upstream/mercurial-mirror Files · mercurial/mpatch.c

exchangev2: fetch manifest revisions...

exchangev2: fetch manifest revisions Now that the server has support for retrieving manifest data, we can implement the client bits to call it. We teach the changeset fetching code to capture the manifest revisions that are encountered on incoming changesets. We then feed this into a new function which filters out known manifests and then batches up manifest data requests to the server. This is different from the previous wire protocol in a few notable ways. First, the client fetches manifest data separately and explicitly. Before, we'd ask the server for data pertaining to some changesets (via a "getbundle" command) and manifests (and files) would be sent automatically. Providing an API for looking up just manifest data separately gives clients much more flexibility for manifest management. For example, a client may choose to only fetch manifest data on demand instead of prefetching it (i.e. partial clone). Second, we send N commands to the server for manifest retrieval instead of 1. This property has a few nice side-effects. One is that the deterministic nature of the requests lends itself to server-side caching. For example, say the remote has 50,000 manifests. If the server is configured to cache responses, each time a new commit arrives, you will have a cache miss and need to regenerate all outgoing data. But if you makes N requests requesting 10,000 manifests each, a new commit will still yield cache hits on the initial, unchanged manifest batches/requests. A derived benefit from these properties is that resumable clone is conceptually simpler to implement. When making a monolithic request for all of the repository data, recovering from an interrupted clone is hard because the server was in the driver's seat and was maintaining state about all the data that needed transferred. With the client driving fetching, the client can persist the set of unfetched entities and retry/resume a fetch if something goes wrong. Or we can fetch all data N changesets at a time and slowly build up a repository. This approach is drastically easier to implement when we have server APIs exposing low-level repository primitives (such as manifests and files). We don't yet support tree manifests. But it should be possible to implement that with the existing wire protocol command. Differential Revision: https://phab.mercurial-scm.org/D4489

Augie Fackler - - Load All Authors

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      /*

       mpatch.c - efficient binary patching for Mercurial

       This implements a patch algorithm that's O(m + nlog n) where m is the

       size of the output and n is the number of patches.

       Given a list of binary patches, it unpacks each into a hunk list,

       then combines the hunk lists with a treewise recursion to form a

       single hunk list. This hunk list is then applied to the original

       text.

       The text (or binary) fragments are copied directly from their source

       Python objects into a preallocated output string to avoid the

       allocation of intermediate Python objects. Working memory is about 2x

       the total number of hunks.

       Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>

       This software may be used and distributed according to the terms

       of the GNU General Public License, incorporated herein by reference.

      */

      #include <limits.h>

      #include <stdlib.h>

      #include <string.h>

      #include "bitmanipulation.h"

      #include "compat.h"

      #include "mpatch.h"

      /* VC9 doesn't include bool and lacks stdbool.h based on cext/util.h */

      #if defined(_MSC_VER) || __STDC_VERSION__ < 199901L

      #define true 1

      #define false 0

      typedef unsigned char bool;

      #else

      #include <stdbool.h>

      #endif

      static struct mpatch_flist *lalloc(ssize_t size)

      {

      	struct mpatch_flist *a = NULL;

      	if (size < 1)

      		size = 1;

      	a = (struct mpatch_flist *)malloc(sizeof(struct mpatch_flist));

      	if (a) {

      		a->base = (struct mpatch_frag *)malloc(

      		    sizeof(struct mpatch_frag) * size);

      		if (a->base) {

      			a->head = a->tail = a->base;

      			return a;

      		}

      		free(a);

      	}

      	return NULL;

      }

      void mpatch_lfree(struct mpatch_flist *a)

      {

      	if (a) {

      		free(a->base);

      		free(a);

      	}

      }

      static ssize_t lsize(struct mpatch_flist *a)

      {

      	return a->tail - a->head;

      }

      /* add helper to add src and *dest iff it won't overflow */

      static inline bool safeadd(int src, int *dest)

      {

      	if ((src > 0) == (*dest > 0)) {

      		if (*dest > 0) {

      			if (src > (INT_MAX - *dest)) {

      				return false;

      			}

      		} else {

      			if (src < (INT_MIN - *dest)) {

      				return false;

      			}

      		}

      	}

      	*dest += src;

      	return true;

      }

      /* subtract src from dest and store result in dest */

      static inline bool safesub(int src, int *dest)

      {

      	if (((src > 0) && (*dest < INT_MIN + src)) ||

      	    ((src < 0) && (*dest > INT_MAX + src))) {

      		return false;

      	}

      	*dest -= src;

      	return true;

      }

      /* move hunks in source that are less cut to dest, compensating

         for changes in offset. the last hunk may be split if necessary.

