* String value with length less than or equal to 16383 bytes (14 bits).
* |10______|qqqqqqqq|rrrrrrrr|ssssssss|tttttttt| - 5 bytes
* String value with length greater than or equal to 16384 bytes.
- * |1100____| - 1 byte
+ * |11000000| - 1 byte
* Integer encoded as int16_t (2 bytes).
- * |1101____| - 1 byte
+ * |11010000| - 1 byte
* Integer encoded as int32_t (4 bytes).
- * |1110____| - 1 byte
+ * |11100000| - 1 byte
* Integer encoded as int64_t (8 bytes).
+ * |11110000| - 1 byte
+ * Integer encoded as 24 bit signed (3 bytes).
+ * |11111110| - 1 byte
+ * Integer encoded as 8 bit signed (1 byte).
+ * |1111xxxx| - (with xxxx between 0000 and 1101) immediate 4 bit integer.
+ * Unsigned integer from 0 to 12. The encoded value is actually from
+ * 1 to 13 because 0000 and 1111 can not be used, so 1 should be
+ * subtracted from the encoded 4 bit value to obtain the right value.
+ * |11111111| - End of ziplist.
+ *
+ * All the integers are represented in little endian byte order.
*/
#include <stdio.h>
#include <assert.h>
#include <limits.h>
#include "zmalloc.h"
+#include "util.h"
#include "ziplist.h"
-#include "endian.h"
-
-int ll2string(char *s, size_t len, long long value);
+#include "endianconv.h"
#define ZIP_END 255
#define ZIP_BIGLEN 254
/* Different encoding/length possibilities */
+#define ZIP_STR_MASK 0xc0
+#define ZIP_INT_MASK 0x30
#define ZIP_STR_06B (0 << 6)
#define ZIP_STR_14B (1 << 6)
#define ZIP_STR_32B (2 << 6)
#define ZIP_INT_16B (0xc0 | 0<<4)
#define ZIP_INT_32B (0xc0 | 1<<4)
#define ZIP_INT_64B (0xc0 | 2<<4)
+#define ZIP_INT_24B (0xc0 | 3<<4)
+#define ZIP_INT_8B 0xfe
+/* 4 bit integer immediate encoding */
+#define ZIP_INT_IMM_MASK 0x0f
+#define ZIP_INT_IMM_MIN 0xf1 /* 11110001 */
+#define ZIP_INT_IMM_MAX 0xfd /* 11111101 */
+#define ZIP_INT_IMM_VAL(v) (v & ZIP_INT_IMM_MASK)
+
+#define INT24_MAX 0x7fffff
+#define INT24_MIN (-INT24_MAX - 1)
-/* Macro's to determine type */
-#define ZIP_IS_STR(enc) (((enc) & 0xc0) < 0xc0)
-#define ZIP_IS_INT(enc) (!ZIP_IS_STR(enc) && ((enc) & 0x30) < 0x30)
+/* Macro to determine type */
+#define ZIP_IS_STR(enc) (((enc) & ZIP_STR_MASK) < ZIP_STR_MASK)
/* Utility macros */
#define ZIPLIST_BYTES(zl) (*((uint32_t*)(zl)))
#define ZIPLIST_LENGTH(zl) (*((uint16_t*)((zl)+sizeof(uint32_t)*2)))
#define ZIPLIST_HEADER_SIZE (sizeof(uint32_t)*2+sizeof(uint16_t))
#define ZIPLIST_ENTRY_HEAD(zl) ((zl)+ZIPLIST_HEADER_SIZE)
-#define ZIPLIST_ENTRY_TAIL(zl) ((zl)+ZIPLIST_TAIL_OFFSET(zl))
-#define ZIPLIST_ENTRY_END(zl) ((zl)+ZIPLIST_BYTES(zl)-1)
+#define ZIPLIST_ENTRY_TAIL(zl) ((zl)+intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl)))
+#define ZIPLIST_ENTRY_END(zl) ((zl)+intrev32ifbe(ZIPLIST_BYTES(zl))-1)
/* We know a positive increment can only be 1 because entries can only be
* pushed one at a time. */
#define ZIPLIST_INCR_LENGTH(zl,incr) { \
- if (ZIPLIST_LENGTH(zl) < UINT16_MAX) ZIPLIST_LENGTH(zl)+=incr; }
+ if (ZIPLIST_LENGTH(zl) < UINT16_MAX) \
+ ZIPLIST_LENGTH(zl) = intrev16ifbe(intrev16ifbe(ZIPLIST_LENGTH(zl))+incr); \
+}
typedef struct zlentry {
unsigned int prevrawlensize, prevrawlen;
