/*
Copyright 2020 Google LLC
Use of this source code is governed by a BSD-style
license that can be found in the LICENSE file or at
https://developers.google.com/open-source/licenses/bsd
*/
/* record.c - methods for different types of records. */
#include "record.h"
#include "system.h"
#include "constants.h"
#include "reftable-error.h"
#include "basics.h"
static struct reftable_record_vtable *
reftable_record_vtable(struct reftable_record *rec);
static void *reftable_record_data(struct reftable_record *rec);
int get_var_int(uint64_t *dest, struct string_view *in)
{
int ptr = 0;
uint64_t val;
if (in->len == 0)
return -1;
val = in->buf[ptr] & 0x7f;
while (in->buf[ptr] & 0x80) {
ptr++;
if (ptr > in->len) {
return -1;
}
val = (val + 1) << 7 | (uint64_t)(in->buf[ptr] & 0x7f);
}
*dest = val;
return ptr + 1;
}
int put_var_int(struct string_view *dest, uint64_t val)
{
uint8_t buf[10] = { 0 };
int i = 9;
int n = 0;
buf[i] = (uint8_t)(val & 0x7f);
i--;
while (1) {
val >>= 7;
if (!val) {
break;
}
val--;
buf[i] = 0x80 | (uint8_t)(val & 0x7f);
i--;
}
n = sizeof(buf) - i - 1;
if (dest->len < n)
return -1;
memcpy(dest->buf, &buf[i + 1], n);
return n;
}
int reftable_is_block_type(uint8_t typ)
{
switch (typ) {
case BLOCK_TYPE_REF:
case BLOCK_TYPE_LOG:
case BLOCK_TYPE_OBJ:
case BLOCK_TYPE_INDEX:
return 1;
}
return 0;
}
uint8_t *reftable_ref_record_val1(const struct reftable_ref_record *rec)
{
switch (rec->value_type) {
case REFTABLE_REF_VAL1:
return rec->value.val1;
case REFTABLE_REF_VAL2:
return rec->value.val2.value;
default:
return NULL;
}
}
uint8_t *reftable_ref_record_val2(const struct reftable_ref_record *rec)
{
switch (rec->value_type) {
case REFTABLE_REF_VAL2:
return rec->value.val2.target_value;
default:
return NULL;
}
}
static int decode_string(struct strbuf *dest, struct string_view in)
{
int start_len = in.len;
uint64_t tsize = 0;
int n = get_var_int(&tsize, &in);
if (n <= 0)
return -1;
string_view_consume(&in, n);
if (in.len < tsize)
return -1;
strbuf_reset(dest);
strbuf_add(dest, in.buf, tsize);
string_view_consume(&in, tsize);
return start_len - in.len;
}
static int encode_string(char *str, struct string_view s)
{
struct string_view start = s;
int l = strlen(str);
int n = put_var_int(&s, l);
if (n < 0)
return -1;
string_view_consume(&s, n);
if (s.len < l)
return -1;
memcpy(s.buf, str, l);
string_view_consume(&s, l);
return start.len - s.len;
}
int reftable_encode_key(int *restart, struct string_view dest,
struct strbuf prev_key, struct strbuf key,
uint8_t extra)
{
struct string_view start = dest;
int prefix_len = common_prefix_size(&prev_key, &key);
uint64_t suffix_len = key.len - prefix_len;
int n = put_var_int(&dest, (uint64_t)prefix_len);
if (n < 0)
return -1;
string_view_consume(&dest, n);
*restart = (prefix_len == 0);
n = put_var_int(&dest, suffix_len << 3 | (uint64_t)extra);
if (n < 0)
return -1;
string_view_consume(&dest, n);
if (dest.len < suffix_len)
return -1;
memcpy(dest.buf, key.buf + prefix_len, suffix_len);
string_view_consume(&dest, suffix_len);
return start.len - dest.len;
}
int reftable_decode_key(struct strbuf *key, uint8_t *extra,
struct strbuf last_key, struct string_view in)
{
int start_len = in.len;
uint64_t prefix_len = 0;
uint64_t suffix_len = 0;
int n = get_var_int(&prefix_len, &in);
if (n < 0)
return -1;
string_view_consume(&in, n);
if (prefix_len > last_key.len)
return -1;
n = get_var_int(&suffix_len, &in);
if (n <= 0)
return -1;
string_view_consume(&in, n);
*extra = (uint8_t)(suffix_len & 0x7);
suffix_len >>= 3;
if (in.len < suffix_len)
return -1;
strbuf_reset(key);
strbuf_add(key, last_key.buf, prefix_len);
strbuf_add(key, in.buf, suffix_len);
string_view_consume(&in, suffix_len);
return start_len - in.len;
}
static void reftable_ref_record_key(const void *r, struct strbuf *dest)
{
const struct reftable_ref_record *rec =