      */

      static int gather(struct mpatch_flist *dest, struct mpatch_flist *src, int cut,

                        int offset)

      {

      	struct mpatch_frag *d = dest->tail, *s = src->head;

      	int postend, c, l;

      	while (s != src->tail) {

      		int soffset = s->start;

      		if (!safeadd(offset, &soffset))

      			break; /* add would overflow, oh well */

      		if (soffset >= cut)

      			break; /* we've gone far enough */

      		postend = offset;

      		if (!safeadd(s->start, &postend) ||

      		    !safeadd(s->len, &postend)) {

      			break;

      		}

      		if (postend <= cut) {

      			/* save this hunk */

      			int tmp = s->start;

      			if (!safesub(s->end, &tmp)) {

      				break;

      			}

      			if (!safeadd(s->len, &tmp)) {

      				break;

      			}

      			if (!safeadd(tmp, &offset)) {

      				break; /* add would overflow, oh well */

      			}

      			*d++ = *s++;

      		} else {

      			/* break up this hunk */

      			c = cut;

      			if (!safesub(offset, &c)) {

      				break;

      			}

      			if (s->end < c)

      				c = s->end;

      			l = cut - offset - s->start;

      			if (s->len < l)

      				l = s->len;

      			offset += s->start + l - c;

      			d->start = s->start;

      			d->end = c;

      			d->len = l;

      			d->data = s->data;

      			d++;

      			s->start = c;

      			s->len = s->len - l;

      			s->data = s->data + l;

      			break;

      		}

      	}

      	dest->tail = d;

      	src->head = s;

      	return offset;

      }

      /* like gather, but with no output list */

      static int discard(struct mpatch_flist *src, int cut, int offset)

      {

      	struct mpatch_frag *s = src->head;

      	int postend, c, l;

      	while (s != src->tail) {

      		int cmpcut = s->start;

      		if (!safeadd(offset, &cmpcut)) {

      			break;

      		}

      		if (cmpcut >= cut)

      			break;

      		postend = offset;

      		if (!safeadd(s->start, &postend)) {

      			break;

      		}

      		if (!safeadd(s->len, &postend)) {

      			break;

      		}

      		if (postend <= cut) {

      			/* do the subtraction first to avoid UB integer overflow

      			 */

      			int tmp = s->start;

      			if (!safesub(s->end, &tmp)) {

      				break;

      			}

      			if (!safeadd(s->len, &tmp)) {

      				break;

      			}

      			if (!safeadd(tmp, &offset)) {

      				break;

      			}

      			s++;

      		} else {

      			c = cut;

      			if (!safesub(offset, &c)) {

      				break;

      			}

      			if (s->end < c)

      				c = s->end;

      			l = cut - offset - s->start;

      			if (s->len < l)

      				l = s->len;

      			offset += s->start + l - c;

      			s->start = c;

      			s->len = s->len - l;

      			s->data = s->data + l;

      			break;

      		}

      	}

      	src->head = s;

      	return offset;

      }

      /* combine hunk lists a and b, while adjusting b for offset changes in a/

         this deletes a and b and returns the resultant list. */

      static struct mpatch_flist *combine(struct mpatch_flist *a,

                                          struct mpatch_flist *b)

      {

      	struct mpatch_flist *c = NULL;

      	struct mpatch_frag *bh, *ct;

      	int offset = 0, post;

      	if (a && b)

      		c = lalloc((lsize(a) + lsize(b)) * 2);

      	if (c) {

      		for (bh = b->head; bh != b->tail; bh++) {

      			/* save old hunks */

      			offset = gather(c, a, bh->start, offset);

      			/* discard replaced hunks */

      			post = discard(a, bh->end, offset);

      			/* insert new hunk */

      			ct = c->tail;

      			ct->start = bh->start;

      			ct->end = bh->end;

      			if (!safesub(offset, &(ct->start)) ||

      			    !safesub(post, &(ct->end))) {

      				/* It was already possible to exit

      				 * this function with a return value

      				 * of NULL before the safesub()s were

      				 * added, so this should be fine. */

      				mpatch_lfree(c);

      				c = NULL;

      				goto done;

      			}

      			ct->len = bh->len;

      			ct->data = bh->data;

      			c->tail++;

      			offset = post;