unsigned char *p;
} zlentry;
-/* Return the encoding pointer to by 'p'. */
-static unsigned int zipEntryEncoding(unsigned char *p) {
- /* String encoding: 2 MSBs */
- unsigned char b = p[0] & 0xc0;
- if (b < 0xc0) {
- return b;
- } else {
- /* Integer encoding: 4 MSBs */
- return p[0] & 0xf0;
- }
- assert(NULL);
- return 0;
-}
+/* Extract the encoding from the byte pointed by 'ptr' and set it into
+ * 'encoding'. */
+#define ZIP_ENTRY_ENCODING(ptr, encoding) do { \
+ (encoding) = (ptr[0]); \
+ if ((encoding) < ZIP_STR_MASK) (encoding) &= ZIP_STR_MASK; \
+} while(0)
/* Return bytes needed to store integer encoded by 'encoding' */
static unsigned int zipIntSize(unsigned char encoding) {
switch(encoding) {
- case ZIP_INT_16B: return sizeof(int16_t);
- case ZIP_INT_32B: return sizeof(int32_t);
- case ZIP_INT_64B: return sizeof(int64_t);
+ case ZIP_INT_8B: return 1;
+ case ZIP_INT_16B: return 2;
+ case ZIP_INT_24B: return 3;
+ case ZIP_INT_32B: return 4;
+ case ZIP_INT_64B: return 8;
+ default: return 0; /* 4 bit immediate */
}
assert(NULL);
return 0;
}
-/* Decode the encoded length pointed by 'p'. If a pointer to 'lensize' is
- * provided, it is set to the number of bytes required to encode the length. */
-static unsigned int zipDecodeLength(unsigned char *p, unsigned int *lensize) {
- unsigned char encoding = zipEntryEncoding(p);
- unsigned int len = 0;
-
- if (ZIP_IS_STR(encoding)) {
- switch(encoding) {
- case ZIP_STR_06B:
- len = p[0] & 0x3f;
- if (lensize) *lensize = 1;
- break;
- case ZIP_STR_14B:
- len = ((p[0] & 0x3f) << 8) | p[1];
- if (lensize) *lensize = 2;
- break;
- case ZIP_STR_32B:
- len = (p[1] << 24) | (p[2] << 16) | (p[3] << 8) | p[4];
- if (lensize) *lensize = 5;
- break;
- default:
- assert(NULL);
- }
- } else {
- len = zipIntSize(encoding);
- if (lensize) *lensize = 1;
- }
- return len;
-}
-
/* Encode the length 'l' writing it in 'p'. If p is NULL it just returns
* the amount of bytes required to encode such a length. */
static unsigned int zipEncodeLength(unsigned char *p, unsigned char encoding, unsigned int rawlen) {
return len;
}
-/* Decode the length of the previous element stored at "p". */
-static unsigned int zipPrevDecodeLength(unsigned char *p, unsigned int *lensize) {
- unsigned int len = *p;
- if (len < ZIP_BIGLEN) {
- if (lensize) *lensize = 1;
- } else {
- if (lensize) *lensize = 1+sizeof(len);
- memcpy(&len,p+1,sizeof(len));
- memrev32ifbe(&len);
- }
- return len;
-}
+/* Decode the length encoded in 'ptr'. The 'encoding' variable will hold the
+ * entries encoding, the 'lensize' variable will hold the number of bytes
+ * required to encode the entries length, and the 'len' variable will hold the
+ * entries length. */
+#define ZIP_DECODE_LENGTH(ptr, encoding, lensize, len) do { \
+ ZIP_ENTRY_ENCODING((ptr), (encoding)); \
+ if ((encoding) < ZIP_STR_MASK) { \
+ if ((encoding) == ZIP_STR_06B) { \
+ (lensize) = 1; \
+ (len) = (ptr)[0] & 0x3f; \
+ } else if ((encoding) == ZIP_STR_14B) { \
+ (lensize) = 2; \
+ (len) = (((ptr)[0] & 0x3f) << 8) | (ptr)[1]; \
