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apache / subversion / ef4cf1b6a9353eca098aae6a3f7f3df2e5d84e5e / . / subversion / libsvn_repos / reporter.c
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/*
* reporter.c : `reporter' vtable routines for updates.
*
* ====================================================================
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
* ====================================================================
*/
#include "svn_dirent_uri.h"
#include "svn_hash.h"
#include "svn_path.h"
#include "svn_types.h"
#include "svn_error.h"
#include "svn_error_codes.h"
#include "svn_fs.h"
#include "svn_repos.h"
#include "svn_pools.h"
#include "svn_props.h"
#include "repos.h"
#include "svn_private_config.h"
#include "private/svn_dep_compat.h"
#include "private/svn_fspath.h"
#include "private/svn_subr_private.h"
#include "private/svn_string_private.h"
#define NUM_CACHED_SOURCE_ROOTS 4
/* Theory of operation: we write report operations out to a spill-buffer
as we receive them. When the report is finished, we read the
operations back out again, using them to guide the progression of
the delta between the source and target revs.
Spill-buffer content format: we use a simple ad-hoc format to store the
report operations. Each report operation is the concatenation of
the following ("+/-" indicates the single character '+' or '-';
<length> and <revnum> are written out as decimal strings):
+/- '-' marks the end of the report
If previous is +:
<length>:<bytes> Length-counted path string
+/- '+' indicates the presence of link_path
If previous is +:
<length>:<bytes> Length-counted link_path string
+/- '+' indicates presence of revnum
If previous is +:
<revnum>: Revnum of set_path or link_path
+/- '+' indicates depth other than svn_depth_infinity
If previous is +:
<depth>: "X","E","F","M" =>
svn_depth_{exclude,empty,files,immediates}
+/- '+' indicates start_empty field set
+/- '+' indicates presence of lock_token field.
If previous is +:
<length>:<bytes> Length-counted lock_token string
Terminology: for brevity, this file frequently uses the prefixes
"s_" for source, "t_" for target, and "e_" for editor. Also, to
avoid overloading the word "target", we talk about the source
"anchor and operand", rather than the usual "anchor and target". */
/* Describes the state of a working copy subtree, as given by a
report. Because we keep a lookahead pathinfo, we need to allocate
each one of these things in a subpool of the report baton and free
it when done. */
typedef struct path_info_t
{
const char *path; /* path, munged to be anchor-relative */
const char *link_path; /* NULL for set_path or delete_path */
svn_revnum_t rev; /* SVN_INVALID_REVNUM for delete_path */
svn_depth_t depth; /* Depth of this path, meaningless for files */
svn_boolean_t start_empty; /* Meaningless for delete_path */
const char *lock_token; /* NULL if no token */
apr_pool_t *pool; /* Container pool */
} path_info_t;
/* Describes the standard revision properties that are relevant for
reports. Since a particular revision will often show up more than
once in the report, we cache these properties for the time of the
report generation. */
typedef struct revision_info_t
{
svn_revnum_t rev; /* revision number */
svn_string_t* date; /* revision timestamp */
svn_string_t* author; /* name of the revisions' author */
} revision_info_t;
/* A structure used by the routines within the `reporter' vtable,
driven by the client as it describes its working copy revisions. */
typedef struct report_baton_t
{
/* Parameters remembered from svn_repos_begin_report3 */
svn_repos_t *repos;
const char *fs_base; /* fspath corresponding to wc anchor */
const char *s_operand; /* anchor-relative wc target (may be empty) */
svn_revnum_t t_rev; /* Revnum which the edit will bring the wc to */
const char *t_path; /* FS path the edit will bring the wc to */
svn_boolean_t text_deltas; /* Whether to report text deltas */
apr_size_t zero_copy_limit; /* Max item size that will be sent using
the zero-copy code path. */
/* If the client requested a specific depth, record it here; if the
client did not, then this is svn_depth_unknown, and the depth of
information transmitted from server to client will be governed
strictly by the path-associated depths recorded in the report. */
svn_depth_t requested_depth;
svn_boolean_t ignore_ancestry;
svn_boolean_t send_copyfrom_args;
svn_boolean_t is_switch;
const svn_delta_editor_t *editor;
void *edit_baton;
svn_repos_authz_func_t authz_read_func;
void *authz_read_baton;
/* The spill-buffer holding the report. */
svn_spillbuf_reader_t *reader;
/* For the actual editor drive, we'll need a lookahead path info
entry, a cache of FS roots, and a pool to store them. */
path_info_t *lookahead;
svn_fs_root_t *t_root;
svn_fs_root_t *s_roots[NUM_CACHED_SOURCE_ROOTS];
/* Cache for revision properties. This is used to eliminate redundant
revprop fetching. svn_revnum_t keys so use svn_hash__make to get a
suitable hash function. */
apr_hash_t *revision_infos;
/* This will not change. So, fetch it once and reuse it. */
svn_string_t *repos_uuid;
apr_pool_t *pool;
} report_baton_t;
/* The type of a function that accepts changes to an object's property
list. OBJECT is the object whose properties are being changed.
