~bzr-pqm/bzr/bzr.dev

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/*
 * diff-delta.c: generate a delta between two buffers
 *
 * This code was greatly inspired by parts of LibXDiff from Davide Libenzi
 * http://www.xmailserver.org/xdiff-lib.html
 *
 * Rewritten for GIT by Nicolas Pitre <nico@cam.org>, (C) 2005-2007
 * Adapted for Bazaar by John Arbash Meinel <john@arbash-meinel.com> (C) 2009
 *
 * This code is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License version 2 as
 * published by the Free Software Foundation.
 */

#include "delta.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>

/* maximum hash entry list for the same hash bucket */
#define HASH_LIMIT 64

#define RABIN_SHIFT 23
#define RABIN_WINDOW 16

static const unsigned int T[256] = {
    0x00000000, 0xab59b4d1, 0x56b369a2, 0xfdeadd73, 0x063f6795, 0xad66d344,
    0x508c0e37, 0xfbd5bae6, 0x0c7ecf2a, 0xa7277bfb, 0x5acda688, 0xf1941259,
    0x0a41a8bf, 0xa1181c6e, 0x5cf2c11d, 0xf7ab75cc, 0x18fd9e54, 0xb3a42a85,
    0x4e4ef7f6, 0xe5174327, 0x1ec2f9c1, 0xb59b4d10, 0x48719063, 0xe32824b2,
    0x1483517e, 0xbfdae5af, 0x423038dc, 0xe9698c0d, 0x12bc36eb, 0xb9e5823a,
    0x440f5f49, 0xef56eb98, 0x31fb3ca8, 0x9aa28879, 0x6748550a, 0xcc11e1db,
    0x37c45b3d, 0x9c9defec, 0x6177329f, 0xca2e864e, 0x3d85f382, 0x96dc4753,
    0x6b369a20, 0xc06f2ef1, 0x3bba9417, 0x90e320c6, 0x6d09fdb5, 0xc6504964,
    0x2906a2fc, 0x825f162d, 0x7fb5cb5e, 0xd4ec7f8f, 0x2f39c569, 0x846071b8,
    0x798aaccb, 0xd2d3181a, 0x25786dd6, 0x8e21d907, 0x73cb0474, 0xd892b0a5,
    0x23470a43, 0x881ebe92, 0x75f463e1, 0xdeadd730, 0x63f67950, 0xc8afcd81,
    0x354510f2, 0x9e1ca423, 0x65c91ec5, 0xce90aa14, 0x337a7767, 0x9823c3b6,
    0x6f88b67a, 0xc4d102ab, 0x393bdfd8, 0x92626b09, 0x69b7d1ef, 0xc2ee653e,
    0x3f04b84d, 0x945d0c9c, 0x7b0be704, 0xd05253d5, 0x2db88ea6, 0x86e13a77,
    0x7d348091, 0xd66d3440, 0x2b87e933, 0x80de5de2, 0x7775282e, 0xdc2c9cff,
    0x21c6418c, 0x8a9ff55d, 0x714a4fbb, 0xda13fb6a, 0x27f92619, 0x8ca092c8,