+ } else if (encoding == ZIP_STR_32B) { \
+ (lensize) = 5; \
+ (len) = ((ptr)[1] << 24) | \
+ ((ptr)[2] << 16) | \
+ ((ptr)[3] << 8) | \
+ ((ptr)[4]); \
+ } else { \
+ assert(NULL); \
+ } \
+ } else { \
+ (lensize) = 1; \
+ (len) = zipIntSize(encoding); \
+ } \
+} while(0);
/* Encode the length of the previous entry and write it to "p". Return the
* number of bytes needed to encode this length if "p" is NULL. */
memrev32ifbe(p+1);
}
-/* Return the difference in number of bytes needed to store the new length
- * "len" on the entry pointed to by "p". */
+/* Decode the number of bytes required to store the length of the previous
+ * element, from the perspective of the entry pointed to by 'ptr'. */
+#define ZIP_DECODE_PREVLENSIZE(ptr, prevlensize) do { \
+ if ((ptr)[0] < ZIP_BIGLEN) { \
+ (prevlensize) = 1; \
+ } else { \
+ (prevlensize) = 5; \
+ } \
+} while(0);
+
+/* Decode the length of the previous element, from the perspective of the entry
+ * pointed to by 'ptr'. */
+#define ZIP_DECODE_PREVLEN(ptr, prevlensize, prevlen) do { \
+ ZIP_DECODE_PREVLENSIZE(ptr, prevlensize); \
+ if ((prevlensize) == 1) { \
+ (prevlen) = (ptr)[0]; \
+ } else if ((prevlensize) == 5) { \
+ assert(sizeof((prevlensize)) == 4); \
+ memcpy(&(prevlen), ((char*)(ptr)) + 1, 4); \
+ memrev32ifbe(&prevlen); \
+ } \
+} while(0);
+
+/* Return the difference in number of bytes needed to store the length of the
+ * previous element 'len', in the entry pointed to by 'p'. */
static int zipPrevLenByteDiff(unsigned char *p, unsigned int len) {
unsigned int prevlensize;
- zipPrevDecodeLength(p,&prevlensize);
- return zipPrevEncodeLength(NULL,len)-prevlensize;
+ ZIP_DECODE_PREVLENSIZE(p, prevlensize);
+ return zipPrevEncodeLength(NULL, len) - prevlensize;
+}
+
+/* Return the total number of bytes used by the entry pointed to by 'p'. */
+static unsigned int zipRawEntryLength(unsigned char *p) {
+ unsigned int prevlensize, encoding, lensize, len;
+ ZIP_DECODE_PREVLENSIZE(p, prevlensize);
+ ZIP_DECODE_LENGTH(p + prevlensize, encoding, lensize, len);
+ return prevlensize + lensize + len;
}
/* Check if string pointed to by 'entry' can be encoded as an integer.
* Stores the integer value in 'v' and its encoding in 'encoding'. */
static int zipTryEncoding(unsigned char *entry, unsigned int entrylen, long long *v, unsigned char *encoding) {
long long value;
- char *eptr;
- char buf[32];
if (entrylen >= 32 || entrylen == 0) return 0;
- if (entry[0] == '-' || (entry[0] >= '0' && entry[0] <= '9')) {
- int slen;
-
- /* Perform a back-and-forth conversion to make sure that
- * the string turned into an integer is not losing any info. */
- memcpy(buf,entry,entrylen);
- buf[entrylen] = '\0';
- value = strtoll(buf,&eptr,10);
- if (eptr[0] != '\0') return 0;
- slen = ll2string(buf,32,value);
- if (entrylen != (unsigned)slen || memcmp(buf,entry,slen)) return 0;
-
+ if (string2ll((char*)entry,entrylen,&value)) {
/* Great, the string can be encoded. Check what's the smallest
* of our encoding types that can hold this value. */
- if (value >= INT16_MIN && value <= INT16_MAX) {