NAME is the name of the property to change. VALUE is the new value
for the property, or zero if the property should be deleted. */
typedef svn_error_t *proplist_change_fn_t(report_baton_t *b, void *object,
const char *name,
const svn_string_t *value,
apr_pool_t *pool);
static svn_error_t *delta_dirs(report_baton_t *b, svn_revnum_t s_rev,
const char *s_path, const char *t_path,
void *dir_baton, const char *e_path,
svn_boolean_t start_empty,
svn_depth_t wc_depth,
svn_depth_t requested_depth,
apr_pool_t *pool);
/* --- READING PREVIOUSLY STORED REPORT INFORMATION --- */
static svn_error_t *
read_number(apr_uint64_t *num, svn_spillbuf_reader_t *reader, apr_pool_t *pool)
{
char c;
*num = 0;
while (1)
{
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
if (c == ':')
break;
*num = *num * 10 + (c - '0');
}
return SVN_NO_ERROR;
}
static svn_error_t *
read_string(const char **str, svn_spillbuf_reader_t *reader, apr_pool_t *pool)
{
apr_uint64_t len;
apr_size_t size;
apr_size_t amt;
char *buf;
SVN_ERR(read_number(&len, reader, pool));
/* Len can never be less than zero. But could len be so large that
len + 1 wraps around and we end up passing 0 to apr_palloc(),
thus getting a pointer to no storage? Probably not (16 exabyte
string, anyone?) but let's be future-proof anyway. */
if (len + 1 < len || len + 1 > APR_SIZE_MAX)
{
/* xgettext doesn't expand preprocessor definitions, so we must
pass translatable string to apr_psprintf() function to create
intermediate string with appropriate format specifier. */
return svn_error_createf(SVN_ERR_REPOS_BAD_REVISION_REPORT, NULL,
apr_psprintf(pool,
_("Invalid length (%%%s) when "
"about to read a string"),
APR_UINT64_T_FMT),
len);
}
size = (apr_size_t)len;
buf = apr_palloc(pool, size+1);
if (size > 0)
{
SVN_ERR(svn_spillbuf__reader_read(&amt, reader, buf, size, pool));
SVN_ERR_ASSERT(amt == size);
}
buf[len] = 0;
*str = buf;
return SVN_NO_ERROR;
}
static svn_error_t *
read_rev(svn_revnum_t *rev, svn_spillbuf_reader_t *reader, apr_pool_t *pool)
{
char c;
apr_uint64_t num;
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
if (c == '+')
{
SVN_ERR(read_number(&num, reader, pool));
*rev = (svn_revnum_t) num;
}
else
*rev = SVN_INVALID_REVNUM;
return SVN_NO_ERROR;
}
/* Read a single character to set *DEPTH (having already read '+')
from READER. PATH is the path to which the depth applies, and is
used for error reporting only. */
static svn_error_t *
read_depth(svn_depth_t *depth, svn_spillbuf_reader_t *reader, const char *path,
apr_pool_t *pool)
{
char c;
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
switch (c)
{
case 'X':
*depth = svn_depth_exclude;
break;
case 'E':
*depth = svn_depth_empty;
break;
case 'F':
*depth = svn_depth_files;
break;
case 'M':
*depth = svn_depth_immediates;
break;
/* Note that we do not tolerate explicit representation of
svn_depth_infinity here, because that's not how
write_path_info() writes it. */
default:
return svn_error_createf(SVN_ERR_REPOS_BAD_REVISION_REPORT, NULL,
_("Invalid depth (%c) for path '%s'"), c, path);
}
return SVN_NO_ERROR;
}
/* Read a report operation *PI out of READER. Set *PI to NULL if we
have reached the end of the report. */
static svn_error_t *
read_path_info(path_info_t **pi,
svn_spillbuf_reader_t *reader,
apr_pool_t *pool)
{
char c;
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
if (c == '-')
{
*pi = NULL;
return SVN_NO_ERROR;
}
*pi = apr_palloc(pool, sizeof(**pi));
SVN_ERR(read_string(&(*pi)->path, reader, pool));
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
if (c == '+')
SVN_ERR(read_string(&(*pi)->link_path, reader, pool));
else
(*pi)->link_path = NULL;
SVN_ERR(read_rev(&(*pi)->rev, reader, pool));
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
if (c == '+')
SVN_ERR(read_depth(&((*pi)->depth), reader, (*pi)->path, pool));
else
(*pi)->depth = svn_depth_infinity;
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
(*pi)->start_empty = (c == '+');
SVN_ERR(svn_spillbuf__reader_getc(&c, reader, pool));
if (c == '+')
SVN_ERR(read_string(&(*pi)->lock_token, reader, pool));
else
(*pi)->lock_token = NULL;
(*pi)->pool = pool;
return SVN_NO_ERROR;
}
/* Return true if PI's path is a child of PREFIX (which has length PLEN). */
static svn_boolean_t
relevant(path_info_t *pi, const char *prefix, apr_size_t plen)
{
return (pi && strncmp(pi->path, prefix, plen) == 0 &&
(!*prefix || pi->path[plen] == '/'));
}
/* Fetch the next pathinfo from B->reader for a descendant of
PREFIX. If the next pathinfo is for an immediate child of PREFIX,
set *ENTRY to the path component of the report information and
*INFO to the path information for that entry. If the next pathinfo
is for a grandchild or other more remote descendant of PREFIX, set
*ENTRY to the immediate child corresponding to that descendant and
set *INFO to NULL. If the next pathinfo is not for a descendant of
PREFIX, or if we reach the end of the report, set both *ENTRY and
*INFO to NULL.