    0x520d45f8, 0xf954f129, 0x04be2c5a, 0xafe7988b, 0x5432226d, 0xff6b96bc,
    0x02814bcf, 0xa9d8ff1e, 0x5e738ad2, 0xf52a3e03, 0x08c0e370, 0xa39957a1,
    0x584ced47, 0xf3155996, 0x0eff84e5, 0xa5a63034, 0x4af0dbac, 0xe1a96f7d,
    0x1c43b20e, 0xb71a06df, 0x4ccfbc39, 0xe79608e8, 0x1a7cd59b, 0xb125614a,
    0x468e1486, 0xedd7a057, 0x103d7d24, 0xbb64c9f5, 0x40b17313, 0xebe8c7c2,
    0x16021ab1, 0xbd5bae60, 0x6cb54671, 0xc7ecf2a0, 0x3a062fd3, 0x915f9b02,
    0x6a8a21e4, 0xc1d39535, 0x3c394846, 0x9760fc97, 0x60cb895b, 0xcb923d8a,
    0x3678e0f9, 0x9d215428, 0x66f4eece, 0xcdad5a1f, 0x3047876c, 0x9b1e33bd,
    0x7448d825, 0xdf116cf4, 0x22fbb187, 0x89a20556, 0x7277bfb0, 0xd92e0b61,
    0x24c4d612, 0x8f9d62c3, 0x7836170f, 0xd36fa3de, 0x2e857ead, 0x85dcca7c,
    0x7e09709a, 0xd550c44b, 0x28ba1938, 0x83e3ade9, 0x5d4e7ad9, 0xf617ce08,
    0x0bfd137b, 0xa0a4a7aa, 0x5b711d4c, 0xf028a99d, 0x0dc274ee, 0xa69bc03f,
    0x5130b5f3, 0xfa690122, 0x0783dc51, 0xacda6880, 0x570fd266, 0xfc5666b7,
    0x01bcbbc4, 0xaae50f15, 0x45b3e48d, 0xeeea505c, 0x13008d2f, 0xb85939fe,
    0x438c8318, 0xe8d537c9, 0x153feaba, 0xbe665e6b, 0x49cd2ba7, 0xe2949f76,
    0x1f7e4205, 0xb427f6d4, 0x4ff24c32, 0xe4abf8e3, 0x19412590, 0xb2189141,
    0x0f433f21, 0xa41a8bf0, 0x59f05683, 0xf2a9e252, 0x097c58b4, 0xa225ec65,
    0x5fcf3116, 0xf49685c7, 0x033df00b, 0xa86444da, 0x558e99a9, 0xfed72d78,
    0x0502979e, 0xae5b234f, 0x53b1fe3c, 0xf8e84aed, 0x17bea175, 0xbce715a4,
    0x410dc8d7, 0xea547c06, 0x1181c6e0, 0xbad87231, 0x4732af42, 0xec6b1b93,
    0x1bc06e5f, 0xb099da8e, 0x4d7307fd, 0xe62ab32c, 0x1dff09ca, 0xb6a6bd1b,
    0x4b4c6068, 0xe015d4b9, 0x3eb80389, 0x95e1b758, 0x680b6a2b, 0xc352defa,
    0x3887641c, 0x93ded0cd, 0x6e340dbe, 0xc56db96f, 0x32c6cca3, 0x999f7872,
    0x6475a501, 0xcf2c11d0, 0x34f9ab36, 0x9fa01fe7, 0x624ac294, 0xc9137645,
    0x26459ddd, 0x8d1c290c, 0x70f6f47f, 0xdbaf40ae, 0x207afa48, 0x8b234e99,
    0x76c993ea, 0xdd90273b, 0x2a3b52f7, 0x8162e626, 0x7c883b55, 0xd7d18f84,
    0x2c043562, 0x875d81b3, 0x7ab75cc0, 0xd1eee811
};