(const struct reftable_ref_record *)r;
strbuf_reset(dest);
strbuf_addstr(dest, rec->refname);
}
static void reftable_ref_record_copy_from(void *rec, const void *src_rec,
int hash_size)
{
struct reftable_ref_record *ref = rec;
const struct reftable_ref_record *src = src_rec;
assert(hash_size > 0);
/* This is simple and correct, but we could probably reuse the hash
* fields. */
reftable_ref_record_release(ref);
if (src->refname) {
ref->refname = xstrdup(src->refname);
}
ref->update_index = src->update_index;
ref->value_type = src->value_type;
switch (src->value_type) {
case REFTABLE_REF_DELETION:
break;
case REFTABLE_REF_VAL1:
ref->value.val1 = reftable_malloc(hash_size);
memcpy(ref->value.val1, src->value.val1, hash_size);
break;
case REFTABLE_REF_VAL2:
ref->value.val2.value = reftable_malloc(hash_size);
memcpy(ref->value.val2.value, src->value.val2.value, hash_size);
ref->value.val2.target_value = reftable_malloc(hash_size);
memcpy(ref->value.val2.target_value,
src->value.val2.target_value, hash_size);
break;
case REFTABLE_REF_SYMREF:
ref->value.symref = xstrdup(src->value.symref);
break;
}
}
static char hexdigit(int c)
{
if (c <= 9)
return '0' + c;
return 'a' + (c - 10);
}
static void hex_format(char *dest, uint8_t *src, int hash_size)
{
assert(hash_size > 0);
if (src) {
int i = 0;
for (i = 0; i < hash_size; i++) {
dest[2 * i] = hexdigit(src[i] >> 4);
dest[2 * i + 1] = hexdigit(src[i] & 0xf);
}
dest[2 * hash_size] = 0;
}
}
static void reftable_ref_record_print_sz(const struct reftable_ref_record *ref,
int hash_size)
{
char hex[GIT_MAX_HEXSZ + 1] = { 0 }; /* BUG */
printf("ref{%s(%" PRIu64 ") ", ref->refname, ref->update_index);
switch (ref->value_type) {
case REFTABLE_REF_SYMREF:
printf("=> %s", ref->value.symref);
break;
case REFTABLE_REF_VAL2:
hex_format(hex, ref->value.val2.value, hash_size);
printf("val 2 %s", hex);
hex_format(hex, ref->value.val2.target_value,
hash_size);
printf("(T %s)", hex);
break;
case REFTABLE_REF_VAL1:
hex_format(hex, ref->value.val1, hash_size);
printf("val 1 %s", hex);
break;
case REFTABLE_REF_DELETION:
printf("delete");
break;
}
printf("}\n");
}
void reftable_ref_record_print(const struct reftable_ref_record *ref,
uint32_t hash_id) {
reftable_ref_record_print_sz(ref, hash_size(hash_id));
}
static void reftable_ref_record_release_void(void *rec)
{
reftable_ref_record_release(rec);
}
void reftable_ref_record_release(struct reftable_ref_record *ref)
{
switch (ref->value_type) {
case REFTABLE_REF_SYMREF:
reftable_free(ref->value.symref);
break;
case REFTABLE_REF_VAL2:
reftable_free(ref->value.val2.target_value);
reftable_free(ref->value.val2.value);
break;
case REFTABLE_REF_VAL1:
reftable_free(ref->value.val1);
break;
case REFTABLE_REF_DELETION:
break;
default:
abort();
}
reftable_free(ref->refname);
memset(ref, 0, sizeof(struct reftable_ref_record));
}
static uint8_t reftable_ref_record_val_type(const void *rec)
{
const struct reftable_ref_record *r =
(const struct reftable_ref_record *)rec;
return r->value_type;
}
static int reftable_ref_record_encode(const void *rec, struct string_view s,
int hash_size)
{
const struct reftable_ref_record *r =
(const struct reftable_ref_record *)rec;
struct string_view start = s;
int n = put_var_int(&s, r->update_index);
assert(hash_size > 0);
if (n < 0)
return -1;
string_view_consume(&s, n);
switch (r->value_type) {
case REFTABLE_REF_SYMREF:
n = encode_string(r->value.symref, s);
if (n < 0) {
return -1;
}
string_view_consume(&s, n);
break;
case REFTABLE_REF_VAL2:
if (s.len < 2 * hash_size) {
return -1;
}
memcpy(s.buf, r->value.val2.value, hash_size);
string_view_consume(&s, hash_size);
memcpy(s.buf, r->value.val2.target_value, hash_size);
string_view_consume(&s, hash_size);
break;
case REFTABLE_REF_VAL1:
if (s.len < hash_size) {
return -1;
}
