/*
 * diff-delta.c: generate a delta between two buffers
 *
 *  Many parts of this file have been lifted from LibXDiff version 0.10.
 *  http://www.xmailserver.org/xdiff-lib.html
 *
 *  LibXDiff was written by Davide Libenzi <davidel@xmailserver.org>
 *  Copyright (C) 2003  Davide Libenzi
 *
 *  Many mods for GIT usage by Nicolas Pitre <nico@cam.org>, (C) 2005.
 *
 *  This file is free software; you can redistribute it and/or
 *  modify it under the terms of the GNU Lesser General Public
 *  License as published by the Free Software Foundation; either
 *  version 2.1 of the License, or (at your option) any later version.
 *
 *  Use of this within git automatically means that the LGPL
 *  licensing gets turned into GPLv2 within this project.
 */

#include <stdlib.h>
#include "delta.h"
#include "zlib.h"


/* block size: min = 16, max = 64k, power of 2 */
#define BLK_SIZE 16

#define MIN(a, b) ((a) < (b) ? (a) : (b))

#define GR_PRIME 0x9e370001
#define HASH(v, b) (((unsigned int)(v) * GR_PRIME) >> (32 - (b)))
        
static unsigned int hashbits(unsigned int size)
{
        unsigned int val = 1, bits = 0;
        while (val < size && bits < 32) {
                val <<= 1;
                bits++;
        }
        return bits ? bits: 1;
}

typedef struct s_chanode {
        struct s_chanode *next;
        int icurr;
} chanode_t;

typedef struct s_chastore {
        int isize, nsize;
        chanode_t *ancur;
} chastore_t;

static void cha_init(chastore_t *cha, int isize, int icount)
{
        cha->isize = isize;
        cha->nsize = icount * isize;
        cha->ancur = NULL;
}

static void *cha_alloc(chastore_t *cha)
{
        chanode_t *ancur;
        void *data;

        ancur = cha->ancur;
        if (!ancur || ancur->icurr == cha->nsize) {
                ancur = malloc(sizeof(chanode_t) + cha->nsize);
                if (!ancur)
                        return NULL;
                ancur->icurr = 0;
                ancur->next = cha->ancur;
                cha->ancur = ancur;
        }

        data = (void *)ancur + sizeof(chanode_t) + ancur->icurr;
        ancur->icurr += cha->isize;
        return data;
}

static void cha_free(chastore_t *cha)
{
        chanode_t *cur = cha->ancur;
        while (cur) {
                chanode_t *tmp = cur;
                cur = cur->next;
                free(tmp);
        }
}

typedef struct s_bdrecord {
        struct s_bdrecord *next;
        unsigned int fp;
        const unsigned char *ptr;
} bdrecord_t;

typedef struct s_bdfile {
        chastore_t cha;
        unsigned int fphbits;
        bdrecord_t **fphash;
} bdfile_t;

static int delta_prepare(const unsigned char *buf, int bufsize, bdfile_t *bdf)
{
        unsigned int fphbits;
        int i, hsize;
        const unsigned char *data, *top;
        bdrecord_t *brec;
        bdrecord_t **fphash;

        fphbits = hashbits(bufsize / BLK_SIZE + 1);
        hsize = 1 << fphbits;
        fphash = malloc(hsize * sizeof(bdrecord_t *));
        if (!fphash)
                return -1;
        for (i = 0; i < hsize; i++)
                fphash[i] = NULL;
        cha_init(&bdf->cha, sizeof(bdrecord_t), hsize / 4 + 1);

        top = buf + bufsize;
        data = buf + (bufsize / BLK_SIZE) * BLK_SIZE;
        if (data == top)
                data -= BLK_SIZE;

        for ( ; data >= buf; data -= BLK_SIZE) {
                brec = cha_alloc(&bdf->cha);
                if (!brec) {
                        cha_free(&bdf->cha);
                        free(fphash);
                        return -1;
                }
                brec->fp = adler32(0, data, MIN(BLK_SIZE, top - data));
                brec->ptr = data;
                i = HASH(brec->fp, fphbits);
                brec->next = fphash[i];
                fphash[i] = brec;
        }

        bdf->fphbits = fphbits;
        bdf->fphash = fphash;

        return 0;
}

static void delta_cleanup(bdfile_t *bdf)
{
        free(bdf->fphash);
        cha_free(&bdf->cha);
}