static const unsigned int U[256] = {
    0x00000000, 0x7eb5200d, 0x5633f4cb, 0x2886d4c6, 0x073e5d47, 0x798b7d4a,
    0x510da98c, 0x2fb88981, 0x0e7cba8e, 0x70c99a83, 0x584f4e45, 0x26fa6e48,
    0x0942e7c9, 0x77f7c7c4, 0x5f711302, 0x21c4330f, 0x1cf9751c, 0x624c5511,
    0x4aca81d7, 0x347fa1da, 0x1bc7285b, 0x65720856, 0x4df4dc90, 0x3341fc9d,
    0x1285cf92, 0x6c30ef9f, 0x44b63b59, 0x3a031b54, 0x15bb92d5, 0x6b0eb2d8,
    0x4388661e, 0x3d3d4613, 0x39f2ea38, 0x4747ca35, 0x6fc11ef3, 0x11743efe,
    0x3eccb77f, 0x40799772, 0x68ff43b4, 0x164a63b9, 0x378e50b6, 0x493b70bb,
    0x61bda47d, 0x1f088470, 0x30b00df1, 0x4e052dfc, 0x6683f93a, 0x1836d937,
    0x250b9f24, 0x5bbebf29, 0x73386bef, 0x0d8d4be2, 0x2235c263, 0x5c80e26e,
    0x740636a8, 0x0ab316a5, 0x2b7725aa, 0x55c205a7, 0x7d44d161, 0x03f1f16c,
    0x2c4978ed, 0x52fc58e0, 0x7a7a8c26, 0x04cfac2b, 0x73e5d470, 0x0d50f47d,
    0x25d620bb, 0x5b6300b6, 0x74db8937, 0x0a6ea93a, 0x22e87dfc, 0x5c5d5df1,
    0x7d996efe, 0x032c4ef3, 0x2baa9a35, 0x551fba38, 0x7aa733b9, 0x041213b4,
    0x2c94c772, 0x5221e77f, 0x6f1ca16c, 0x11a98161, 0x392f55a7, 0x479a75aa,
    0x6822fc2b, 0x1697dc26, 0x3e1108e0, 0x40a428ed, 0x61601be2, 0x1fd53bef,
    0x3753ef29, 0x49e6cf24, 0x665e46a5, 0x18eb66a8, 0x306db26e, 0x4ed89263,
    0x4a173e48, 0x34a21e45, 0x1c24ca83, 0x6291ea8e, 0x4d29630f, 0x339c4302,
    0x1b1a97c4, 0x65afb7c9, 0x446b84c6, 0x3adea4cb, 0x1258700d, 0x6ced5000,
    0x4355d981, 0x3de0f98c, 0x15662d4a, 0x6bd30d47, 0x56ee4b54, 0x285b6b59,
    0x00ddbf9f, 0x7e689f92, 0x51d01613, 0x2f65361e, 0x07e3e2d8, 0x7956c2d5,
    0x5892f1da, 0x2627d1d7, 0x0ea10511, 0x7014251c, 0x5facac9d, 0x21198c90,
    0x099f5856, 0x772a785b, 0x4c921c31, 0x32273c3c, 0x1aa1e8fa, 0x6414c8f7,
    0x4bac4176, 0x3519617b, 0x1d9fb5bd, 0x632a95b0, 0x42eea6bf, 0x3c5b86b2,
    0x14dd5274, 0x6a687279, 0x45d0fbf8, 0x3b65dbf5, 0x13e30f33, 0x6d562f3e,
    0x506b692d, 0x2ede4920, 0x06589de6, 0x78edbdeb, 0x5755346a, 0x29e01467,
    0x0166c0a1, 0x7fd3e0ac, 0x5e17d3a3, 0x20a2f3ae, 0x08242768, 0x76910765,
    0x59298ee4, 0x279caee9, 0x0f1a7a2f, 0x71af5a22, 0x7560f609, 0x0bd5d604,
    0x235302c2, 0x5de622cf, 0x725eab4e, 0x0ceb8b43, 0x246d5f85, 0x5ad87f88,
    0x7b1c4c87, 0x05a96c8a, 0x2d2fb84c, 0x539a9841, 0x7c2211c0, 0x029731cd,
    0x2a11e50b, 0x54a4c506, 0x69998315, 0x172ca318, 0x3faa77de, 0x411f57d3,
    0x6ea7de52, 0x1012fe5f, 0x38942a99, 0x46210a94, 0x67e5399b, 0x19501996,
    0x31d6cd50, 0x4f63ed5d, 0x60db64dc, 0x1e6e44d1, 0x36e89017, 0x485db01a,
    0x3f77c841, 0x41c2e84c, 0x69443c8a, 0x17f11c87, 0x38499506, 0x46fcb50b,
    0x6e7a61cd, 0x10cf41c0, 0x310b72cf, 0x4fbe52c2, 0x67388604, 0x198da609,
    0x36352f88, 0x48800f85, 0x6006db43, 0x1eb3fb4e, 0x238ebd5d, 0x5d3b9d50,
    0x75bd4996, 0x0b08699b, 0x24b0e01a, 0x5a05c017, 0x728314d1, 0x0c3634dc,
    0x2df207d3, 0x534727de, 0x7bc1f318, 0x0574d315, 0x2acc5a94, 0x54797a99,
    0x7cffae5f, 0x024a8e52, 0x06852279, 0x78300274, 0x50b6d6b2, 0x2e03f6bf,
    0x01bb7f3e, 0x7f0e5f33, 0x57888bf5, 0x293dabf8, 0x08f998f7, 0x764cb8fa,
    0x5eca6c3c, 0x207f4c31, 0x0fc7c5b0, 0x7172e5bd, 0x59f4317b, 0x27411176,
    0x1a7c5765, 0x64c97768, 0x4c4fa3ae, 0x32fa83a3, 0x1d420a22, 0x63f72a2f,
    0x4b71fee9, 0x35c4dee4, 0x1400edeb, 0x6ab5cde6, 0x42331920, 0x3c86392d,
    0x133eb0ac, 0x6d8b90a1, 0x450d4467, 0x3bb8646a
};