memcpy(s.buf, r->value.val1, hash_size);
string_view_consume(&s, hash_size);
break;
case REFTABLE_REF_DELETION:
break;
default:
abort();
}
return start.len - s.len;
}
static int reftable_ref_record_decode(void *rec, struct strbuf key,
uint8_t val_type, struct string_view in,
int hash_size)
{
struct reftable_ref_record *r = rec;
struct string_view start = in;
uint64_t update_index = 0;
int n = get_var_int(&update_index, &in);
if (n < 0)
return n;
string_view_consume(&in, n);
reftable_ref_record_release(r);
assert(hash_size > 0);
r->refname = reftable_realloc(r->refname, key.len + 1);
memcpy(r->refname, key.buf, key.len);
r->update_index = update_index;
r->refname[key.len] = 0;
r->value_type = val_type;
switch (val_type) {
case REFTABLE_REF_VAL1:
if (in.len < hash_size) {
return -1;
}
r->value.val1 = reftable_malloc(hash_size);
memcpy(r->value.val1, in.buf, hash_size);
string_view_consume(&in, hash_size);
break;
case REFTABLE_REF_VAL2:
if (in.len < 2 * hash_size) {
return -1;
}
r->value.val2.value = reftable_malloc(hash_size);
memcpy(r->value.val2.value, in.buf, hash_size);
string_view_consume(&in, hash_size);
r->value.val2.target_value = reftable_malloc(hash_size);
memcpy(r->value.val2.target_value, in.buf, hash_size);
string_view_consume(&in, hash_size);
break;
case REFTABLE_REF_SYMREF: {
struct strbuf dest = STRBUF_INIT;
int n = decode_string(&dest, in);
if (n < 0) {
return -1;
}
string_view_consume(&in, n);
r->value.symref = dest.buf;
} break;
case REFTABLE_REF_DELETION:
break;
default:
abort();
break;
}
return start.len - in.len;
}
static int reftable_ref_record_is_deletion_void(const void *p)
{
return reftable_ref_record_is_deletion(
(const struct reftable_ref_record *)p);
}
static int reftable_ref_record_equal_void(const void *a,
const void *b, int hash_size)
{
struct reftable_ref_record *ra = (struct reftable_ref_record *) a;
struct reftable_ref_record *rb = (struct reftable_ref_record *) b;
return reftable_ref_record_equal(ra, rb, hash_size);
}
static void reftable_ref_record_print_void(const void *rec,
int hash_size)
{
reftable_ref_record_print_sz((struct reftable_ref_record *) rec, hash_size);
}
static struct reftable_record_vtable reftable_ref_record_vtable = {
.key = &reftable_ref_record_key,
.type = BLOCK_TYPE_REF,
.copy_from = &reftable_ref_record_copy_from,
.val_type = &reftable_ref_record_val_type,
.encode = &reftable_ref_record_encode,
.decode = &reftable_ref_record_decode,
.release = &reftable_ref_record_release_void,
.is_deletion = &reftable_ref_record_is_deletion_void,
.equal = &reftable_ref_record_equal_void,
.print = &reftable_ref_record_print_void,
};
static void reftable_obj_record_key(const void *r, struct strbuf *dest)
{
const struct reftable_obj_record *rec =
(const struct reftable_obj_record *)r;
strbuf_reset(dest);
strbuf_add(dest, rec->hash_prefix, rec->hash_prefix_len);
}
static void reftable_obj_record_release(void *rec)
{
struct reftable_obj_record *obj = rec;
FREE_AND_NULL(obj->hash_prefix);
FREE_AND_NULL(obj->offsets);
memset(obj, 0, sizeof(struct reftable_obj_record));
}
static void reftable_obj_record_print(const void *rec, int hash_size)
{
const struct reftable_obj_record *obj = rec;
char hex[GIT_MAX_HEXSZ + 1] = { 0 };
struct strbuf offset_str = STRBUF_INIT;
int i;
for (i = 0; i < obj->offset_len; i++)
strbuf_addf(&offset_str, "%" PRIu64 " ", obj->offsets[i]);
hex_format(hex, obj->hash_prefix, obj->hash_prefix_len);
printf("prefix %s (len %d), offsets [%s]\n",
hex, obj->hash_prefix_len, offset_str.buf);
strbuf_release(&offset_str);
}
static void reftable_obj_record_copy_from(void *rec, const void *src_rec,
int hash_size)
{
struct reftable_obj_record *obj = rec;
const struct reftable_obj_record *src =
(const struct reftable_obj_record *)src_rec;
reftable_obj_record_release(obj);
obj->hash_prefix = reftable_malloc(src->hash_prefix_len);