At all times, B->lookahead is presumed to be the next pathinfo not
yet returned as an immediate child, or NULL if we have reached the
end of the report. Because we use a lookahead element, we can't
rely on the usual nested pool lifetimes, so allocate each pathinfo
in a subpool of the report baton's pool. The caller should delete
(*INFO)->pool when it is done with the information. */
static svn_error_t *
fetch_path_info(report_baton_t *b, const char **entry, path_info_t **info,
const char *prefix, apr_pool_t *pool)
{
apr_size_t plen = strlen(prefix);
const char *relpath, *sep;
apr_pool_t *subpool;
if (!relevant(b->lookahead, prefix, plen))
{
/* No more entries relevant to prefix. */
*entry = NULL;
*info = NULL;
}
else
{
/* Take a look at the prefix-relative part of the path. */
relpath = b->lookahead->path + (*prefix ? plen + 1 : 0);
sep = strchr(relpath, '/');
if (sep)
{
/* Return the immediate child part; do not advance. */
*entry = apr_pstrmemdup(pool, relpath, sep - relpath);
*info = NULL;
}
else
{
/* This is an immediate child; return it and advance. */
*entry = relpath;
*info = b->lookahead;
subpool = svn_pool_create(b->pool);
SVN_ERR(read_path_info(&b->lookahead, b->reader, subpool));
}
}
return SVN_NO_ERROR;
}
/* Skip all path info entries relevant to *PREFIX. Call this when the
editor drive skips a directory. */
static svn_error_t *
skip_path_info(report_baton_t *b, const char *prefix)
{
apr_size_t plen = strlen(prefix);
apr_pool_t *subpool;
while (relevant(b->lookahead, prefix, plen))
{
svn_pool_destroy(b->lookahead->pool);
subpool = svn_pool_create(b->pool);
SVN_ERR(read_path_info(&b->lookahead, b->reader, subpool));
}
return SVN_NO_ERROR;
}
/* Return true if there is at least one path info entry relevant to *PREFIX. */
static svn_boolean_t
any_path_info(report_baton_t *b, const char *prefix)
{
return relevant(b->lookahead, prefix, strlen(prefix));
}
/* --- DRIVING THE EDITOR ONCE THE REPORT IS FINISHED --- */
/* While driving the editor, the target root will remain constant, but
we may have to jump around between source roots depending on the
state of the working copy. If we were to open a root each time we
revisit a rev, we would get no benefit from node-id caching; on the
other hand, if we hold open all the roots we ever visit, we'll use
an unbounded amount of memory. As a compromise, we maintain a
fixed-size LRU cache of source roots. get_source_root retrieves a
root from the cache, using POOL to allocate the new root if
necessary. Be careful not to hold onto the root for too long,
particularly after recursing, since another call to get_source_root
can close it. */
static svn_error_t *
get_source_root(report_baton_t *b, svn_fs_root_t **s_root, svn_revnum_t rev)
{
int i;
svn_fs_root_t *root, *prev = NULL;
/* Look for the desired root in the cache, sliding all the unmatched
entries backwards a slot to make room for the right one. */
for (i = 0; i < NUM_CACHED_SOURCE_ROOTS; i++)
{
root = b->s_roots[i];
b->s_roots[i] = prev;
if (root && svn_fs_revision_root_revision(root) == rev)
break;
prev = root;
}
/* If we didn't find it, throw out the oldest root and open a new one. */
if (i == NUM_CACHED_SOURCE_ROOTS)
{
if (prev)
svn_fs_close_root(prev);
SVN_ERR(svn_fs_revision_root(&root, b->repos->fs, rev, b->pool));
}
/* Assign the desired root to the first cache slot and hand it back. */
b->s_roots[0] = root;
*s_root = root;
return SVN_NO_ERROR;
}
/* Call the directory property-setting function of B->editor to set
the property NAME to VALUE on DIR_BATON. */
static svn_error_t *
change_dir_prop(report_baton_t *b, void *dir_baton, const char *name,
const svn_string_t *value, apr_pool_t *pool)
{
return svn_error_trace(b->editor->change_dir_prop(dir_baton, name, value,
pool));
}
/* Call the file property-setting function of B->editor to set the
property NAME to VALUE on FILE_BATON. */
static svn_error_t *
change_file_prop(report_baton_t *b, void *file_baton, const char *name,
const svn_string_t *value, apr_pool_t *pool)
{
return svn_error_trace(b->editor->change_file_prop(file_baton, name, value,
pool));
}
/* For the report B, return the relevant revprop data of revision REV in
REVISION_INFO. The revision info will be allocated in b->pool.
Temporaries get allocated on SCRATCH_POOL. */
static svn_error_t *
get_revision_info(report_baton_t *b,
svn_revnum_t rev,
revision_info_t** revision_info,
apr_pool_t *scratch_pool)
{
apr_hash_t *r_props;
svn_string_t *cdate, *author;
revision_info_t* info;
/* Try to find the info in the report's cache */
info = apr_hash_get(b->revision_infos, &rev, sizeof(rev));
if (!info)
{
/* Info is not available, yet.