#define COPYOP_SIZE(o, s) \
    (!!(o & 0xff) + !!(o & 0xff00) + !!(o & 0xff0000) + !!(o & 0xff000000) + \
     !!(s & 0xff) + !!(s & 0xff00) + 1)

void *diff_delta(void *from_buf, unsigned long from_size,
                 void *to_buf, unsigned long to_size,
                 unsigned long *delta_size,
                 unsigned long max_size)
{
        int i, outpos, outsize, inscnt, csize, msize, moff;
        unsigned int fp;
        const unsigned char *ref_data, *ref_top, *data, *top, *ptr1, *ptr2;
        unsigned char *out, *orig;
        bdrecord_t *brec;
        bdfile_t bdf;

        if (!from_size || !to_size || delta_prepare(from_buf, from_size, &bdf))
                return NULL;
        
        outpos = 0;
        outsize = 8192;
        out = malloc(outsize);
        if (!out) {
                delta_cleanup(&bdf);
                return NULL;
        }

        ref_data = from_buf;
        ref_top = from_buf + from_size;
        data = to_buf;
        top = to_buf + to_size;

        /* store reference buffer size */
        out[outpos++] = from_size;
        from_size >>= 7;
        while (from_size) {
                out[outpos - 1] |= 0x80;
                out[outpos++] = from_size;
                from_size >>= 7;
        }

        /* store target buffer size */
        out[outpos++] = to_size;
        to_size >>= 7;
        while (to_size) {
                out[outpos - 1] |= 0x80;
                out[outpos++] = to_size;
                to_size >>= 7;
        }

        inscnt = 0;
        moff = 0;
        while (data < top) {
                msize = 0;
                fp = adler32(0, data, MIN(top - data, BLK_SIZE));
                i = HASH(fp, bdf.fphbits);
                for (brec = bdf.fphash[i]; brec; brec = brec->next) {
                        if (brec->fp == fp) {
                                csize = ref_top - brec->ptr;
                                if (csize > top - data)
                                        csize = top - data;
                                for (ptr1 = brec->ptr, ptr2 = data; 
                                     csize && *ptr1 == *ptr2;
                                     csize--, ptr1++, ptr2++);

                                csize = ptr1 - brec->ptr;
                                if (csize > msize) {
                                        moff = brec->ptr - ref_data;
                                        msize = csize;
                                        if (msize >= 0x10000) {
                                                msize = 0x10000;
                                                break;
                                        }
                                }
                        }
                }

                if (!msize || msize < COPYOP_SIZE(moff, msize)) {
                        if (!inscnt)
                                outpos++;
                        out[outpos++] = *data++;
                        inscnt++;
                        if (inscnt == 0x7f) {
                                out[outpos - inscnt - 1] = inscnt;
                                inscnt = 0;
                        }
                } else {
                        if (inscnt) {
                                out[outpos - inscnt - 1] = inscnt;
                                inscnt = 0;
                        }

                        data += msize;
                        orig = out + outpos++;
                        i = 0x80;

                        if (moff & 0xff) { out[outpos++] = moff; i |= 0x01; }
                        moff >>= 8;
                        if (moff & 0xff) { out[outpos++] = moff; i |= 0x02; }
                        moff >>= 8;
                        if (moff & 0xff) { out[outpos++] = moff; i |= 0x04; }
                        moff >>= 8;
                        if (moff & 0xff) { out[outpos++] = moff; i |= 0x08; }

                        if (msize & 0xff) { out[outpos++] = msize; i |= 0x10; }
                        msize >>= 8;
                        if (msize & 0xff) { out[outpos++] = msize; i |= 0x20; }

                        *orig = i;
                }

                if (max_size && outpos > max_size) {
                        free(out);
                        delta_cleanup(&bdf);
                        return NULL;
                }

                /* next time around the largest possible output is 1 + 4 + 3 */
                if (outpos > outsize - 8) {
                        void *tmp = out;
                        outsize = outsize * 3 / 2;
                        out = realloc(out, outsize);
                        if (!out) {
                                free(tmp);
                                delta_cleanup(&bdf);
                                return NULL;
                        }
                }
        }

        if (inscnt)
                out[outpos - inscnt - 1] = inscnt;

        delta_cleanup(&bdf);
        *delta_size = outpos;
        return out;
}