obj->hash_prefix_len = src->hash_prefix_len;
if (src->hash_prefix_len)
memcpy(obj->hash_prefix, src->hash_prefix, obj->hash_prefix_len);
obj->offsets = reftable_malloc(src->offset_len * sizeof(uint64_t));
obj->offset_len = src->offset_len;
COPY_ARRAY(obj->offsets, src->offsets, src->offset_len);
}
static uint8_t reftable_obj_record_val_type(const void *rec)
{
const struct reftable_obj_record *r = rec;
if (r->offset_len > 0 && r->offset_len < 8)
return r->offset_len;
return 0;
}
static int reftable_obj_record_encode(const void *rec, struct string_view s,
int hash_size)
{
const struct reftable_obj_record *r = rec;
struct string_view start = s;
int i = 0;
int n = 0;
uint64_t last = 0;
if (r->offset_len == 0 || r->offset_len >= 8) {
n = put_var_int(&s, r->offset_len);
if (n < 0) {
return -1;
}
string_view_consume(&s, n);
}
if (r->offset_len == 0)
return start.len - s.len;
n = put_var_int(&s, r->offsets[0]);
if (n < 0)
return -1;
string_view_consume(&s, n);
last = r->offsets[0];
for (i = 1; i < r->offset_len; i++) {
int n = put_var_int(&s, r->offsets[i] - last);
if (n < 0) {
return -1;
}
string_view_consume(&s, n);
last = r->offsets[i];
}
return start.len - s.len;
}
static int reftable_obj_record_decode(void *rec, struct strbuf key,
uint8_t val_type, struct string_view in,
int hash_size)
{
struct string_view start = in;
struct reftable_obj_record *r = rec;
uint64_t count = val_type;
int n = 0;
uint64_t last;
int j;
r->hash_prefix = reftable_malloc(key.len);
memcpy(r->hash_prefix, key.buf, key.len);
r->hash_prefix_len = key.len;
if (val_type == 0) {
n = get_var_int(&count, &in);
if (n < 0) {
return n;
}
string_view_consume(&in, n);
}
r->offsets = NULL;
r->offset_len = 0;
if (count == 0)
return start.len - in.len;
r->offsets = reftable_malloc(count * sizeof(uint64_t));
r->offset_len = count;
n = get_var_int(&r->offsets[0], &in);
if (n < 0)
return n;
string_view_consume(&in, n);
last = r->offsets[0];
j = 1;
while (j < count) {
uint64_t delta = 0;
int n = get_var_int(&delta, &in);
if (n < 0) {
return n;
}
string_view_consume(&in, n);
last = r->offsets[j] = (delta + last);
j++;
}
return start.len - in.len;
}
static int not_a_deletion(const void *p)
{
return 0;
}
static int reftable_obj_record_equal_void(const void *a, const void *b, int hash_size)
{
struct reftable_obj_record *ra = (struct reftable_obj_record *) a;
struct reftable_obj_record *rb = (struct reftable_obj_record *) b;
if (ra->hash_prefix_len != rb->hash_prefix_len
|| ra->offset_len != rb->offset_len)
return 0;
if (ra->hash_prefix_len &&
memcmp(ra->hash_prefix, rb->hash_prefix, ra->hash_prefix_len))
return 0;
if (ra->offset_len &&
memcmp(ra->offsets, rb->offsets, ra->offset_len * sizeof(uint64_t)))
return 0;
return 1;
}
static struct reftable_record_vtable reftable_obj_record_vtable = {
.key = &reftable_obj_record_key,
.type = BLOCK_TYPE_OBJ,
.copy_from = &reftable_obj_record_copy_from,
.val_type = &reftable_obj_record_val_type,
.encode = &reftable_obj_record_encode,
.decode = &reftable_obj_record_decode,
.release = &reftable_obj_record_release,
.is_deletion = ¬_a_deletion,
.equal = &reftable_obj_record_equal_void,
.print = &reftable_obj_record_print,
};
static void reftable_log_record_print_sz(struct reftable_log_record *log,
int hash_size)
{
char hex[GIT_MAX_HEXSZ + 1] = { 0 };
switch (log->value_type) {
case REFTABLE_LOG_DELETION:
printf("log{%s(%" PRIu64 ") delete\n", log->refname,
log->update_index);
break;
case REFTABLE_LOG_UPDATE:
printf("log{%s(%" PRIu64 ") %s <%s> %" PRIu64 " %04d\n",
log->refname, log->update_index,
log->value.update.name ? log->value.update.name : "",
log->value.update.email ? log->value.update.email : "",
log->value.update.time,
log->value.update.tz_offset);
hex_format(hex, log->value.update.old_hash, hash_size);
printf("%s => ", hex);