struct index_entry {
    const unsigned char *ptr;
    const struct source_info *src;
    unsigned int val;
};

struct unpacked_index_entry {
    struct index_entry entry;
    struct unpacked_index_entry *next;
};

struct delta_index {
    unsigned long memsize; /* Total bytes pointed to by this index */
    const struct source_info *last_src; /* Information about the referenced source */
    unsigned int hash_mask; /* val & hash_mask gives the hash index for a given
                               entry */
    unsigned int num_entries; /* The total number of entries in this index */
    struct index_entry *last_entry; /* Pointer to the last valid entry */
    struct index_entry *hash[];
};

static unsigned int
limit_hash_buckets(struct unpacked_index_entry **hash,
                   unsigned int *hash_count, unsigned int hsize,
                   unsigned int entries)
{
    struct unpacked_index_entry *entry;
    unsigned int i;
    /*
     * Determine a limit on the number of entries in the same hash
     * bucket.  This guards us against pathological data sets causing
     * really bad hash distribution with most entries in the same hash
     * bucket that would bring us to O(m*n) computing costs (m and n
     * corresponding to reference and target buffer sizes).
     *
     * Make sure none of the hash buckets has more entries than
     * we're willing to test.  Otherwise we cull the entry list
     * uniformly to still preserve a good repartition across
     * the reference buffer.
     */
    for (i = 0; i < hsize; i++) {
        int acc;

        if (hash_count[i] <= HASH_LIMIT)
            continue;

        /* We leave exactly HASH_LIMIT entries in the bucket */
        entries -= hash_count[i] - HASH_LIMIT;

        entry = hash[i];
        acc = 0;

        /*
         * Assume that this loop is gone through exactly
         * HASH_LIMIT times and is entered and left with
         * acc==0.  So the first statement in the loop
         * contributes (hash_count[i]-HASH_LIMIT)*HASH_LIMIT
         * to the accumulator, and the inner loop consequently
         * is run (hash_count[i]-HASH_LIMIT) times, removing
         * one element from the list each time.  Since acc
         * balances out to 0 at the final run, the inner loop
         * body can't be left with entry==NULL.  So we indeed
         * encounter entry==NULL in the outer loop only.
         */
        do {
            acc += hash_count[i] - HASH_LIMIT;
            if (acc > 0) {
                struct unpacked_index_entry *keep = entry;
                do {
                    entry = entry->next;
                    acc -= HASH_LIMIT;
                } while (acc > 0);
                keep->next = entry->next;
            }
            entry = entry->next;
        } while (entry);
    }
    return entries;
}

static struct delta_index *
pack_delta_index(struct unpacked_index_entry **hash, unsigned int hsize,
                 unsigned int num_entries)
{
    unsigned int i, memsize;
    struct unpacked_index_entry *entry;
    struct delta_index *index;
    struct index_entry *packed_entry, **packed_hash;
    void *mem;
    /*
     * Now create the packed index in array form
     * rather than linked lists.
     */
    memsize = sizeof(*index)
        + sizeof(*packed_hash) * (hsize+1)
        + sizeof(*packed_entry) * num_entries;
    mem = malloc(memsize);
    if (!mem) {
        return NULL;
    }

    index = mem;
    index->memsize = memsize;
    index->hash_mask = hsize - 1;
    index->num_entries = num_entries;

    mem = index->hash;
    packed_hash = mem;
    mem = packed_hash + (hsize+1);
    packed_entry = mem;

    for (i = 0; i < hsize; i++) {
        /*
         * Coalesce all entries belonging to one linked list
         * into consecutive array entries.
         */
        packed_hash[i] = packed_entry;
        for (entry = hash[i]; entry; entry = entry->next)
            *packed_entry++ = entry->entry;
    }

    /* Sentinel value to indicate the length of the last hash bucket */
    packed_hash[hsize] = packed_entry;

    assert(packed_entry - (struct index_entry *)mem == num_entries);
    index->last_entry = (packed_entry - 1);
    return index;
}

void include_entries_from_index(struct unpacked_index_entry **hash,
                                unsigned int *hash_count,
                                unsigned int hsize,
                                struct unpacked_index_entry *entry,
                                const struct delta_index *old)
{
    unsigned int i, hmask, masked_val;
    struct index_entry *old_entry;

    hmask = hsize - 1;
    /* Iterate backwards through the existing entries
     * This is so that matches early in the file end up being the first pointer
     * in the linked list.
     * TODO: We know that all old entries are going to occur before the new
     *       entries, and that we are going to follow this with a limit and
     *       then pack step. There is probably a way we could optimize this
     *       step, so that we wouldn't have to copy everything into a new
     *       buffer, and then copy everything again into yet another buffer.
     */
    for (old_entry = old->last_entry, i = 0; i < old->num_entries;
         i++, old_entry--) {
        masked_val = old_entry->val & hmask;
        entry->entry = *old_entry;
        entry->next = hash[masked_val];
        hash[masked_val] = entry++;
        hash_count[masked_val]++;
    }
}