Get all revprops. */
SVN_ERR(svn_fs_revision_proplist2(&r_props,
b->repos->fs,
rev,
FALSE,
scratch_pool,
scratch_pool));
/* Extract the committed-date. */
cdate = svn_hash_gets(r_props, SVN_PROP_REVISION_DATE);
/* Extract the last-author. */
author = svn_hash_gets(r_props, SVN_PROP_REVISION_AUTHOR);
/* Create a result object */
info = apr_palloc(b->pool, sizeof(*info));
info->rev = rev;
info->date = svn_string_dup(cdate, b->pool);
info->author = svn_string_dup(author, b->pool);
/* Cache it */
apr_hash_set(b->revision_infos, &info->rev, sizeof(info->rev), info);
}
*revision_info = info;
return SVN_NO_ERROR;
}
/* Generate the appropriate property editing calls to turn the
properties of S_REV/S_PATH into those of B->t_root/T_PATH. If
S_PATH is NULL, this is an add, so assume the target starts with no
properties. Pass OBJECT on to the editor function wrapper
CHANGE_FN. */
static svn_error_t *
delta_proplists(report_baton_t *b, svn_revnum_t s_rev, const char *s_path,
const char *t_path, const char *lock_token,
proplist_change_fn_t *change_fn,
void *object, apr_pool_t *pool)
{
svn_fs_root_t *s_root;
apr_hash_t *s_props = NULL, *t_props;
svn_revnum_t crev;
/* Fetch the created-rev and send entry props. */
SVN_ERR(svn_fs_node_created_rev(&crev, b->t_root, t_path, pool));
if (SVN_IS_VALID_REVNUM(crev))
{
revision_info_t *revision_info;
/* convert committed-rev to string */
char buf[SVN_INT64_BUFFER_SIZE];
svn_string_t cr_str;
cr_str.data = buf;
cr_str.len = svn__i64toa(buf, crev);
/* Transmit the committed-rev. */
SVN_ERR(change_fn(b, object,
SVN_PROP_ENTRY_COMMITTED_REV, &cr_str, pool));
SVN_ERR(get_revision_info(b, crev, &revision_info, pool));
/* Transmit the committed-date. */
if (revision_info->date || s_path)
SVN_ERR(change_fn(b, object, SVN_PROP_ENTRY_COMMITTED_DATE,
revision_info->date, pool));
/* Transmit the last-author. */
if (revision_info->author || s_path)
SVN_ERR(change_fn(b, object, SVN_PROP_ENTRY_LAST_AUTHOR,
revision_info->author, pool));
/* Transmit the UUID. */
SVN_ERR(change_fn(b, object, SVN_PROP_ENTRY_UUID,
b->repos_uuid, pool));
}
/* Update lock properties. */
if (lock_token)
{
svn_lock_t *lock;
SVN_ERR(svn_fs_get_lock(&lock, b->repos->fs, t_path, pool));
/* Delete a defunct lock. */
if (! lock || strcmp(lock_token, lock->token) != 0)
SVN_ERR(change_fn(b, object, SVN_PROP_ENTRY_LOCK_TOKEN,
NULL, pool));
}
if (s_path)
{
svn_boolean_t changed;
SVN_ERR(get_source_root(b, &s_root, s_rev));
/* Is this deltification worth our time? */
SVN_ERR(svn_fs_props_different(&changed, b->t_root, t_path, s_root,
s_path, pool));
if (! changed)
return SVN_NO_ERROR;
/* If so, go ahead and get the source path's properties. */
SVN_ERR(svn_fs_node_proplist(&s_props, s_root, s_path, pool));
}
/* Get the target path's properties */
SVN_ERR(svn_fs_node_proplist(&t_props, b->t_root, t_path, pool));
if (s_props && apr_hash_count(s_props))
{
apr_array_header_t *prop_diffs;
int i;
/* Now transmit the differences. */
SVN_ERR(svn_prop_diffs(&prop_diffs, t_props, s_props, pool));
for (i = 0; i < prop_diffs->nelts; i++)
{
const svn_prop_t *pc = &APR_ARRAY_IDX(prop_diffs, i, svn_prop_t);
SVN_ERR(change_fn(b, object, pc->name, pc->value, pool));
}
}
else if (apr_hash_count(t_props))
{
apr_hash_index_t *hi;
/* So source, i.e. all new. Transmit all target props. */
for (hi = apr_hash_first(pool, t_props); hi; hi = apr_hash_next(hi))
{
const char *key = apr_hash_this_key(hi);
svn_string_t *val = apr_hash_this_val(hi);
SVN_ERR(change_fn(b, object, key, val, pool));
}
}
return SVN_NO_ERROR;
}
/* Baton type to be passed into send_zero_copy_delta.
*/
typedef struct zero_copy_baton_t
{
/* don't process data larger than this limit */
apr_size_t zero_copy_limit;
/* window handler and baton to send the data to */
svn_txdelta_window_handler_t dhandler;
void *dbaton;
/* return value: will be set to TRUE, if the data was processed. */
svn_boolean_t zero_copy_succeeded;
} zero_copy_baton_t;
/* Implement svn_fs_process_contents_func_t. If LEN is smaller than the
* limit given in *BATON, send the CONTENTS as an delta windows to the
* handler given in BATON and set the ZERO_COPY_SUCCEEDED flag in that
* BATON. Otherwise, reset it to FALSE.
* Use POOL for temporary allocations.