hex_format(hex, log->value.update.new_hash, hash_size);
printf("%s\n\n%s\n}\n", hex,
log->value.update.message ? log->value.update.message : "");
break;
}
}
void reftable_log_record_print(struct reftable_log_record *log,
uint32_t hash_id)
{
reftable_log_record_print_sz(log, hash_size(hash_id));
}
static void reftable_log_record_key(const void *r, struct strbuf *dest)
{
const struct reftable_log_record *rec =
(const struct reftable_log_record *)r;
int len = strlen(rec->refname);
uint8_t i64[8];
uint64_t ts = 0;
strbuf_reset(dest);
strbuf_add(dest, (uint8_t *)rec->refname, len + 1);
ts = (~ts) - rec->update_index;
put_be64(&i64[0], ts);
strbuf_add(dest, i64, sizeof(i64));
}
static void reftable_log_record_copy_from(void *rec, const void *src_rec,
int hash_size)
{
struct reftable_log_record *dst = rec;
const struct reftable_log_record *src =
(const struct reftable_log_record *)src_rec;
reftable_log_record_release(dst);
*dst = *src;
if (dst->refname) {
dst->refname = xstrdup(dst->refname);
}
switch (dst->value_type) {
case REFTABLE_LOG_DELETION:
break;
case REFTABLE_LOG_UPDATE:
if (dst->value.update.email) {
dst->value.update.email =
xstrdup(dst->value.update.email);
}
if (dst->value.update.name) {
dst->value.update.name =
xstrdup(dst->value.update.name);
}
if (dst->value.update.message) {
dst->value.update.message =
xstrdup(dst->value.update.message);
}
if (dst->value.update.new_hash) {
dst->value.update.new_hash = reftable_malloc(hash_size);
memcpy(dst->value.update.new_hash,
src->value.update.new_hash, hash_size);
}
if (dst->value.update.old_hash) {
dst->value.update.old_hash = reftable_malloc(hash_size);
memcpy(dst->value.update.old_hash,
src->value.update.old_hash, hash_size);
}
break;
}
}
static void reftable_log_record_release_void(void *rec)
{
struct reftable_log_record *r = rec;
reftable_log_record_release(r);
}
void reftable_log_record_release(struct reftable_log_record *r)
{
reftable_free(r->refname);
switch (r->value_type) {
case REFTABLE_LOG_DELETION:
break;
case REFTABLE_LOG_UPDATE:
reftable_free(r->value.update.new_hash);
reftable_free(r->value.update.old_hash);
reftable_free(r->value.update.name);
reftable_free(r->value.update.email);
reftable_free(r->value.update.message);
break;
}
memset(r, 0, sizeof(struct reftable_log_record));
}
static uint8_t reftable_log_record_val_type(const void *rec)
{
const struct reftable_log_record *log =
(const struct reftable_log_record *)rec;
return reftable_log_record_is_deletion(log) ? 0 : 1;
}
static uint8_t zero[GIT_SHA256_RAWSZ] = { 0 };
static int reftable_log_record_encode(const void *rec, struct string_view s,
int hash_size)
{
const struct reftable_log_record *r = rec;
struct string_view start = s;
int n = 0;
uint8_t *oldh = NULL;
uint8_t *newh = NULL;
if (reftable_log_record_is_deletion(r))
return 0;
oldh = r->value.update.old_hash;
newh = r->value.update.new_hash;
if (!oldh) {
oldh = zero;
}
if (!newh) {
newh = zero;
}
if (s.len < 2 * hash_size)
return -1;
memcpy(s.buf, oldh, hash_size);
memcpy(s.buf + hash_size, newh, hash_size);
string_view_consume(&s, 2 * hash_size);
n = encode_string(r->value.update.name ? r->value.update.name : "", s);
if (n < 0)
return -1;
string_view_consume(&s, n);
n = encode_string(r->value.update.email ? r->value.update.email : "",
s);
if (n < 0)
return -1;
string_view_consume(&s, n);
n = put_var_int(&s, r->value.update.time);
if (n < 0)
return -1;
string_view_consume(&s, n);
if (s.len < 2)
return -1;
put_be16(s.buf, r->value.update.tz_offset);
string_view_consume(&s, 2);
n = encode_string(
r->value.update.message ? r->value.update.message : "", s);
if (n < 0)
return -1;
string_view_consume(&s, n);
return start.len - s.len;
}
static int reftable_log_record_decode(void *rec, struct strbuf key,
uint8_t val_type, struct string_view in,
int hash_size)
{