struct delta_index *
create_index_from_old_and_hash(const struct delta_index *old,
                               struct unpacked_index_entry **hash,
                               unsigned int hsize,
                               unsigned int num_entries)
{
    unsigned int i, memsize, total_num_entries;
    struct unpacked_index_entry *entry;
    struct delta_index *index;
    struct index_entry *packed_entry, **packed_hash;
    struct index_entry *copy_from_start, *copy_to_start;
    size_t total_copy, to_copy;
    unsigned int num_ops;
    unsigned int bytes_copied;
    void *mem;
    /*
     * Now create the packed index in array form
     * rather than linked lists.
     */
    total_num_entries = num_entries + old->num_entries;
    memsize = sizeof(*index)
        + sizeof(*packed_hash) * (hsize+1)
        + sizeof(*packed_entry) * total_num_entries;
    mem = malloc(memsize);
    if (!mem) {
        return NULL;
    }

    index = mem;
    index->memsize = memsize;
    index->hash_mask = hsize - 1;
    index->num_entries = total_num_entries;

    mem = index->hash;
    packed_hash = mem;
    mem = packed_hash + (hsize+1);
    packed_entry = mem;

    total_copy = 0;
    bytes_copied = 0;
    num_ops = 0;
    copy_from_start = copy_to_start = NULL;
    for (i = 0; i < hsize; i++) {
        /*
         * Coalesce all entries belonging to one linked list
         * into consecutive array entries.
         * The entries in old all come before the entries in hash.
         */
        packed_hash[i] = packed_entry;
        to_copy = (old->hash[i+1] - old->hash[i]);
        if (to_copy > 0) {
            /* This next range can be copied wholesale. However, we will wait
             * until we have to insert something from the new data before we
             * copy everything.
             * So for now, just reserve space for the copy.
             */
            if (total_copy == 0) {
                copy_from_start = old->hash[i];
                copy_to_start = packed_entry;
            }
            packed_entry += to_copy;
            total_copy += to_copy;
            assert((packed_entry - copy_to_start) == total_copy);
            assert((old->hash[i+1] - copy_from_start) == total_copy);
        }
        for (entry = hash[i]; entry; entry = entry->next) {
            /* We have an entry to insert, so flush the copy buffer */
            if (total_copy > 0) {
                assert(copy_to_start != NULL);
                assert(copy_from_start != NULL);
                memcpy(copy_to_start, copy_from_start,
                       total_copy * sizeof(struct index_entry));
                bytes_copied += (total_copy * sizeof(struct index_entry));
                total_copy = 0;
                copy_from_start = copy_to_start = NULL;
                num_ops += 1;
            }
            *packed_entry++ = entry->entry;
        }
    }
    if (total_copy > 0) {
        assert(copy_to_start != NULL);
        assert(copy_from_start != NULL);
        memcpy(copy_to_start, copy_from_start,
               total_copy * sizeof(struct index_entry));
        bytes_copied += (total_copy * sizeof(struct index_entry));
        num_ops += 1;
    }

    /* Sentinel value to indicate the length of the last hash bucket */
    packed_hash[hsize] = packed_entry;

    assert(packed_entry - (struct index_entry *)mem == total_num_entries);
    index->last_entry = (packed_entry - 1);
    return index;
}


struct delta_index * create_delta_index(const struct source_info *src,
                                        const struct delta_index *old)
{
    unsigned int i, hsize, hmask, num_entries, prev_val, *hash_count;
    unsigned int total_num_entries;
    const unsigned char *data, *buffer;
    struct delta_index *index;
    struct unpacked_index_entry *entry, **hash;
    void *mem;
    unsigned long memsize;

    if (!src->buf || !src->size)
        return NULL;
    buffer = src->buf;

    /* Determine index hash size.  Note that indexing skips the
       first byte to allow for optimizing the Rabin's polynomial
       initialization in create_delta(). */
    num_entries = (src->size - 1)  / RABIN_WINDOW;
    if (old != NULL)
        total_num_entries = num_entries + old->num_entries;
    else
        total_num_entries = num_entries;
    hsize = total_num_entries / 4;
    for (i = 4; (1u << i) < hsize && i < 31; i++);
    hsize = 1 << i;
    hmask = hsize - 1;

    /* allocate lookup index */
    memsize = sizeof(*hash) * hsize +
          sizeof(*entry) * total_num_entries;
    mem = malloc(memsize);
    if (!mem)
        return NULL;
    hash = mem;
    mem = hash + hsize;
    entry = mem;

    memset(hash, 0, hsize * sizeof(*hash));