*/
static svn_error_t *
send_zero_copy_delta(const unsigned char *contents,
apr_size_t len,
void *baton,
apr_pool_t *pool)
{
zero_copy_baton_t *zero_copy_baton = baton;
/* if the item is too large, the caller must revert to traditional
streaming code. */
if (len > zero_copy_baton->zero_copy_limit)
{
zero_copy_baton->zero_copy_succeeded = FALSE;
return SVN_NO_ERROR;
}
SVN_ERR(svn_txdelta_send_contents(contents, len,
zero_copy_baton->dhandler,
zero_copy_baton->dbaton, pool));
/* all fine now */
zero_copy_baton->zero_copy_succeeded = TRUE;
return SVN_NO_ERROR;
}
/* Make the appropriate edits on FILE_BATON to change its contents and
properties from those in S_REV/S_PATH to those in B->t_root/T_PATH,
possibly using LOCK_TOKEN to determine if the client's lock on the file
is defunct. */
static svn_error_t *
delta_files(report_baton_t *b, void *file_baton, svn_revnum_t s_rev,
const char *s_path, const char *t_path, const char *lock_token,
apr_pool_t *pool)
{
svn_fs_root_t *s_root = NULL;
svn_txdelta_stream_t *dstream = NULL;
svn_checksum_t *s_checksum;
const char *s_hex_digest = NULL;
svn_txdelta_window_handler_t dhandler;
void *dbaton;
/* Compare the files' property lists. */
SVN_ERR(delta_proplists(b, s_rev, s_path, t_path, lock_token,
change_file_prop, file_baton, pool));
if (s_path)
{
svn_boolean_t changed;
SVN_ERR(get_source_root(b, &s_root, s_rev));
/* We're not interested in the theoretical difference between "has
contents which have not changed with respect to" and "has the same
actual contents as" when sending text-deltas. If we know the
delta is an empty one, we avoiding sending it in either case. */
SVN_ERR(svn_fs_contents_different(&changed, b->t_root, t_path,
s_root, s_path, pool));
if (!changed)
return SVN_NO_ERROR;
SVN_ERR(svn_fs_file_checksum(&s_checksum, svn_checksum_md5, s_root,
s_path, TRUE, pool));
s_hex_digest = svn_checksum_to_cstring(s_checksum, pool);
}
/* Send the delta stream if desired, or just a NULL window if not. */
SVN_ERR(b->editor->apply_textdelta(file_baton, s_hex_digest, pool,
&dhandler, &dbaton));
if (dhandler != svn_delta_noop_window_handler)
{
if (b->text_deltas)
{
/* if we send deltas against empty streams, we may use our
zero-copy code. */
if (b->zero_copy_limit > 0 && s_path == NULL)
{
zero_copy_baton_t baton;
svn_boolean_t called = FALSE;
baton.zero_copy_limit = b->zero_copy_limit;
baton.dhandler = dhandler;
baton.dbaton = dbaton;
baton.zero_copy_succeeded = FALSE;
SVN_ERR(svn_fs_try_process_file_contents(&called,
b->t_root, t_path,
send_zero_copy_delta,
&baton, pool));
/* data has been available and small enough,
i.e. been processed? */
if (called && baton.zero_copy_succeeded)
return SVN_NO_ERROR;
}
SVN_ERR(svn_fs_get_file_delta_stream(&dstream, s_root, s_path,
b->t_root, t_path, pool));
SVN_ERR(svn_txdelta_send_txstream(dstream, dhandler, dbaton, pool));
}
else
SVN_ERR(dhandler(NULL, dbaton));
}
return SVN_NO_ERROR;
}
/* Determine if the user is authorized to view B->t_root/PATH. */
static svn_error_t *
check_auth(report_baton_t *b, svn_boolean_t *allowed, const char *path,
apr_pool_t *pool)
{
if (b->authz_read_func)
return svn_error_trace(b->authz_read_func(allowed, b->t_root, path,
b->authz_read_baton, pool));
*allowed = TRUE;
return SVN_NO_ERROR;
}
/* Create a dirent in *ENTRY for the given ROOT and PATH. We use this to
replace the source or target dirent when a report pathinfo tells us to
change paths or revisions. */
static svn_error_t *
fake_dirent(const svn_fs_dirent_t **entry, svn_fs_root_t *root,
const char *path, apr_pool_t *pool)
{
svn_node_kind_t kind;
svn_fs_dirent_t *ent;
SVN_ERR(svn_fs_check_path(&kind, root, path, pool));
if (kind == svn_node_none)
*entry = NULL;
else
{
ent = apr_palloc(pool, sizeof(**entry));
/* ### All callers should be updated to pass just one of these
formats */
ent->name = (*path == '/') ? svn_fspath__basename(path, pool)
: svn_relpath_basename(path, pool);
SVN_ERR(svn_fs_node_id(&ent->id, root, path, pool));
ent->kind = kind;
*entry = ent;
}
return SVN_NO_ERROR;
}
/* Given REQUESTED_DEPTH, WC_DEPTH and the current entry's KIND,
determine whether we need to send the whole entry, not just deltas.
Please refer to delta_dirs' docstring for an explanation of the
conditionals below. */
static svn_boolean_t
is_depth_upgrade(svn_depth_t wc_depth,
svn_depth_t requested_depth,
svn_node_kind_t kind)
{
if (requested_depth == svn_depth_unknown
|| requested_depth <= wc_depth
|| wc_depth == svn_depth_immediates)
return FALSE;
if (kind == svn_node_file
&& wc_depth == svn_depth_files)
return FALSE;
if (kind == svn_node_dir
&& wc_depth == svn_depth_empty
&& requested_depth == svn_depth_files)
return FALSE;
return TRUE;
}
/* Call the B->editor's add_file() function to create PATH as a child
of PARENT_BATON, returning a new baton in *NEW_FILE_BATON.
However, make an attempt to send 'copyfrom' arguments if they're
available, by examining the closest copy of the original file
O_PATH within B->t_root. If any copyfrom args are discovered,
return those in *COPYFROM_PATH and *COPYFROM_REV; otherwise leave
those return args untouched. */
static svn_error_t *
add_file_smartly(report_baton_t *b,
const char *path,
void *parent_baton,
const char *o_path,
void **new_file_baton,
const char **copyfrom_path,
svn_revnum_t *copyfrom_rev,
apr_pool_t *pool)
{
/* ### TODO: use a subpool to do this work, clear it at the end? */
svn_fs_t *fs = svn_repos_fs(b->repos);
svn_fs_root_t *closest_copy_root = NULL;
const char *closest_copy_path = NULL;
/* Pre-emptively assume no copyfrom args exist. */
*copyfrom_path = NULL;
*copyfrom_rev = SVN_INVALID_REVNUM;
if (b->send_copyfrom_args)
{
/* Find the destination of the nearest 'copy event' which may have
caused o_path@t_root to exist. svn_fs_closest_copy only returns paths
starting with '/', so make sure o_path always starts with a '/'
too. */
if (*o_path != '/')
o_path = apr_pstrcat(pool, "/", o_path, SVN_VA_NULL);
SVN_ERR(svn_fs_closest_copy(&closest_copy_root, &closest_copy_path,
b->t_root, o_path, pool));
if (closest_copy_root != NULL)
{
/* If the destination of the copy event is the same path as
o_path, then we've found something interesting that should
have 'copyfrom' history. */
if (strcmp(closest_copy_path, o_path) == 0)
{
SVN_ERR(svn_fs_copied_from(copyfrom_rev, copyfrom_path,
closest_copy_root, closest_copy_path,
pool));
if (b->authz_read_func)
{
svn_boolean_t allowed;
svn_fs_root_t *copyfrom_root;
SVN_ERR(svn_fs_revision_root(&copyfrom_root, fs,
*copyfrom_rev, pool));
SVN_ERR(b->authz_read_func(&allowed, copyfrom_root,
*copyfrom_path, b->authz_read_baton,
pool));
if (! allowed)
{
*copyfrom_path = NULL;
*copyfrom_rev = SVN_INVALID_REVNUM;
}
}
}
}
}
return svn_error_trace(b->editor->add_file(path, parent_baton,
*copyfrom_path, *copyfrom_rev,
pool, new_file_baton));
}
/* Emit a series of editing operations to transform a source entry to
a target entry.
