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/*
* Copyright (C) the libgit2 contributors. All rights reserved.
*
* This file is part of libgit2, distributed under the GNU GPL v2 with
* a Linking Exception. For full terms see the included COPYING file.
*/
#include "hashsig.h"
#include "fileops.h"
typedef uint32_t hashsig_t;
typedef uint64_t hashsig_state;
#define HASHSIG_SCALE 100
#define HASHSIG_HASH_WINDOW 32
#define HASHSIG_HASH_START 0
#define HASHSIG_HASH_SHIFT 5
#define HASHSIG_HASH_MASK 0x7FFFFFFF
#define HASHSIG_HEAP_SIZE ((1 << 7) - 1)
typedef int (GIT_STDLIB_CALL *hashsig_cmp)(const void *a, const void *b);
typedef struct {
int size, asize;
hashsig_cmp cmp;
hashsig_t values[HASHSIG_HEAP_SIZE];
} hashsig_heap;
typedef struct {
hashsig_state state, shift_n;
char window[HASHSIG_HASH_WINDOW];
int win_len, win_pos, saw_lf;
} hashsig_in_progress;
#define HASHSIG_IN_PROGRESS_INIT { HASHSIG_HASH_START, 1, {0}, 0, 0, 1 }
struct git_hashsig {
hashsig_heap mins;
hashsig_heap maxs;
git_hashsig_option_t opt;
int considered;
};
#define HEAP_LCHILD_OF(I) (((I)*2)+1)
#define HEAP_RCHILD_OF(I) (((I)*2)+2)
#define HEAP_PARENT_OF(I) (((I)-1)>>1)
static void hashsig_heap_init(hashsig_heap *h, hashsig_cmp cmp)
{
h->size = 0;
h->asize = HASHSIG_HEAP_SIZE;
h->cmp = cmp;
}
static int GIT_STDLIB_CALL hashsig_cmp_max(const void *a, const void *b)
{
hashsig_t av = *(const hashsig_t *)a, bv = *(const hashsig_t *)b;
return (av < bv) ? -1 : (av > bv) ? 1 : 0;
}
static int GIT_STDLIB_CALL hashsig_cmp_min(const void *a, const void *b)
{
hashsig_t av = *(const hashsig_t *)a, bv = *(const hashsig_t *)b;
return (av > bv) ? -1 : (av < bv) ? 1 : 0;
}
static void hashsig_heap_up(hashsig_heap *h, int el)
{
int parent_el = HEAP_PARENT_OF(el);
while (el > 0 && h->cmp(&h->values[parent_el], &h->values[el]) > 0) {
hashsig_t t = h->values[el];
h->values[el] = h->values[parent_el];
h->values[parent_el] = t;
el = parent_el;
parent_el = HEAP_PARENT_OF(el);
}
}
static void hashsig_heap_down(hashsig_heap *h, int el)
{
hashsig_t v, lv, rv;
/* 'el < h->size / 2' tests if el is bottom row of heap */
while (el < h->size / 2) {
int lel = HEAP_LCHILD_OF(el), rel = HEAP_RCHILD_OF(el), swapel;
v = h->values[el];
lv = h->values[lel];
rv = h->values[rel];
if (h->cmp(&v, &lv) < 0 && h->cmp(&v, &rv) < 0)
break;
swapel = (h->cmp(&lv, &rv) < 0) ? lel : rel;
h->values[el] = h->values[swapel];
h->values[swapel] = v;
el = swapel;
}
}
static void hashsig_heap_sort(hashsig_heap *h)
{
/* only need to do this at the end for signature comparison */
qsort(h->values, h->size, sizeof(hashsig_t), h->cmp);
}
static void hashsig_heap_insert(hashsig_heap *h, hashsig_t val)
{
/* if heap is full, pop top if new element should replace it */
if (h->size == h->asize && h->cmp(&val, &h->values[0]) > 0) {
h->size--;
h->values[0] = h->values[h->size];
hashsig_heap_down(h, 0);
}
/* if heap is not full, insert new element */
if (h->size < h->asize) {
h->values[h->size++] = val;
hashsig_heap_up(h, h->size - 1);
}
}
GIT_INLINE(bool) hashsig_include_char(
char ch, git_hashsig_option_t opt, int *saw_lf)
{
if ((opt & GIT_HASHSIG_IGNORE_WHITESPACE) && git__isspace(ch))
return false;
if (opt & GIT_HASHSIG_SMART_WHITESPACE) {
if (ch == '\r' || (*saw_lf && git__isspace(ch)))
return false;
*saw_lf = (ch == '\n');
}
return true;
}
static void hashsig_initial_window(
git_hashsig *sig,
const char **data,
size_t size,
hashsig_in_progress *prog)
{
hashsig_state state, shift_n;
int win_len;
const char *scan, *end;
/* init until we have processed at least HASHSIG_HASH_WINDOW data */
if (prog->win_len >= HASHSIG_HASH_WINDOW)
return;
state = prog->state;
win_len = prog->win_len;
shift_n = prog->shift_n;
scan = *data;
end = scan + size;
while (scan < end && win_len < HASHSIG_HASH_WINDOW) {
char ch = *scan++;
if (!hashsig_include_char(ch, sig->opt, &prog->saw_lf))