+ if (value >= 0 && value <= 12) {
+ *encoding = ZIP_INT_IMM_MIN+value;
+ } else if (value >= INT8_MIN && value <= INT8_MAX) {
+ *encoding = ZIP_INT_8B;
+ } else if (value >= INT16_MIN && value <= INT16_MAX) {
*encoding = ZIP_INT_16B;
+ } else if (value >= INT24_MIN && value <= INT24_MAX) {
+ *encoding = ZIP_INT_24B;
} else if (value >= INT32_MIN && value <= INT32_MAX) {
*encoding = ZIP_INT_32B;
} else {
int16_t i16;
int32_t i32;
int64_t i64;
- if (encoding == ZIP_INT_16B) {
+ if (encoding == ZIP_INT_8B) {
+ ((char*)p)[0] = (char)value;
+ } else if (encoding == ZIP_INT_16B) {
i16 = value;
memcpy(p,&i16,sizeof(i16));
memrev16ifbe(p);
+ } else if (encoding == ZIP_INT_24B) {
+ i32 = value<<8;
+ memrev32ifbe(&i32);
+ memcpy(p,((unsigned char*)&i32)+1,sizeof(i32)-sizeof(int8_t));
} else if (encoding == ZIP_INT_32B) {
i32 = value;
memcpy(p,&i32,sizeof(i32));
i64 = value;
memcpy(p,&i64,sizeof(i64));
memrev64ifbe(p);
+ } else if (encoding >= ZIP_INT_IMM_MIN && encoding <= ZIP_INT_IMM_MAX) {
+ /* Nothing to do, the value is stored in the encoding itself. */
} else {
assert(NULL);
}
int16_t i16;
int32_t i32;
int64_t i64, ret = 0;
- if (encoding == ZIP_INT_16B) {
+ if (encoding == ZIP_INT_8B) {
+ ret = ((char*)p)[0];
+ } else if (encoding == ZIP_INT_16B) {
memcpy(&i16,p,sizeof(i16));
memrev16ifbe(&i16);
ret = i16;
} else if (encoding == ZIP_INT_32B) {
memcpy(&i32,p,sizeof(i32));
- memrev16ifbe(&i32);
+ memrev32ifbe(&i32);
ret = i32;
+ } else if (encoding == ZIP_INT_24B) {
+ i32 = 0;
+ memcpy(((unsigned char*)&i32)+1,p,sizeof(i32)-sizeof(int8_t));
+ memrev32ifbe(&i32);
+ ret = i32>>8;
} else if (encoding == ZIP_INT_64B) {
memcpy(&i64,p,sizeof(i64));
- memrev16ifbe(&i64);
+ memrev64ifbe(&i64);
ret = i64;
+ } else if (encoding >= ZIP_INT_IMM_MIN && encoding <= ZIP_INT_IMM_MAX) {
+ ret = (encoding & ZIP_INT_IMM_MASK)-1;
} else {
assert(NULL);
}
/* Return a struct with all information about an entry. */
static zlentry zipEntry(unsigned char *p) {
zlentry e;
- e.prevrawlen = zipPrevDecodeLength(p,&e.prevrawlensize);
- e.len = zipDecodeLength(p+e.prevrawlensize,&e.lensize);
- e.headersize = e.prevrawlensize+e.lensize;
- e.encoding = zipEntryEncoding(p+e.prevrawlensize);
+
+ ZIP_DECODE_PREVLEN(p, e.prevrawlensize, e.prevrawlen);
+ ZIP_DECODE_LENGTH(p + e.prevrawlensize, e.encoding, e.lensize, e.len);
+ e.headersize = e.prevrawlensize + e.lensize;
e.p = p;
return e;
}
-/* Return the total number of bytes used by the entry at "p". */
-static unsigned int zipRawEntryLength(unsigned char *p) {
- zlentry e = zipEntry(p);
- return e.headersize + e.len;
-}
-
/* Create a new empty ziplist. */
unsigned char *ziplistNew(void) {
unsigned int bytes = ZIPLIST_HEADER_SIZE+1;
unsigned char *zl = zmalloc(bytes);
- ZIPLIST_BYTES(zl) = bytes;
- ZIPLIST_TAIL_OFFSET(zl) = ZIPLIST_HEADER_SIZE;
+ ZIPLIST_BYTES(zl) = intrev32ifbe(bytes);
+ ZIPLIST_TAIL_OFFSET(zl) = intrev32ifbe(ZIPLIST_HEADER_SIZE);
ZIPLIST_LENGTH(zl) = 0;
zl[bytes-1] = ZIP_END;
return zl;
/* Resize the ziplist. */
static unsigned char *ziplistResize(unsigned char *zl, unsigned int len) {