      		}

      		/* hold on to tail from a */

      		memcpy(c->tail, a->head, sizeof(struct mpatch_frag) * lsize(a));

      		c->tail += lsize(a);

      	}

      done:

      	mpatch_lfree(a);

      	mpatch_lfree(b);

      	return c;

      }

      /* decode a binary patch into a hunk list */

      int mpatch_decode(const char *bin, ssize_t len, struct mpatch_flist **res)

      {

      	struct mpatch_flist *l;

      	struct mpatch_frag *lt;

      	int pos = 0;

      	/* assume worst case size, we won't have many of these lists */

      	l = lalloc(len / 12 + 1);

      	if (!l)

      		return MPATCH_ERR_NO_MEM;

      	lt = l->tail;

      	/* We check against len-11 to ensure we have at least 12 bytes

      	   left in the patch so we can read our three be32s out of it. */

      	while (pos >= 0 && pos < (len - 11)) {

      		lt->start = getbe32(bin + pos);

      		lt->end = getbe32(bin + pos + 4);

      		lt->len = getbe32(bin + pos + 8);

      		if (lt->start < 0 || lt->start > lt->end || lt->len < 0)

      			break; /* sanity check */

      		if (!safeadd(12, &pos)) {

      			break;

      		}

      		lt->data = bin + pos;

      		if (!safeadd(lt->len, &pos)) {

      			break;

      		}

      		lt++;

      	}

      	if (pos != len) {

      		mpatch_lfree(l);

      		return MPATCH_ERR_CANNOT_BE_DECODED;

      	}

      	l->tail = lt;

      	*res = l;

      	return 0;

      }

      /* calculate the size of resultant text */

      ssize_t mpatch_calcsize(ssize_t len, struct mpatch_flist *l)

      {

      	ssize_t outlen = 0, last = 0;

      	struct mpatch_frag *f = l->head;

      	while (f != l->tail) {

      		if (f->start < last || f->end > len) {

      			return MPATCH_ERR_INVALID_PATCH;

      		}

      		outlen += f->start - last;

      		last = f->end;

      		outlen += f->len;

      		f++;

      	}

      	outlen += len - last;

      	return outlen;

      }

      int mpatch_apply(char *buf, const char *orig, ssize_t len,

                       struct mpatch_flist *l)

      {

      	struct mpatch_frag *f = l->head;

      	int last = 0;

      	char *p = buf;

      	while (f != l->tail) {

      		if (f->start < last || f->start > len || f->end > len ||

      		    last < 0) {

      			return MPATCH_ERR_INVALID_PATCH;

      		}

      		memcpy(p, orig + last, f->start - last);

      		p += f->start - last;

      		memcpy(p, f->data, f->len);

      		last = f->end;

      		p += f->len;

      		f++;

      	}

      	if (last < 0) {

      		return MPATCH_ERR_INVALID_PATCH;

      	}

      	memcpy(p, orig + last, len - last);

      	return 0;

      }

      /* recursively generate a patch of all bins between start and end */

      struct mpatch_flist *

      mpatch_fold(void *bins, struct mpatch_flist *(*get_next_item)(void *, ssize_t),

                  ssize_t start, ssize_t end)

      {

      	ssize_t len;

      	if (start + 1 == end) {

      		/* trivial case, output a decoded list */

      		return get_next_item(bins, start);

      	}

      	/* divide and conquer, memory management is elsewhere */

      	len = (end - start) / 2;

      	return combine(mpatch_fold(bins, get_next_item, start, start + len),

      	               mpatch_fold(bins, get_next_item, start + len, end));

      }

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				/*
				mpatch.c - efficient binary patching for Mercurial

				This implements a patch algorithm that's O(m + nlog n) where m is the
				size of the output and n is the number of patches.

				Given a list of binary patches, it unpacks each into a hunk list,
				then combines the hunk lists with a treewise recursion to form a
				single hunk list. This hunk list is then applied to the original
				text.

				The text (or binary) fragments are copied directly from their source
				Python objects into a preallocated output string to avoid the
				allocation of intermediate Python objects. Working memory is about 2x
				the total number of hunks.

				Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>

				This software may be used and distributed according to the terms
				of the GNU General Public License, incorporated herein by reference.
				*/

				#include <limits.h>
				#include <stdlib.h>
				#include <string.h>

				#include "bitmanipulation.h"
				#include "compat.h"
				#include "mpatch.h"

				/* VC9 doesn't include bool and lacks stdbool.h based on cext/util.h */
				#if defined(_MSC_VER) \|\| __STDC_VERSION__ < 199901L
				#define true 1
				#define false 0
				typedef unsigned char bool;
				#else
				#include <stdbool.h>
				#endif

				static struct mpatch_flist *lalloc(ssize_t size)
				{
				struct mpatch_flist *a = NULL;

				if (size < 1)
				size = 1;

				a = (struct mpatch_flist *)malloc(sizeof(struct mpatch_flist));
				if (a) {
				a->base = (struct mpatch_frag *)malloc(
				sizeof(struct mpatch_frag) * size);
				if (a->base) {
				a->head = a->tail = a->base;
				return a;
				}
				free(a);
				}
				return NULL;
				}

				void mpatch_lfree(struct mpatch_flist *a)
				{
				if (a) {
				free(a->base);
				free(a);
				}
				}

				static ssize_t lsize(struct mpatch_flist *a)
				{
				return a->tail - a->head;
				}

				/* add helper to add src and dest iff it won't overflow /
				static inline bool safeadd(int src, int *dest)
				{
				if ((src > 0) == (*dest > 0)) {
				if (*dest > 0) {
				if (src > (INT_MAX - *dest)) {
				return false;
				}
				} else {
				if (src < (INT_MIN - *dest)) {
				return false;
				}
				}
				}
				*dest += src;
				return true;
				}

				/* subtract src from dest and store result in dest */
				static inline bool safesub(int src, int *dest)
				{
				if (((src > 0) && (*dest < INT_MIN + src)) \|\|
				((src < 0) && (*dest > INT_MAX + src))) {
				return false;
				}
				*dest -= src;
				return true;
				}

				/* move hunks in source that are less cut to dest, compensating
				for changes in offset. the last hunk may be split if necessary.
				*/
				static int gather(struct mpatch_flist dest, struct mpatch_flist src, int cut,
				int offset)
				{
				struct mpatch_frag d = dest->tail, s = src->head;
				int postend, c, l;

				while (s != src->tail) {
				int soffset = s->start;
				if (!safeadd(offset, &soffset))
				break; /* add would overflow, oh well */
				if (soffset >= cut)
				break; /* we've gone far enough */

				postend = offset;
				if (!safeadd(s->start, &postend) \|\|
				!safeadd(s->len, &postend)) {
				break;
				}
				if (postend <= cut) {
				/* save this hunk */
				int tmp = s->start;
				if (!safesub(s->end, &tmp)) {
				break;
				}
				if (!safeadd(s->len, &tmp)) {
				break;
				}
				if (!safeadd(tmp, &offset)) {
				break; /* add would overflow, oh well */
				}
				d++ = s++;
				} else {
				/* break up this hunk */
				c = cut;
				if (!safesub(offset, &c)) {
				break;
				}
				if (s->end < c)
				c = s->end;
				l = cut - offset - s->start;
				if (s->len < l)
				l = s->len;

				offset += s->start + l - c;

				d->start = s->start;
				d->end = c;
				d->len = l;
				d->data = s->data;
				d++;
				s->start = c;
				s->len = s->len - l;
				s->data = s->data + l;

				break;
				}
				}

				dest->tail = d;
				src->head = s;
				return offset;
				}

				/* like gather, but with no output list */
				static int discard(struct mpatch_flist *src, int cut, int offset)
				{
				struct mpatch_frag *s = src->head;
				int postend, c, l;

				while (s != src->tail) {
				int cmpcut = s->start;
				if (!safeadd(offset, &cmpcut)) {
				break;
				}
				if (cmpcut >= cut)
				break;

				postend = offset;
				if (!safeadd(s->start, &postend)) {
				break;
				}
				if (!safeadd(s->len, &postend)) {
				break;
				}
				if (postend <= cut) {
				/* do the subtraction first to avoid UB integer overflow
				*/
				int tmp = s->start;
				if (!safesub(s->end, &tmp)) {
				break;
				}
				if (!safeadd(s->len, &tmp)) {
				break;
				}
				if (!safeadd(tmp, &offset)) {
				break;
				}
				s++;
				} else {
				c = cut;
				if (!safesub(offset, &c)) {
				break;
				}
				if (s->end < c)
				c = s->end;
				l = cut - offset - s->start;
				if (s->len < l)
				l = s->len;

				offset += s->start + l - c;
				s->start = c;
				s->len = s->len - l;
				s->data = s->data + l;

				break;
				}
				}

				src->head = s;
				return offset;
				}

				/* combine hunk lists a and b, while adjusting b for offset changes in a/
				this deletes a and b and returns the resultant list. */
				static struct mpatch_flist combine(struct mpatch_flist a,
				struct mpatch_flist *b)
				{
				struct mpatch_flist *c = NULL;
				struct mpatch_frag bh, ct;
				int offset = 0, post;

				if (a && b)
				c = lalloc((lsize(a) + lsize(b)) * 2);

				if (c) {

				for (bh = b->head; bh != b->tail; bh++) {
				/* save old hunks */
				offset = gather(c, a, bh->start, offset);