struct string_view start = in;
struct reftable_log_record *r = rec;
uint64_t max = 0;
uint64_t ts = 0;
struct strbuf dest = STRBUF_INIT;
int n;
if (key.len <= 9 || key.buf[key.len - 9] != 0)
return REFTABLE_FORMAT_ERROR;
r->refname = reftable_realloc(r->refname, key.len - 8);
memcpy(r->refname, key.buf, key.len - 8);
ts = get_be64(key.buf + key.len - 8);
r->update_index = (~max) - ts;
if (val_type != r->value_type) {
switch (r->value_type) {
case REFTABLE_LOG_UPDATE:
FREE_AND_NULL(r->value.update.old_hash);
FREE_AND_NULL(r->value.update.new_hash);
FREE_AND_NULL(r->value.update.message);
FREE_AND_NULL(r->value.update.email);
FREE_AND_NULL(r->value.update.name);
break;
case REFTABLE_LOG_DELETION:
break;
}
}
r->value_type = val_type;
if (val_type == REFTABLE_LOG_DELETION)
return 0;
if (in.len < 2 * hash_size)
return REFTABLE_FORMAT_ERROR;
r->value.update.old_hash =
reftable_realloc(r->value.update.old_hash, hash_size);
r->value.update.new_hash =
reftable_realloc(r->value.update.new_hash, hash_size);
memcpy(r->value.update.old_hash, in.buf, hash_size);
memcpy(r->value.update.new_hash, in.buf + hash_size, hash_size);
string_view_consume(&in, 2 * hash_size);
n = decode_string(&dest, in);
if (n < 0)
goto done;
string_view_consume(&in, n);
r->value.update.name =
reftable_realloc(r->value.update.name, dest.len + 1);
memcpy(r->value.update.name, dest.buf, dest.len);
r->value.update.name[dest.len] = 0;
strbuf_reset(&dest);
n = decode_string(&dest, in);
if (n < 0)
goto done;
string_view_consume(&in, n);
r->value.update.email =
reftable_realloc(r->value.update.email, dest.len + 1);
memcpy(r->value.update.email, dest.buf, dest.len);
r->value.update.email[dest.len] = 0;
ts = 0;
n = get_var_int(&ts, &in);
if (n < 0)
goto done;
string_view_consume(&in, n);
r->value.update.time = ts;
if (in.len < 2)
goto done;
r->value.update.tz_offset = get_be16(in.buf);
string_view_consume(&in, 2);
strbuf_reset(&dest);
n = decode_string(&dest, in);
if (n < 0)
goto done;
string_view_consume(&in, n);
r->value.update.message =
reftable_realloc(r->value.update.message, dest.len + 1);
memcpy(r->value.update.message, dest.buf, dest.len);
r->value.update.message[dest.len] = 0;
strbuf_release(&dest);
return start.len - in.len;
done:
strbuf_release(&dest);
return REFTABLE_FORMAT_ERROR;
}
static int null_streq(char *a, char *b)
{
char *empty = "";
if (!a)
a = empty;
if (!b)
b = empty;
return 0 == strcmp(a, b);
}
static int zero_hash_eq(uint8_t *a, uint8_t *b, int sz)
{
if (!a)
a = zero;
if (!b)
b = zero;
return !memcmp(a, b, sz);
}
static int reftable_log_record_equal_void(const void *a,
const void *b, int hash_size)
{
return reftable_log_record_equal((struct reftable_log_record *) a,
(struct reftable_log_record *) b,
hash_size);
}
int reftable_log_record_equal(const struct reftable_log_record *a,
const struct reftable_log_record *b, int hash_size)
{
if (!(null_streq(a->refname, b->refname) &&
a->update_index == b->update_index &&
a->value_type == b->value_type))
return 0;
switch (a->value_type) {
case REFTABLE_LOG_DELETION:
return 1;
case REFTABLE_LOG_UPDATE:
return null_streq(a->value.update.name, b->value.update.name) &&
a->value.update.time == b->value.update.time &&
a->value.update.tz_offset == b->value.update.tz_offset &&
null_streq(a->value.update.email,
b->value.update.email) &&
null_streq(a->value.update.message,
b->value.update.message) &&
zero_hash_eq(a->value.update.old_hash,
b->value.update.old_hash, hash_size) &&
zero_hash_eq(a->value.update.new_hash,
b->value.update.new_hash, hash_size);
}
abort();
}
static int reftable_log_record_is_deletion_void(const void *p)
{
return reftable_log_record_is_deletion(
(const struct reftable_log_record *)p);
}
static void reftable_log_record_print_void(const void *rec, int hash_size)
{
reftable_log_record_print_sz((struct reftable_log_record*)rec, hash_size);