zl = zrealloc(zl,len);
- ZIPLIST_BYTES(zl) = len;
+ ZIPLIST_BYTES(zl) = intrev32ifbe(len);
zl[len-1] = ZIP_END;
return zl;
}
* The pointer "p" points to the first entry that does NOT need to be
* updated, i.e. consecutive fields MAY need an update. */
static unsigned char *__ziplistCascadeUpdate(unsigned char *zl, unsigned char *p) {
- size_t curlen = ZIPLIST_BYTES(zl), rawlen, rawlensize;
+ size_t curlen = intrev32ifbe(ZIPLIST_BYTES(zl)), rawlen, rawlensize;
size_t offset, noffset, extra;
unsigned char *np;
zlentry cur, next;
offset = p-zl;
extra = rawlensize-next.prevrawlensize;
zl = ziplistResize(zl,curlen+extra);
- ZIPLIST_TAIL_OFFSET(zl) += extra;
p = zl+offset;
- /* Move the tail to the back. */
+ /* Current pointer and offset for next element. */
np = p+rawlen;
noffset = np-zl;
+
+ /* Update tail offset when next element is not the tail element. */
+ if ((zl+intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl))) != np) {
+ ZIPLIST_TAIL_OFFSET(zl) =
+ intrev32ifbe(intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl))+extra);
+ }
+
+ /* Move the tail to the back. */
memmove(np+rawlensize,
np+next.prevrawlensize,
curlen-noffset-next.prevrawlensize-1);
zipPrevEncodeLength(p-nextdiff,first.prevrawlen);
/* Update offset for tail */
- ZIPLIST_TAIL_OFFSET(zl) -= totlen;
+ ZIPLIST_TAIL_OFFSET(zl) =
+ intrev32ifbe(intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl))-totlen);
/* When the tail contains more than one entry, we need to take
* "nextdiff" in account as well. Otherwise, a change in the
* size of prevlen doesn't have an effect on the *tail* offset. */
tail = zipEntry(p);
- if (p[tail.headersize+tail.len] != ZIP_END)
- ZIPLIST_TAIL_OFFSET(zl) += nextdiff;
+ if (p[tail.headersize+tail.len] != ZIP_END) {
+ ZIPLIST_TAIL_OFFSET(zl) =
+ intrev32ifbe(intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl))+nextdiff);
+ }
/* Move tail to the front of the ziplist */
- memmove(first.p,p-nextdiff,ZIPLIST_BYTES(zl)-(p-zl)-1+nextdiff);
+ memmove(first.p,p-nextdiff,
+ intrev32ifbe(ZIPLIST_BYTES(zl))-(p-zl)-1+nextdiff);
} else {
/* The entire tail was deleted. No need to move memory. */
- ZIPLIST_TAIL_OFFSET(zl) = (first.p-zl)-first.prevrawlen;
+ ZIPLIST_TAIL_OFFSET(zl) =
+ intrev32ifbe((first.p-zl)-first.prevrawlen);
}
/* Resize and update length */
offset = first.p-zl;
- zl = ziplistResize(zl, ZIPLIST_BYTES(zl)-totlen+nextdiff);
+ zl = ziplistResize(zl, intrev32ifbe(ZIPLIST_BYTES(zl))-totlen+nextdiff);
ZIPLIST_INCR_LENGTH(zl,-deleted);
p = zl+offset;
/* Insert item at "p". */
static unsigned char *__ziplistInsert(unsigned char *zl, unsigned char *p, unsigned char *s, unsigned int slen) {
- size_t curlen = ZIPLIST_BYTES(zl), reqlen, prevlen = 0;
+ size_t curlen = intrev32ifbe(ZIPLIST_BYTES(zl)), reqlen, prevlen = 0;
size_t offset;
int nextdiff = 0;
unsigned char encoding = 0;
- long long value;
+ long long value = 123456789; /* initialized to avoid warning. Using a value
+ that is easy to see if for some reason
+ we use it uninitialized. */
zlentry entry, tail;
/* Find out prevlen for the entry that is inserted. */