				/* discard replaced hunks */
				post = discard(a, bh->end, offset);

				/* insert new hunk */
				ct = c->tail;
				ct->start = bh->start;
				ct->end = bh->end;
				if (!safesub(offset, &(ct->start)) \|\|
				!safesub(post, &(ct->end))) {
				/* It was already possible to exit
				* this function with a return value
				* of NULL before the safesub()s were
				* added, so this should be fine. */
				mpatch_lfree(c);
				c = NULL;
				goto done;
				}
				ct->len = bh->len;
				ct->data = bh->data;
				c->tail++;
				offset = post;
				}

				/* hold on to tail from a */
				memcpy(c->tail, a->head, sizeof(struct mpatch_frag) * lsize(a));
				c->tail += lsize(a);
				}
				done:
				mpatch_lfree(a);
				mpatch_lfree(b);
				return c;
				}

				/* decode a binary patch into a hunk list */
				int mpatch_decode(const char bin, ssize_t len, struct mpatch_flist *res)
				{
				struct mpatch_flist *l;
				struct mpatch_frag *lt;
				int pos = 0;

				/* assume worst case size, we won't have many of these lists */
				l = lalloc(len / 12 + 1);
				if (!l)
				return MPATCH_ERR_NO_MEM;

				lt = l->tail;

				/* We check against len-11 to ensure we have at least 12 bytes
				left in the patch so we can read our three be32s out of it. */
				while (pos >= 0 && pos < (len - 11)) {
				lt->start = getbe32(bin + pos);
				lt->end = getbe32(bin + pos + 4);
				lt->len = getbe32(bin + pos + 8);
				if (lt->start < 0 \|\| lt->start > lt->end \|\| lt->len < 0)
				break; /* sanity check */
				if (!safeadd(12, &pos)) {
				break;
				}
				lt->data = bin + pos;
				if (!safeadd(lt->len, &pos)) {
				break;
				}
				lt++;
				}

				if (pos != len) {
				mpatch_lfree(l);
				return MPATCH_ERR_CANNOT_BE_DECODED;
				}

				l->tail = lt;
				*res = l;
				return 0;
				}

				/* calculate the size of resultant text */
				ssize_t mpatch_calcsize(ssize_t len, struct mpatch_flist *l)
				{
				ssize_t outlen = 0, last = 0;
				struct mpatch_frag *f = l->head;

				while (f != l->tail) {
				if (f->start < last \|\| f->end > len) {
				return MPATCH_ERR_INVALID_PATCH;
				}
				outlen += f->start - last;
				last = f->end;
				outlen += f->len;
				f++;
				}

				outlen += len - last;
				return outlen;
				}

				int mpatch_apply(char buf, const char orig, ssize_t len,
				struct mpatch_flist *l)
				{
				struct mpatch_frag *f = l->head;
				int last = 0;
				char *p = buf;

				while (f != l->tail) {
				if (f->start < last \|\| f->start > len \|\| f->end > len \|\|
				last < 0) {
				return MPATCH_ERR_INVALID_PATCH;
				}
				memcpy(p, orig + last, f->start - last);
				p += f->start - last;
				memcpy(p, f->data, f->len);
				last = f->end;
				p += f->len;
				f++;
				}
				if (last < 0) {
				return MPATCH_ERR_INVALID_PATCH;
				}
				memcpy(p, orig + last, len - last);
				return 0;
				}

				/* recursively generate a patch of all bins between start and end */
				struct mpatch_flist *
				mpatch_fold(void bins, struct mpatch_flist (get_next_item)(void , ssize_t),
				ssize_t start, ssize_t end)
				{
				ssize_t len;

				if (start + 1 == end) {
				/* trivial case, output a decoded list */
				return get_next_item(bins, start);
				}

				/* divide and conquer, memory management is elsewhere */
				len = (end - start) / 2;
				return combine(mpatch_fold(bins, get_next_item, start, start + len),
				mpatch_fold(bins, get_next_item, start + len, end));
				}