}
static struct reftable_record_vtable reftable_log_record_vtable = {
.key = &reftable_log_record_key,
.type = BLOCK_TYPE_LOG,
.copy_from = &reftable_log_record_copy_from,
.val_type = &reftable_log_record_val_type,
.encode = &reftable_log_record_encode,
.decode = &reftable_log_record_decode,
.release = &reftable_log_record_release_void,
.is_deletion = &reftable_log_record_is_deletion_void,
.equal = &reftable_log_record_equal_void,
.print = &reftable_log_record_print_void,
};
static void reftable_index_record_key(const void *r, struct strbuf *dest)
{
const struct reftable_index_record *rec = r;
strbuf_reset(dest);
strbuf_addbuf(dest, &rec->last_key);
}
static void reftable_index_record_copy_from(void *rec, const void *src_rec,
int hash_size)
{
struct reftable_index_record *dst = rec;
const struct reftable_index_record *src = src_rec;
strbuf_reset(&dst->last_key);
strbuf_addbuf(&dst->last_key, &src->last_key);
dst->offset = src->offset;
}
static void reftable_index_record_release(void *rec)
{
struct reftable_index_record *idx = rec;
strbuf_release(&idx->last_key);
}
static uint8_t reftable_index_record_val_type(const void *rec)
{
return 0;
}
static int reftable_index_record_encode(const void *rec, struct string_view out,
int hash_size)
{
const struct reftable_index_record *r =
(const struct reftable_index_record *)rec;
struct string_view start = out;
int n = put_var_int(&out, r->offset);
if (n < 0)
return n;
string_view_consume(&out, n);
return start.len - out.len;
}
static int reftable_index_record_decode(void *rec, struct strbuf key,
uint8_t val_type, struct string_view in,
int hash_size)
{
struct string_view start = in;
struct reftable_index_record *r = rec;
int n = 0;
strbuf_reset(&r->last_key);
strbuf_addbuf(&r->last_key, &key);
n = get_var_int(&r->offset, &in);
if (n < 0)
return n;
string_view_consume(&in, n);
return start.len - in.len;
}
static int reftable_index_record_equal(const void *a, const void *b, int hash_size)
{
struct reftable_index_record *ia = (struct reftable_index_record *) a;
struct reftable_index_record *ib = (struct reftable_index_record *) b;
return ia->offset == ib->offset && !strbuf_cmp(&ia->last_key, &ib->last_key);
}
static void reftable_index_record_print(const void *rec, int hash_size)
{
const struct reftable_index_record *idx = rec;
/* TODO: escape null chars? */
printf("\"%s\" %" PRIu64 "\n", idx->last_key.buf, idx->offset);
}
static struct reftable_record_vtable reftable_index_record_vtable = {
.key = &reftable_index_record_key,
.type = BLOCK_TYPE_INDEX,
.copy_from = &reftable_index_record_copy_from,
.val_type = &reftable_index_record_val_type,
.encode = &reftable_index_record_encode,
.decode = &reftable_index_record_decode,
.release = &reftable_index_record_release,
.is_deletion = ¬_a_deletion,
.equal = &reftable_index_record_equal,
.print = &reftable_index_record_print,
};
void reftable_record_key(struct reftable_record *rec, struct strbuf *dest)
{
reftable_record_vtable(rec)->key(reftable_record_data(rec), dest);
}
uint8_t reftable_record_type(struct reftable_record *rec)
{
return rec->type;
}
int reftable_record_encode(struct reftable_record *rec, struct string_view dest,
int hash_size)
{
return reftable_record_vtable(rec)->encode(reftable_record_data(rec),
dest, hash_size);
}
void reftable_record_copy_from(struct reftable_record *rec,
struct reftable_record *src, int hash_size)
{
assert(src->type == rec->type);
reftable_record_vtable(rec)->copy_from(reftable_record_data(rec),
reftable_record_data(src),
hash_size);
}
uint8_t reftable_record_val_type(struct reftable_record *rec)
{
return reftable_record_vtable(rec)->val_type(reftable_record_data(rec));
}
int reftable_record_decode(struct reftable_record *rec, struct strbuf key,
uint8_t extra, struct string_view src, int hash_size)