zipPrevEncodeLength(p+reqlen,reqlen);
/* Update offset for tail */
- ZIPLIST_TAIL_OFFSET(zl) += reqlen;
+ ZIPLIST_TAIL_OFFSET(zl) =
+ intrev32ifbe(intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl))+reqlen);
/* When the tail contains more than one entry, we need to take
* "nextdiff" in account as well. Otherwise, a change in the
* size of prevlen doesn't have an effect on the *tail* offset. */
tail = zipEntry(p+reqlen);
- if (p[reqlen+tail.headersize+tail.len] != ZIP_END)
- ZIPLIST_TAIL_OFFSET(zl) += nextdiff;
+ if (p[reqlen+tail.headersize+tail.len] != ZIP_END) {
+ ZIPLIST_TAIL_OFFSET(zl) =
+ intrev32ifbe(intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl))+nextdiff);
+ }
} else {
/* This element will be the new tail. */
- ZIPLIST_TAIL_OFFSET(zl) = p-zl;
+ ZIPLIST_TAIL_OFFSET(zl) = intrev32ifbe(p-zl);
}
/* When nextdiff != 0, the raw length of the next entry has changed, so
* when the *next* element is ZIP_END (there is no next entry). */
if (p[0] == ZIP_END) {
return NULL;
- } else {
- p = p+zipRawEntryLength(p);
- return (p[0] == ZIP_END) ? NULL : p;
}
+
+ p += zipRawEntryLength(p);
+ if (p[0] == ZIP_END) {
+ return NULL;
+ }
+
+ return p;
}
/* Return pointer to previous entry in ziplist. */
return 0;
}
+/* Find pointer to the entry equal to the specified entry. Skip 'skip' entries
+ * between every comparison. Returns NULL when the field could not be found. */
+unsigned char *ziplistFind(unsigned char *p, unsigned char *vstr, unsigned int vlen, unsigned int skip) {
+ int skipcnt = 0;
+ unsigned char vencoding = 0;
+ long long vll = 0;
+
+ while (p[0] != ZIP_END) {
+ unsigned int prevlensize, encoding, lensize, len;
+ unsigned char *q;
+
+ ZIP_DECODE_PREVLENSIZE(p, prevlensize);
+ ZIP_DECODE_LENGTH(p + prevlensize, encoding, lensize, len);
+ q = p + prevlensize + lensize;
+
+ if (skipcnt == 0) {
+ /* Compare current entry with specified entry */
+ if (ZIP_IS_STR(encoding)) {
+ if (len == vlen && memcmp(q, vstr, vlen) == 0) {
+ return p;
+ }
+ } else {
+ /* Find out if the specified entry can be encoded */
+ if (vencoding == 0) {
+ /* UINT_MAX when the entry CANNOT be encoded */
+ if (!zipTryEncoding(vstr, vlen, &vll, &vencoding)) {
+ vencoding = UCHAR_MAX;
+ }
+
+ /* Must be non-zero by now */
+ assert(vencoding);
+ }
+
+ /* Compare current entry with specified entry */
+ if (encoding == vencoding) {
+ long long ll = zipLoadInteger(q, encoding);
+ if (ll == vll) {
+ return p;
+ }
+ }
+ }
+
+ /* Reset skip count */
+ skipcnt = skip;
+ } else {
+ /* Skip entry */
+ skipcnt--;
+ }
+
+ /* Move to next entry */
+ p = q + len;
+ }
+
+ return NULL;
+}
+
/* Return length of ziplist. */
unsigned int ziplistLen(unsigned char *zl) {
unsigned int len = 0;
- if (ZIPLIST_LENGTH(zl) < UINT16_MAX) {
- len = ZIPLIST_LENGTH(zl);
+ if (intrev16ifbe(ZIPLIST_LENGTH(zl)) < UINT16_MAX) {
+ len = intrev16ifbe(ZIPLIST_LENGTH(zl));
} else {
unsigned char *p = zl+ZIPLIST_HEADER_SIZE;
while (*p != ZIP_END) {
}
/* Re-store length if small enough */
- if (len < UINT16_MAX) ZIPLIST_LENGTH(zl) = len;