S_REV and S_PATH specify the source entry. S_ENTRY contains the
already-looked-up information about the node-revision existing at
that location. S_PATH and S_ENTRY may be NULL if the entry does
not exist in the source. S_PATH may be non-NULL and S_ENTRY may be
NULL if the caller expects INFO to modify the source to an existing
location.
B->t_root and T_PATH specify the target entry. T_ENTRY contains
the already-looked-up information about the node-revision existing
at that location. T_PATH and T_ENTRY may be NULL if the entry does
not exist in the target.
DIR_BATON and E_PATH contain the parameters which should be passed
to the editor calls--DIR_BATON for the parent directory baton and
E_PATH for the pathname. (E_PATH is the anchor-relative working
copy pathname, which may differ from the source and target
pathnames if the report contains a link_path.)
INFO contains the report information for this working copy path, or
NULL if there is none. This function will internally modify the
source and target entries as appropriate based on the report
information.
WC_DEPTH and REQUESTED_DEPTH are propagated to delta_dirs() if
necessary. Refer to delta_dirs' docstring to find out what
should happen for various combinations of WC_DEPTH/REQUESTED_DEPTH. */
static svn_error_t *
update_entry(report_baton_t *b, svn_revnum_t s_rev, const char *s_path,
const svn_fs_dirent_t *s_entry, const char *t_path,
const svn_fs_dirent_t *t_entry, void *dir_baton,
const char *e_path, path_info_t *info, svn_depth_t wc_depth,
svn_depth_t requested_depth, apr_pool_t *pool)
{
svn_fs_root_t *s_root = NULL;
svn_boolean_t allowed, related;
void *new_baton;
svn_checksum_t *checksum;
const char *hex_digest;
/* For non-switch operations, follow link_path in the target. */
if (info && info->link_path && !b->is_switch)
{
t_path = info->link_path;
SVN_ERR(fake_dirent(&t_entry, b->t_root, t_path, pool));
}
if (info && !SVN_IS_VALID_REVNUM(info->rev))
{
/* Delete this entry in the source. */
s_path = NULL;
s_entry = NULL;
}
else if (info && s_path)
{
/* Follow the rev and possibly path in this entry. */
s_path = (info->link_path) ? info->link_path : s_path;
s_rev = info->rev;
SVN_ERR(get_source_root(b, &s_root, s_rev));
SVN_ERR(fake_dirent(&s_entry, s_root, s_path, pool));
}
/* Don't let the report carry us somewhere nonexistent. */
if (s_path && !s_entry)
return svn_error_createf(SVN_ERR_FS_NOT_FOUND, NULL,
_("Working copy path '%s' does not exist in "
"repository"), e_path);
/* If the source and target both exist and are of the same kind,
then find out whether they're related. If they're exactly the
same, then we don't have to do anything (unless the report has
changes to the source). If we're ignoring ancestry, then any two
nodes of the same type are related enough for us. */
related = FALSE;
if (s_entry && t_entry && s_entry->kind == t_entry->kind)
{
int distance = svn_fs_compare_ids(s_entry->id, t_entry->id);
svn_boolean_t changed = TRUE;
/* Check related files for content changes to avoid reporting
* unchanged copies of files to the client as an open_file() call
* and change_file_prop()/apply_textdelta() calls with no-op changes.