{
return reftable_record_vtable(rec)->decode(reftable_record_data(rec),
key, extra, src, hash_size);
}
void reftable_record_release(struct reftable_record *rec)
{
reftable_record_vtable(rec)->release(reftable_record_data(rec));
}
int reftable_record_is_deletion(struct reftable_record *rec)
{
return reftable_record_vtable(rec)->is_deletion(
reftable_record_data(rec));
}
int reftable_record_equal(struct reftable_record *a, struct reftable_record *b, int hash_size)
{
if (a->type != b->type)
return 0;
return reftable_record_vtable(a)->equal(
reftable_record_data(a), reftable_record_data(b), hash_size);
}
static int hash_equal(uint8_t *a, uint8_t *b, int hash_size)
{
if (a && b)
return !memcmp(a, b, hash_size);
return a == b;
}
int reftable_ref_record_equal(const struct reftable_ref_record *a,
const struct reftable_ref_record *b, int hash_size)
{
assert(hash_size > 0);
if (!null_streq(a->refname, b->refname))
return 0;
if (a->update_index != b->update_index ||
a->value_type != b->value_type)
return 0;
switch (a->value_type) {
case REFTABLE_REF_SYMREF:
return !strcmp(a->value.symref, b->value.symref);
case REFTABLE_REF_VAL2:
return hash_equal(a->value.val2.value, b->value.val2.value,
hash_size) &&
hash_equal(a->value.val2.target_value,
b->value.val2.target_value, hash_size);
case REFTABLE_REF_VAL1:
return hash_equal(a->value.val1, b->value.val1, hash_size);
case REFTABLE_REF_DELETION:
return 1;
default:
abort();
}
}
int reftable_ref_record_compare_name(const void *a, const void *b)
{
return strcmp(((struct reftable_ref_record *)a)->refname,
((struct reftable_ref_record *)b)->refname);
}
int reftable_ref_record_is_deletion(const struct reftable_ref_record *ref)
{
return ref->value_type == REFTABLE_REF_DELETION;
}
int reftable_log_record_compare_key(const void *a, const void *b)
{
const struct reftable_log_record *la = a;
const struct reftable_log_record *lb = b;
int cmp = strcmp(la->refname, lb->refname);
if (cmp)
return cmp;
if (la->update_index > lb->update_index)
return -1;
return (la->update_index < lb->update_index) ? 1 : 0;
}
int reftable_log_record_is_deletion(const struct reftable_log_record *log)
{
return (log->value_type == REFTABLE_LOG_DELETION);
}
void string_view_consume(struct string_view *s, int n)
{
s->buf += n;
s->len -= n;
}
static void *reftable_record_data(struct reftable_record *rec)
{
switch (rec->type) {
case BLOCK_TYPE_REF:
return &rec->u.ref;
case BLOCK_TYPE_LOG:
return &rec->u.log;
case BLOCK_TYPE_INDEX:
return &rec->u.idx;
case BLOCK_TYPE_OBJ:
return &rec->u.obj;
}
abort();
}
static struct reftable_record_vtable *
reftable_record_vtable(struct reftable_record *rec)
{
switch (rec->type) {
case BLOCK_TYPE_REF:
return &reftable_ref_record_vtable;
case BLOCK_TYPE_LOG:
return &reftable_log_record_vtable;
case BLOCK_TYPE_INDEX:
return &reftable_index_record_vtable;
case BLOCK_TYPE_OBJ:
return &reftable_obj_record_vtable;
}
abort();
}
struct reftable_record reftable_new_record(uint8_t typ)
{
struct reftable_record clean = {
.type = typ,
};
/* the following is involved, but the naive solution (just return
* `clean` as is, except for BLOCK_TYPE_INDEX), returns a garbage
* clean.u.obj.offsets pointer on Windows VS CI. Go figure.
*/
switch (typ) {
case BLOCK_TYPE_OBJ:
{
struct reftable_obj_record obj = { 0 };
clean.u.obj = obj;
break;
}
case BLOCK_TYPE_INDEX:
{
struct reftable_index_record idx = {
.last_key = STRBUF_INIT,
};
clean.u.idx = idx;
break;
}
case BLOCK_TYPE_REF:
{
struct reftable_ref_record ref = { 0 };
clean.u.ref = ref;
break;
}
case BLOCK_TYPE_LOG:
{
struct reftable_log_record log = { 0 };
clean.u.log = log;
break;
}
}
return clean;
}
void reftable_record_print(struct reftable_record *rec, int hash_size)
{
printf("'%c': ", rec->type);
reftable_record_vtable(rec)->print(reftable_record_data(rec), hash_size);
}