    /* allocate an array to count hash num_entries */
    hash_count = calloc(hsize, sizeof(*hash_count));
    if (!hash_count) {
        free(hash);
        return NULL;
    }

    /* then populate the index for the new data */
    prev_val = ~0;
    for (data = buffer + num_entries * RABIN_WINDOW - RABIN_WINDOW;
         data >= buffer;
         data -= RABIN_WINDOW) {
        unsigned int val = 0;
        for (i = 1; i <= RABIN_WINDOW; i++)
            val = ((val << 8) | data[i]) ^ T[val >> RABIN_SHIFT];
        if (val == prev_val) {
            /* keep the lowest of consecutive identical blocks */
            entry[-1].entry.ptr = data + RABIN_WINDOW;
            --num_entries;
            --total_num_entries;
        } else {
            prev_val = val;
            i = val & hmask;
            entry->entry.ptr = data + RABIN_WINDOW;
            entry->entry.val = val;
            entry->entry.src = src;
            entry->next = hash[i];
            hash[i] = entry++;
            hash_count[i]++;
        }
    }
    /* If we have an existing delta_index, we want to bring its info into the
     * new structure. We assume that the existing structure's objects all occur
     * before the new source, so they get first precedence in the index.
     */
    if (old != NULL)
        include_entries_from_index(hash, hash_count, hsize, entry, old);

    total_num_entries = limit_hash_buckets(hash, hash_count, hsize,
                                           total_num_entries);
    free(hash_count);
    index = pack_delta_index(hash, hsize, total_num_entries);
    index->last_src = src;
    free(hash);
    if (!index) {
        return NULL;
    }
    return index;
}

struct delta_index *
create_delta_index_from_delta(const struct source_info *src,
                              const struct delta_index *old)
{
    unsigned int i, hsize, hmask, num_entries, prev_val, *hash_count;
    unsigned int total_num_entries;
    const unsigned char *data, *buffer, *top;
    unsigned char cmd;
    struct delta_index *index;
    struct unpacked_index_entry *entry, **hash;
    void *mem;
    unsigned long memsize;

    if (!src->buf || !src->size)
        return NULL;
    buffer = src->buf;
    top = buffer + src->size;

    /* Determine index hash size.  Note that indexing skips the
       first byte to allow for optimizing the Rabin's polynomial
       initialization in create_delta().
       This computes the maximum number of entries that could be held. The
       actual number will be recomputed during processing.
       */
     
    num_entries = (src->size - 1)  / RABIN_WINDOW;
    if (old != NULL)
        total_num_entries = num_entries + old->num_entries;
    else
        total_num_entries = num_entries;
    hsize = total_num_entries / 4;
    for (i = 4; (1u << i) < hsize && i < 31; i++);
    hsize = 1 << i;
    hmask = hsize - 1;

    /* allocate lookup index */
    memsize = sizeof(*hash) * hsize +
          sizeof(*entry) * total_num_entries;
    mem = malloc(memsize);
    if (!mem)
        return NULL;
    hash = mem;
    mem = hash + hsize;
    entry = mem;

    memset(hash, 0, hsize * sizeof(*hash));

    /* allocate an array to count hash num_entries */
    hash_count = calloc(hsize, sizeof(*hash_count));
    if (!hash_count) {
        free(hash);
        return NULL;
    }