* The client will otherwise raise unnecessary tree conflicts. */
if (!b->ignore_ancestry && t_entry->kind == svn_node_file &&
distance == 1)
{
if (s_root == NULL)
SVN_ERR(get_source_root(b, &s_root, s_rev));
SVN_ERR(svn_fs_props_changed(&changed, s_root, s_path,
b->t_root, t_path, pool));
if (!changed)
SVN_ERR(svn_fs_contents_changed(&changed, s_root, s_path,
b->t_root, t_path, pool));
}
if ((distance == 0 || !changed) && !any_path_info(b, e_path)
&& (requested_depth <= wc_depth || t_entry->kind == svn_node_file))
{
if (!info)
return SVN_NO_ERROR;
if (!info->start_empty)
{
svn_lock_t *lock;
if (!info->lock_token)
return SVN_NO_ERROR;
SVN_ERR(svn_fs_get_lock(&lock, b->repos->fs, t_path, pool));
if (lock && (strcmp(lock->token, info->lock_token) == 0))
return SVN_NO_ERROR;
}
}
related = (distance != -1 || b->ignore_ancestry);
}
/* If there's a source and it's not related to the target, nuke it. */
if (s_entry && !related)
{
svn_revnum_t deleted_rev;
SVN_ERR(svn_repos_deleted_rev(svn_fs_root_fs(b->t_root), t_path,
s_rev, b->t_rev, &deleted_rev,
pool));
if (!SVN_IS_VALID_REVNUM(deleted_rev))
{
/* Two possibilities: either the thing doesn't exist in S_REV; or
it wasn't deleted between S_REV and B->T_REV. In the first case,
I think we should leave DELETED_REV as SVN_INVALID_REVNUM, but
in the second, it should be set to B->T_REV-1 for the call to
delete_entry() below. */
svn_node_kind_t kind;
SVN_ERR(svn_fs_check_path(&kind, b->t_root, t_path, pool));
if (kind != svn_node_none)
deleted_rev = b->t_rev - 1;
}
SVN_ERR(b->editor->delete_entry(e_path, deleted_rev, dir_baton,
pool));
s_path = NULL;
}
/* If there's no target, we have nothing more to do. */
if (!t_entry)
return svn_error_trace(skip_path_info(b, e_path));
/* Check if the user is authorized to find out about the target. */
SVN_ERR(check_auth(b, &allowed, t_path, pool));
if (!allowed)
{
if (t_entry->kind == svn_node_dir)
SVN_ERR(b->editor->absent_directory(e_path, dir_baton, pool));
else
SVN_ERR(b->editor->absent_file(e_path, dir_baton, pool));
return svn_error_trace(skip_path_info(b, e_path));
}
if (t_entry->kind == svn_node_dir)
{
if (related)
SVN_ERR(b->editor->open_directory(e_path, dir_baton, s_rev, pool,
&new_baton));
else
SVN_ERR(b->editor->add_directory(e_path, dir_baton, NULL,
SVN_INVALID_REVNUM, pool,
&new_baton));
SVN_ERR(delta_dirs(b, s_rev, s_path, t_path, new_baton, e_path,
info ? info->start_empty : FALSE,
wc_depth, requested_depth, pool));
return svn_error_trace(b->editor->close_directory(new_baton, pool));
}
else
{
if (related)
{
SVN_ERR(b->editor->open_file(e_path, dir_baton, s_rev, pool,
&new_baton));
SVN_ERR(delta_files(b, new_baton, s_rev, s_path, t_path,
info ? info->lock_token : NULL, pool));
}
else
{
svn_revnum_t copyfrom_rev = SVN_INVALID_REVNUM;
const char *copyfrom_path = NULL;
SVN_ERR(add_file_smartly(b, e_path, dir_baton, t_path, &new_baton,
&copyfrom_path, &copyfrom_rev, pool));
if (! copyfrom_path)
/* Send txdelta between empty file (s_path@s_rev doesn't
exist) and added file (t_path@t_root). */
SVN_ERR(delta_files(b, new_baton, s_rev, s_path, t_path,
info ? info->lock_token : NULL, pool));
else
/* Send txdelta between copied file (copyfrom_path@copyfrom_rev)
and added file (tpath@t_root). */
SVN_ERR(delta_files(b, new_baton, copyfrom_rev, copyfrom_path,
t_path, info ? info->lock_token : NULL, pool));
}
SVN_ERR(svn_fs_file_checksum(&checksum, svn_checksum_md5, b->t_root,
t_path, TRUE, pool));
hex_digest = svn_checksum_to_cstring(checksum, pool);
return svn_error_trace(b->editor->close_file(new_baton, hex_digest,
pool));
}
}
/* A helper macro for when we have to recurse into subdirectories. */
#define DEPTH_BELOW_HERE(depth) ((depth) == svn_depth_immediates) ? \
svn_depth_empty : (depth)
/* Emit edits within directory DIR_BATON (with corresponding path
E_PATH) with the changes from the directory S_REV/S_PATH to the
directory B->t_rev/T_PATH. S_PATH may be NULL if the entry does
not exist in the source.
WC_DEPTH is this path's depth as reported by set_path/link_path.
REQUESTED_DEPTH is derived from the depth set by
svn_repos_begin_report().
When iterating over this directory's entries, the following tables
describe what happens for all possible combinations
of WC_DEPTH/REQUESTED_DEPTH (rows represent WC_DEPTH, columns
represent REQUESTED_DEPTH):
Legend:
X: ignore this entry (it's either below the requested depth, or
if the requested depth is svn_depth_unknown, below the working
copy depth)
o: handle this entry normally
U: handle the entry as if it were a newly added repository path
(the client is upgrading to a deeper wc and doesn't currently
have this entry, but it should be there after the upgrade, so we
need to send the whole thing, not just deltas)
For files:
______________________________________________________________
| req. depth| unknown | empty | files | immediates | infinity |
|wc. depth | | | | | |
|___________|_________|_______|_______|____________|__________|
|empty | X | X | U | U | U |
|___________|_________|_______|_______|____________|__________|
|files | o | X | o | o | o |
|___________|_________|_______|_______|____________|__________|
|immediates | o | X | o | o | o |
|___________|_________|_______|_______|____________|__________|
|infinity | o | X | o | o | o |
|___________|_________|_______|_______|____________|__________|
For directories:
______________________________________________________________
| req. depth| unknown | empty | files | immediates | infinity |
|wc. depth | | | | | |
|___________|_________|_______|_______|____________|__________|
|empty | X | X | X | U | U |
|___________|_________|_______|_______|____________|__________|
|files | X | X | X | U | U |
|___________|_________|_______|_______|____________|__________|
|immediates | o | X | X | o | o |
|___________|_________|_______|_______|____________|__________|
|infinity | o | X | X | o | o |
|___________|_________|_______|_______|____________|__________|
These rules are enforced by the is_depth_upgrade() function and by
various other checks below.