continue;
state = (state * HASHSIG_HASH_SHIFT + ch) & HASHSIG_HASH_MASK;
if (!win_len)
shift_n = 1;
else
shift_n = (shift_n * HASHSIG_HASH_SHIFT) & HASHSIG_HASH_MASK;
prog->window[win_len++] = ch;
}
/* insert initial hash if we just finished */
if (win_len == HASHSIG_HASH_WINDOW) {
hashsig_heap_insert(&sig->mins, (hashsig_t)state);
hashsig_heap_insert(&sig->maxs, (hashsig_t)state);
sig->considered = 1;
}
prog->state = state;
prog->win_len = win_len;
prog->shift_n = shift_n;
*data = scan;
}
static int hashsig_add_hashes(
git_hashsig *sig,
const char *data,
size_t size,
hashsig_in_progress *prog)
{
const char *scan = data, *end = data + size;
hashsig_state state, shift_n, rmv;
if (prog->win_len < HASHSIG_HASH_WINDOW)
hashsig_initial_window(sig, &scan, size, prog);
state = prog->state;
shift_n = prog->shift_n;
/* advance window, adding new chars and removing old */
for (; scan < end; ++scan) {
char ch = *scan;
if (!hashsig_include_char(ch, sig->opt, &prog->saw_lf))
continue;
rmv = shift_n * prog->window[prog->win_pos];
state = (state - rmv) & HASHSIG_HASH_MASK;
state = (state * HASHSIG_HASH_SHIFT) & HASHSIG_HASH_MASK;
state = (state + ch) & HASHSIG_HASH_MASK;
hashsig_heap_insert(&sig->mins, (hashsig_t)state);
hashsig_heap_insert(&sig->maxs, (hashsig_t)state);
sig->considered++;
prog->window[prog->win_pos] = ch;
prog->win_pos = (prog->win_pos + 1) % HASHSIG_HASH_WINDOW;
}
prog->state = state;
return 0;
}
static int hashsig_finalize_hashes(git_hashsig *sig)
{
if (sig->mins.size < HASHSIG_HEAP_SIZE) {
giterr_set(GITERR_INVALID,
"File too small for similarity signature calculation");
return GIT_EBUFS;
}
hashsig_heap_sort(&sig->mins);
hashsig_heap_sort(&sig->maxs);
return 0;
}
static git_hashsig *hashsig_alloc(git_hashsig_option_t opts)
{
git_hashsig *sig = git__calloc(1, sizeof(git_hashsig));
if (!sig)
return NULL;
hashsig_heap_init(&sig->mins, hashsig_cmp_min);
hashsig_heap_init(&sig->maxs, hashsig_cmp_max);
sig->opt = opts;
return sig;
}
int git_hashsig_create(
git_hashsig **out,
const char *buf,
size_t buflen,
git_hashsig_option_t opts)
{
int error;
hashsig_in_progress prog = HASHSIG_IN_PROGRESS_INIT;
git_hashsig *sig = hashsig_alloc(opts);
GITERR_CHECK_ALLOC(sig);
error = hashsig_add_hashes(sig, buf, buflen, &prog);
if (!error)
error = hashsig_finalize_hashes(sig);
if (!error)
*out = sig;
else
git_hashsig_free(sig);
return error;
}
int git_hashsig_create_fromfile(
git_hashsig **out,
const char *path,
git_hashsig_option_t opts)
{
char buf[4096];
ssize_t buflen = 0;
int error = 0, fd;
hashsig_in_progress prog = HASHSIG_IN_PROGRESS_INIT;
git_hashsig *sig = hashsig_alloc(opts);
GITERR_CHECK_ALLOC(sig);
if ((fd = git_futils_open_ro(path)) < 0) {
git__free(sig);
return fd;
}
while (!error) {
if ((buflen = p_read(fd, buf, sizeof(buf))) <= 0) {
if ((error = (int)buflen) < 0)
giterr_set(GITERR_OS,
"Read error on '%s' calculating similarity hashes", path);
break;
}
error = hashsig_add_hashes(sig, buf, buflen, &prog);
}
p_close(fd);
if (!error)
error = hashsig_finalize_hashes(sig);
if (!error)
*out = sig;
else
git_hashsig_free(sig);
return error;
}
void git_hashsig_free(git_hashsig *sig)
{
git__free(sig);
}
static int hashsig_heap_compare(const hashsig_heap *a, const hashsig_heap *b)
{
int matches = 0, i, j, cmp;
assert(a->cmp == b->cmp);
/* hash heaps are sorted - just look for overlap vs total */
for (i = 0, j = 0; i < a->size && j < b->size; ) {
cmp = a->cmp(&a->values[i], &b->values[j]);
if (cmp < 0)
++i;
else if (cmp > 0)
++j;
else {
++i; ++j; ++matches;
}
}
return HASHSIG_SCALE * (matches * 2) / (a->size + b->size);
}
int git_hashsig_compare(const git_hashsig *a, const git_hashsig *b)
{
return (hashsig_heap_compare(&a->mins, &b->mins) +
hashsig_heap_compare(&a->maxs, &b->maxs)) / 2;
}
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