    /* then populate the index for the new data */
    /* The create_delta_index code starts at the end and works backward,
     * because it is easier to update the entry pointers (you always update the
     * head, rather than updating the tail).
     * However, we can't walk the delta structure that way.
     */
    prev_val = ~0;
    data = buffer;
    /* source size */
    get_delta_hdr_size(&data, top);
    /* target size */
    get_delta_hdr_size(&data, top);
    num_entries = 0; /* calculate the real number of entries */
    while (data < top) {
        cmd = *data++;
        if (cmd & 0x80) {
            /* Copy instruction, skip it */
            if (cmd & 0x01) data++;
            if (cmd & 0x02) data++;
            if (cmd & 0x04) data++;
            if (cmd & 0x08) data++;
            if (cmd & 0x10) data++;
            if (cmd & 0x20) data++;
            if (cmd & 0x40) data++;
        } else if (cmd) {
            /* Insert instruction, we want to index these bytes */
            if (data + cmd > top) {
                /* Invalid insert, not enough bytes in the delta */
                break;
            }
            for (; cmd > RABIN_WINDOW; cmd -= RABIN_WINDOW,
                                       data += RABIN_WINDOW) {
                unsigned int val = 0;
                for (i = 1; i <= RABIN_WINDOW; i++)
                    val = ((val << 8) | data[i]) ^ T[val >> RABIN_SHIFT];
                if (val != prev_val) {
                    /* Only keep the first of consecutive data */
                    prev_val = val;
                    i = val & hmask;
                    entry->entry.ptr = data + RABIN_WINDOW;
                    entry->entry.val = val;
                    entry->entry.src = src;
                    entry->next = NULL;
                    /* Now we have to insert this entry at the end of the hash
                     * map
                     */
                    if (hash[i] == NULL) {
                        hash[i] = entry;
                    } else {
                        struct unpacked_index_entry *this;
                        for (this = hash[i];
                            this->next != NULL;
                            this = this->next) { /* No action */ }
                        this->next = entry;
                        this = entry;
                    }
                    hash_count[i]++;
                    entry++;
                    num_entries++;
                }
            }
            /* Move the data pointer by whatever remainder is left */
            data += cmd;
        } else {
            /*
             * cmd == 0 is reserved for future encoding
             * extensions. In the mean time we must fail when
             * encountering them (might be data corruption).
             */
            break;
        }
    }
    if (data != top) {
        /* Something was wrong with this delta */
        free(hash);
        free(hash_count);
        return NULL;
    }
    if (num_entries == 0) {
        /** Nothing to index **/
        free(hash);
        free(hash_count);
        return NULL;
    }
    if (old != NULL) {
        if (hmask == old->hash_mask) {
            /* The total hash table size didn't change, which means that
             * entries will end up in the same pages. We can do bulk-copying to
             * get the final output
             */
            index = create_index_from_old_and_hash(old, hash, hsize,
                                                   num_entries);
            free(hash_count);
            free(hash);
            if (!index) {
                return NULL;
            }
            index->last_src = src;
            return index;
        } else {
            total_num_entries = num_entries + old->num_entries;
            include_entries_from_index(hash, hash_count, hsize, entry, old);
        }
    } else {
        total_num_entries = num_entries;
    }

    total_num_entries = limit_hash_buckets(hash, hash_count, hsize,
                                           total_num_entries);
    free(hash_count);
    index = pack_delta_index(hash, hsize, total_num_entries);
    free(hash);
    if (!index) {
        return NULL;
    }
    index->last_src = src;
    return index;
}

void free_delta_index(struct delta_index *index)
{
    free(index);
}

unsigned long sizeof_delta_index(struct delta_index *index)
{
    if (index)
        return index->memsize;
    else
        return 0;
}

/*
 * The maximum size for any opcode sequence, including the initial header
 * plus Rabin window plus biggest copy.
 */
#define MAX_OP_SIZE (5 + 5 + 1 + RABIN_WINDOW + 7)

void *
create_delta(const struct delta_index *index,
             const void *trg_buf, unsigned long trg_size,
             unsigned long *delta_size, unsigned long max_size)
{
    unsigned int i, outpos, outsize, moff, msize, val;
    const struct source_info *msource;
    int inscnt;
    const unsigned char *ref_data, *ref_top, *data, *top;
    unsigned char *out;
    unsigned long source_size;

    if (!trg_buf || !trg_size)
        return NULL;
    if (index == NULL)
        return NULL;

    outpos = 0;
    outsize = 8192;
    if (max_size && outsize >= max_size)
        outsize = max_size + MAX_OP_SIZE + 1;
    out = malloc(outsize);
    if (!out)
        return NULL;

    /* store reference buffer size */
    source_size = index->last_src->size + index->last_src->agg_offset;
    i = source_size;
    while (i >= 0x80) {
        out[outpos++] = i | 0x80;
        i >>= 7;
    }
    out[outpos++] = i;

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

    data = trg_buf;
    top = (const unsigned char *) trg_buf + trg_size;

    /* Start the matching by filling out with a simple 'insert' instruction, of
     * the first RABIN_WINDOW bytes of the input.
     */
    outpos++; /* leave a byte for the insert command */
    val = 0;
    for (i = 0; i < RABIN_WINDOW && data < top; i++, data++) {
        out[outpos++] = *data;
        val = ((val << 8) | *data) ^ T[val >> RABIN_SHIFT];
    }
    /* we are now setup with an insert of 'i' bytes and val contains the RABIN
     * hash for those bytes, and data points to the RABIN_WINDOW+1 byte of
     * input.
     */
    inscnt = i;