+ if (len < UINT16_MAX) ZIPLIST_LENGTH(zl) = intrev16ifbe(len);
}
return len;
}
/* Return ziplist blob size in bytes. */
size_t ziplistBlobLen(unsigned char *zl) {
- return ZIPLIST_BYTES(zl);
+ return intrev32ifbe(ZIPLIST_BYTES(zl));
}
void ziplistRepr(unsigned char *zl) {
"{total bytes %d} "
"{length %u}\n"
"{tail offset %u}\n",
- ZIPLIST_BYTES(zl),
- ZIPLIST_LENGTH(zl),
- ZIPLIST_TAIL_OFFSET(zl));
+ intrev32ifbe(ZIPLIST_BYTES(zl)),
+ intrev16ifbe(ZIPLIST_LENGTH(zl)),
+ intrev32ifbe(ZIPLIST_TAIL_OFFSET(zl)));
p = ZIPLIST_ENTRY_HEAD(zl);
while(*p != ZIP_END) {
entry = zipEntry(p);
zl = ziplistDeleteRange(zl,0,1);
}
printf("List size: %8d, bytes: %8d, %dx push+pop (%s): %6lld usec\n",
- i,ZIPLIST_BYTES(zl),num,posstr[pos],usec()-start);
+ i,intrev32ifbe(ZIPLIST_BYTES(zl)),num,posstr[pos],usec()-start);
zfree(zl);
}
}
}
}
-void randstring(char *target, unsigned int min, unsigned int max) {
+int randstring(char *target, unsigned int min, unsigned int max) {
int p, len = min+rand()%(max-min+1);
int minval, maxval;
switch(rand() % 3) {
while(p < len)
target[p++] = minval+rand()%(maxval-minval+1);
- return;
+ return len;
}
-
int main(int argc, char **argv) {
unsigned char *zl, *p;
unsigned char *entry;
int i,j,len,where;
unsigned char *p;
char buf[1024];
+ int buflen;
list *ref;
listNode *refnode;
unsigned int slen;
long long sval;
- /* In the regression for the cascade bug, it was triggered
- * with a random seed of 2. */
- srand(2);
-
for (i = 0; i < 20000; i++) {
zl = ziplistNew();
ref = listCreate();
/* Create lists */
for (j = 0; j < len; j++) {
where = (rand() & 1) ? ZIPLIST_HEAD : ZIPLIST_TAIL;
- switch(rand() % 4) {
- case 0:
- sprintf(buf,"%lld",(0LL + rand()) >> 20);
- break;
- case 1:
- sprintf(buf,"%lld",(0LL + rand()));
- break;
- case 2:
- sprintf(buf,"%lld",(0LL + rand()) << 20);
- break;
- case 3:
- randstring(buf,0,256);
- break;
- default:
- assert(NULL);
+ if (rand() % 2) {
+ buflen = randstring(buf,1,sizeof(buf)-1);
+ } else {
+ switch(rand() % 3) {
+ case 0:
+ buflen = sprintf(buf,"%lld",(0LL + rand()) >> 20);
+ break;
+ case 1:
+ buflen = sprintf(buf,"%lld",(0LL + rand()));
+ break;
+ case 2:
+ buflen = sprintf(buf,"%lld",(0LL + rand()) << 20);
+ break;
+ default:
+ assert(NULL);
+ }
}
/* Add to ziplist */
- zl = ziplistPush(zl, (unsigned char*)buf, strlen(buf), where);
+ zl = ziplistPush(zl, (unsigned char*)buf, buflen, where);
/* Add to reference list */
if (where == ZIPLIST_HEAD) {
- listAddNodeHead(ref,sdsnew(buf));
+ listAddNodeHead(ref,sdsnewlen(buf, buflen));
} else if (where == ZIPLIST_TAIL) {
- listAddNodeTail(ref,sdsnew(buf));
+ listAddNodeTail(ref,sdsnewlen(buf, buflen));
} else {
assert(NULL);
}
assert(ziplistGet(p,&sstr,&slen,&sval));
if (sstr == NULL) {
- sprintf(buf,"%lld",sval);
+ buflen = sprintf(buf,"%lld",sval);
} else {
- memcpy(buf,sstr,slen);
- buf[slen] = '\0';
+ buflen = slen;
+ memcpy(buf,sstr,buflen);
+ buf[buflen] = '\0';
}
- assert(strcmp(buf,listNodeValue(refnode)) == 0);
+ assert(memcmp(buf,listNodeValue(refnode),buflen) == 0);
}
zfree(zl);
listRelease(ref);