/* xdelta 3 - delta compression tools and library * Copyright (C) 2007. Joshua P. MacDonald * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef _XDELTA3_MERGE_H_ #define _XDELTA3_MERGE_H_ static int xd3_whole_state_init (xd3_stream *stream) { XD3_ASSERT (stream->whole_target.adds == NULL); XD3_ASSERT (stream->whole_target.inst == NULL); stream->whole_target.adds_alloc = XD3_ALLOCSIZE; stream->whole_target.inst_alloc = XD3_ALLOCSIZE / sizeof (xd3_winst); if ((stream->whole_target.adds = (uint8_t*) xd3_alloc (stream, XD3_ALLOCSIZE, 1)) == NULL || (stream->whole_target.inst = (xd3_winst*) xd3_alloc (stream, XD3_ALLOCSIZE, sizeof(xd3_winst))) == NULL) { return ENOMEM; } return 0; } static void xd3_swap_whole_state (xd3_whole_state *a, xd3_whole_state *b) { xd3_whole_state tmp; XD3_ASSERT (a->inst != NULL && a->adds != NULL); XD3_ASSERT (b->inst != NULL && b->adds != NULL); memcpy (&tmp, a, sizeof (xd3_whole_state)); memcpy (a, b, sizeof (xd3_whole_state)); memcpy (b, &tmp, sizeof (xd3_whole_state)); } static int xd3_realloc_buffer (xd3_stream *stream, usize_t current_units, usize_t unit_size, usize_t new_units, usize_t *alloc_size, void **alloc_ptr) { usize_t needed; usize_t new_alloc; usize_t cur_size; uint8_t *new_buf; needed = (current_units + new_units) * unit_size; if (needed <= *alloc_size) { return 0; } cur_size = current_units * unit_size; new_alloc = xd3_round_blksize (needed * 2, XD3_ALLOCSIZE); if ((new_buf = xd3_alloc (stream, new_alloc, 1)) == NULL) { return ENOMEM; } if (cur_size != 0) { memcpy (new_buf, *alloc_ptr, cur_size); } if (*alloc_ptr != NULL) { xd3_free (stream, *alloc_ptr); } *alloc_size = new_alloc; *alloc_ptr = new_buf; return 0; } static int xd3_whole_append_inst (xd3_stream *stream, xd3_hinst *inst) { int ret; xd3_winst *winst; if ((ret = xd3_realloc_buffer (stream, stream->whole_target.instlen, sizeof (xd3_winst), 1, & stream->whole_target.inst_alloc, (void**) & stream->whole_target.inst))) { return ret; } if ((inst->type <= XD3_ADD) && (ret = xd3_realloc_buffer (stream, stream->whole_target.addslen, 1, (inst->type == XD3_RUN ? 1 : inst->size), & stream->whole_target.adds_alloc, (void**) & stream->whole_target.adds))) { return ret; } winst = &stream->whole_target.inst[stream->whole_target.instlen++]; winst->type = inst->type; winst->mode = 0; winst->size = inst->size; switch (inst->type) { case XD3_RUN: winst->addr = stream->whole_target.addslen; stream->whole_target.adds[stream->whole_target.addslen++] = *stream->data_sect.buf++; break; case XD3_ADD: winst->addr = stream->whole_target.addslen; memcpy (stream->whole_target.adds + stream->whole_target.addslen, stream->data_sect.buf, inst->size); stream->data_sect.buf += inst->size; stream->whole_target.addslen += inst->size; break; default: if (inst->addr < stream->dec_cpylen) { winst->mode = SRCORTGT (stream->dec_win_ind); winst->addr = stream->dec_cpyoff + inst->addr; } else { winst->addr = stream->total_out + inst->addr - stream->dec_cpylen; } break; } return 0; } int xd3_whole_append_window (xd3_stream *stream) { int ret; while (stream->inst_sect.buf < stream->inst_sect.buf_max) { if ((ret = xd3_decode_instruction (stream))) { return ret; } if ((stream->dec_current1.type != XD3_NOOP) && (ret = xd3_whole_append_inst (stream, & stream->dec_current1))) { return ret; } if ((stream->dec_current2.type != XD3_NOOP) && (ret = xd3_whole_append_inst (stream, & stream->dec_current2))) { return ret; } } return 0; } /* xd3_merge_inputs() applies *input to *source, returns its result in * stream. */ int xd3_merge_inputs (xd3_stream *stream, xd3_whole_state *source, xd3_whole_state *input) { DP(RINT "Merge inputs!\n"); return 0; } #endif