    moff = 0;
    msize = 0;
    msource = NULL;
    while (data < top) {
        if (msize < 4096) {
            /* we don't have a 'worthy enough' match yet, so let's look for
             * one.
             */
            struct index_entry *entry;
            /* Shift the window by one byte. */
            val ^= U[data[-RABIN_WINDOW]];
            val = ((val << 8) | *data) ^ T[val >> RABIN_SHIFT];
            i = val & index->hash_mask;
            /* TODO: When using multiple indexes like this, the hash tables
             *       mapping val => index_entry become less efficient.
             *       You end up getting a lot more collisions in the hash,
             *       which doesn't actually lead to a entry->val match.
             */
            for (entry = index->hash[i]; entry < index->hash[i+1];
                 entry++) {
                const unsigned char *ref;
                const unsigned char *src;
                unsigned int ref_size;
                if (entry->val != val)
                    continue;
                ref = entry->ptr;
                src = data;
                ref_data = entry->src->buf;
                ref_top = ref_data + entry->src->size;
                ref_size = ref_top - ref;
                /* ref_size is the longest possible match that we could make
                 * here. If ref_size <= msize, then we know that we cannot
                 * match more bytes with this location that we have already
                 * matched.
                 */
                if (ref_size > top - src)
                    ref_size = top - src;
                if (ref_size <= msize)
                    break;
                /* See how many bytes actually match at this location. */
                while (ref_size-- && *src++ == *ref)
                    ref++;
                if (msize < ref - entry->ptr) {
                    /* this is our best match so far */
                    msize = ref - entry->ptr;
                    msource = entry->src;
                    moff = entry->ptr - ref_data;
                    if (msize >= 4096) /* good enough */
                        break;
                }
            }
        }

        if (msize < 4) {
            /* The best match right now is less than 4 bytes long. So just add
             * the current byte to the insert instruction. Increment the insert
             * counter, and copy the byte of data into the output buffer.
             */
            if (!inscnt)
                outpos++;
            out[outpos++] = *data++;
            inscnt++;
            if (inscnt == 0x7f) {
                /* We have a max length insert instruction, finalize it in the
                 * output.
                 */
                out[outpos - inscnt - 1] = inscnt;
                inscnt = 0;
            }
            msize = 0;
        } else {
            unsigned int left;
            unsigned char *op;

            if (inscnt) {
                ref_data = msource->buf;
                while (moff && ref_data[moff-1] == data[-1]) {
                    /* we can match one byte back */
                    msize++;
                    moff--;
                    data--;
                    outpos--;
                    if (--inscnt)
                        continue;
                    outpos--;  /* remove count slot */
                    inscnt--;  /* make it -1 */
                    break;
                }
                out[outpos - inscnt - 1] = inscnt;
                inscnt = 0;
            }

            /* A copy op is currently limited to 64KB (pack v2) */
            left = (msize < 0x10000) ? 0 : (msize - 0x10000);
            msize -= left;

            op = out + outpos++;
            i = 0x80;

            /* moff is the offset in the local structure, for encoding, we need
             * to push it into the global offset
             */
            assert(moff < msource->size);
            moff += msource->agg_offset;
            assert(moff + msize <= source_size);
            if (moff & 0x000000ff)
                out[outpos++] = moff >> 0,  i |= 0x01;
            if (moff & 0x0000ff00)
                out[outpos++] = moff >> 8,  i |= 0x02;
            if (moff & 0x00ff0000)
                out[outpos++] = moff >> 16, i |= 0x04;
            if (moff & 0xff000000)
                out[outpos++] = moff >> 24, i |= 0x08;
            /* Put it back into local coordinates, in case we have multiple
             * copies in a row.
             */
            moff -= msource->agg_offset;

            if (msize & 0x00ff)
                out[outpos++] = msize >> 0, i |= 0x10;
            if (msize & 0xff00)
                out[outpos++] = msize >> 8, i |= 0x20;

            *op = i;

            data += msize;
            moff += msize;
            msize = left;

            if (msize < 4096) {
                int j;
                val = 0;
                for (j = -RABIN_WINDOW; j < 0; j++)
                    val = ((val << 8) | data[j])
                          ^ T[val >> RABIN_SHIFT];
            }
        }

        if (outpos >= outsize - MAX_OP_SIZE) {
            void *tmp = out;
            outsize = outsize * 3 / 2;
            if (max_size && outsize >= max_size)
                outsize = max_size + MAX_OP_SIZE + 1;
            if (max_size && outpos > max_size)
                break;
            out = realloc(out, outsize);
            if (!out) {
                free(tmp);
                return NULL;
            }
        }
    }

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

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

    *delta_size = outpos;
    return out;
}

/* vim: et ts=4 sw=4 sts=4
 */