLOCK_MEDIA new_deblock_media(void); long read_deblock_media(MEDIA m, long long offset, uint32_t count, void *address); long write_deblock_media(MEDIA m, long long offset, uint32_t count, void *address); long close_deblock_media(MEDIA m); long os_reload_deblock_media(MEDIA m); /* * Routines */ void deblock_init(void) { if (deblock_inited != 0) { return; } deblock_inited = 1; deblock_info.kind = allocate_media_kind(); } DEBLOCK_MEDIA new_deblock_media(void) { return (DEBLOCK_MEDIA) new_media(sizeof(struct deblock_media)); } MEDIA open_deblock_media(uint32_t new_block_size, MEDIA m) { DEBLOCK_MEDIA a; uint32_t block_size; if (deblock_inited == 0) { deblock_init(); } a = 0; if (m != 0) { block_size = media_granularity(m); if (new_block_size == block_size) { return m; } else if (new_block_size > block_size) { if ((new_block_size % block_size) == 0) { /* no filtering necessary */ a = new_deblock_media(); if (a != 0) { a->need_filtering = 0; a->next_block_size = block_size; a->buffer = 0; } } else { /* too hard to bother with */ } } else /* new_block_size < block_size */ { if ((block_size % new_block_size) == 0) { /* block & unblock */ a = new_deblock_media(); if (a != 0) { a->need_filtering = 1; a->next_block_size = block_size; a->buffer = malloc(block_size); } } else { /* too hard to bother with */ } } if (a != 0) { a->m.kind = deblock_info.kind; a->m.grain = new_block_size; a->m.size_in_bytes = media_total_size(m); a->m.do_read = read_deblock_media; a->m.do_write = write_deblock_media; a->m.do_close = close_deblock_media; a->m.do_os_reload = os_reload_deblock_media; a->next_media = m; } } return (MEDIA) a; } long read_deblock_media(MEDIA m, long long offset, uint32_t count, void *address) { DEBLOCK_MEDIA a; long rtn_value; uint32_t next_size; uint32_t partial_offset; uint32_t partial_count; long long cur_offset; uint32_t remainder; uint8_t *addr; a = (DEBLOCK_MEDIA) m; rtn_value = 0; if (a == 0) { /* no media */ } else if (a->m.kind != deblock_info.kind) { /* wrong kind - XXX need to error here - this is an internal problem */ } else if (count <= 0 || count % a->m.grain != 0) { /* can't handle size */ } else if (offset < 0 || offset % a->m.grain != 0) { /* can't handle offset */ } else if (a->need_filtering == 0) { rtn_value = read_media(a->next_media, offset, count, address); } else { next_size = a->next_block_size; addr = address; cur_offset = offset; remainder = count; rtn_value = 1; /* read partial */ partial_offset = cur_offset % next_size; if (partial_offset != 0) { partial_count = next_size - partial_offset; if (partial_count > remainder) { partial_count = remainder; } rtn_value = read_media(a->next_media, cur_offset - partial_offset, next_size, a->buffer); if (rtn_value != 0) { memcpy (addr, a->buffer + partial_offset, partial_count); addr += partial_count; cur_offset += partial_count; remainder -= partial_count; } } /* read fulls as long as needed */ if (rtn_value != 0 && remainder > next_size) { partial_count = remainder - (remainder % next_size); rtn_value = read_media(a->next_media, cur_offset, partial_count, addr); addr += partial_count; cur_offset += partial_count; remainder -= partial_count; } /* read partial */ if (rtn_value != 0 && remainder > 0) { partial_count = remainder; rtn_value = read_media(a->next_media, cur_offset, next_size, a->buffer); if (rtn_value != 0) { memcpy (addr, a->buffer, partial_count); } } } return rtn_value; } long write_deblock_media(MEDIA m, long long offset, uint32_t count, void *address) { DEBLOCK_MEDIA a; long rtn_value; uint32_t next_size; uint32_t partial_offset; uint32_t partial_count; long long cur_offset; uint32_t remainder; uint8_t *addr; a = (DEBLOCK_MEDIA) m; rtn_value = 0; if (a == 0) { /* no media */ } else if (a->m.kind != deblock_info.kind) { /* wrong kind - XXX need to error here - this is an internal problem */ } else if (count <= 0 || count % a->m.grain != 0) { /* can't handle size */ } else if (offset < 0 || offset % a->m.grain != 0) { /* can't handle offset */ } else if (a->need_filtering == 0) { rtn_value = write_media(a->next_media, offset, count, address); } else { next_size = a->next_block_size; addr = address; cur_offset = offset; remainder = count; rtn_value = 1; /* write partial */ partial_offset = cur_offset % next_size; if (partial_offset != 0) { partial_count = next_size - partial_offset; if (partial_count > remainder) { partial_count = remainder; } rtn_value = read_media(a->next_media, cur_offset - partial_offset, next_size, a->buffer); if (rtn_value != 0) { memcpy (a->buffer + partial_offset, addr, partial_count); rtn_value = write_media(a->next_media, cur_offset - partial_offset, next_size, a->buffer); addr += partial_count; cur_offset += partial_count; remainder -= partial_count; } } /* write fulls as long as needed */ if (rtn_value != 0 && remainder > next_size) { partial_count = remainder - (remainder % next_size); rtn_value = write_media(a->next_media, cur_offset, partial_count, addr); addr += partial_count; cur_offset += partial_count; remainder -= partial_count; } /* write partial */ if (rtn_value != 0 && remainder > 0) { partial_count = remainder; rtn_value = read_media(a->next_media, cur_offset, next_size, a->buffer); if (rtn_value != 0) { memcpy (a->buffer, addr, partial_count); rtn_value = write_media(a->next_media, cur_offset, next_size, a->buffer); } } } /* recompute size to handle file media */ a->m.size_in_bytes = media_total_size(a->next_media); return rtn_value; } long close_deblock_media(MEDIA m) { DEBLOCK_MEDIA a; a = (DEBLOCK_MEDIA) m; if (a == 0) { return 0; } else if (a->m.kind != deblock_info.kind) { /* XXX need to error here - this is an internal problem */ return 0; } close_media(a->next_media); free(a->buffer); return 1; } long os_reload_deblock_media(MEDIA m) { DEBLOCK_MEDIA a; a = (DEBLOCK_MEDIA) m; if (a == 0) { return 0; } else if (a->m.kind != deblock_info.kind) { /* XXX need to error here - this is an internal problem */ return 0; } os_reload_media(a->next_media); return 1; }