*/
static svn_error_t *
delta_dirs(report_baton_t *b, svn_revnum_t s_rev, const char *s_path,
const char *t_path, void *dir_baton, const char *e_path,
svn_boolean_t start_empty, svn_depth_t wc_depth,
svn_depth_t requested_depth, apr_pool_t *pool)
{
apr_hash_t *s_entries = NULL, *t_entries;
apr_hash_index_t *hi;
apr_pool_t *subpool = svn_pool_create(pool);
apr_array_header_t *t_ordered_entries = NULL;
int i;
/* Compare the property lists. If we're starting empty, pass a NULL
source path so that we add all the properties.
When we support directory locks, we must pass the lock token here. */
SVN_ERR(delta_proplists(b, s_rev, start_empty ? NULL : s_path, t_path,
NULL, change_dir_prop, dir_baton, subpool));
svn_pool_clear(subpool);
if (requested_depth > svn_depth_empty
|| requested_depth == svn_depth_unknown)
{
apr_pool_t *iterpool;
/* Get the list of entries in each of source and target. */
if (s_path && !start_empty)
{
svn_fs_root_t *s_root;
SVN_ERR(get_source_root(b, &s_root, s_rev));
SVN_ERR(svn_fs_dir_entries(&s_entries, s_root, s_path, subpool));
}
SVN_ERR(svn_fs_dir_entries(&t_entries, b->t_root, t_path, subpool));
/* Iterate over the report information for this directory. */
iterpool = svn_pool_create(subpool);
while (1)
{
path_info_t *info;
const char *name, *s_fullpath, *t_fullpath, *e_fullpath;
const svn_fs_dirent_t *s_entry, *t_entry;
svn_pool_clear(iterpool);
SVN_ERR(fetch_path_info(b, &name, &info, e_path, iterpool));
if (!name)
break;
/* Invalid revnum means we should delete, unless this is
just an excluded subpath. */
if (info
&& !SVN_IS_VALID_REVNUM(info->rev)
&& info->depth != svn_depth_exclude)
{
/* We want to perform deletes before non-replacement adds,
for graceful handling of case-only renames on
case-insensitive client filesystems. So, if the report
item is a delete, remove the entry from the source hash,
but don't update the entry yet. */
if (s_entries)
svn_hash_sets(s_entries, name, NULL);
svn_pool_destroy(info->pool);
continue;
}
e_fullpath = svn_relpath_join(e_path, name, iterpool);
t_fullpath = svn_fspath__join(t_path, name, iterpool);
t_entry = svn_hash_gets(t_entries, name);
s_fullpath = s_path ? svn_fspath__join(s_path, name, iterpool) : NULL;
s_entry = s_entries ? svn_hash_gets(s_entries, name) : NULL;
/* The only special cases where we don't process the entry are
- When requested_depth is files but the reported path is
a directory. This is technically a client error, but we
handle it anyway, by skipping the entry.
- When the reported depth is svn_depth_exclude.
*/
if (! ((requested_depth == svn_depth_files
&& ((t_entry && t_entry->kind == svn_node_dir)
|| (s_entry && s_entry->kind == svn_node_dir)))
|| (info && info->depth == svn_depth_exclude)))
SVN_ERR(update_entry(b, s_rev, s_fullpath, s_entry, t_fullpath,
t_entry, dir_baton, e_fullpath, info,
info ? info->depth
: DEPTH_BELOW_HERE(wc_depth),
DEPTH_BELOW_HERE(requested_depth), iterpool));
/* Don't revisit this name in the target or source entries. */
svn_hash_sets(t_entries, name, NULL);
if (s_entries
/* Keep the entry for later process if it is reported as
excluded and got deleted in repos. */
&& (! info || info->depth != svn_depth_exclude || t_entry))
svn_hash_sets(s_entries, name, NULL);
/* pathinfo entries live in their own subpools due to lookahead,
so we need to clear each one out as we finish with it. */
if (info)
svn_pool_destroy(info->pool);
}
/* Remove any deleted entries. Do this before processing the
target, for graceful handling of case-only renames. */
if (s_entries)
{
for (hi = apr_hash_first(subpool, s_entries);
hi;
hi = apr_hash_next(hi))
{
const svn_fs_dirent_t *s_entry = apr_hash_this_val(hi);
svn_pool_clear(iterpool);
if (svn_hash_gets(t_entries, s_entry->name) == NULL)
{
const char *e_fullpath;
svn_revnum_t deleted_rev;
if (s_entry->kind == svn_node_file
&& wc_depth < svn_depth_files)
continue;
if (s_entry->kind == svn_node_dir
&& (wc_depth < svn_depth_immediates
|| requested_depth == svn_depth_files))
continue;
/* There is no corresponding target entry, so delete. */
e_fullpath = svn_relpath_join(e_path, s_entry->name, iterpool);
SVN_ERR(svn_repos_deleted_rev(svn_fs_root_fs(b->t_root),
svn_fspath__join(t_path,
s_entry->name,
iterpool),
s_rev, b->t_rev,
&deleted_rev, iterpool));
SVN_ERR(b->editor->delete_entry(e_fullpath,
deleted_rev,
dir_baton, iterpool));
}
}
}
/* Loop over the dirents in the target. */
SVN_ERR(svn_fs_dir_optimal_order(&t_ordered_entries, b->t_root,
t_entries, subpool, iterpool));
for (i = 0; i < t_ordered_entries->nelts; ++i)
{
const svn_fs_dirent_t *t_entry
= APR_ARRAY_IDX(t_ordered_entries, i, svn_fs_dirent_t *);
const svn_fs_dirent_t *s_entry;
const char *s_fullpath, *t_fullpath, *e_fullpath;
svn_pool_clear(iterpool);
if (is_depth_upgrade(wc_depth, requested_depth, t_entry->kind))
{
/* We're making the working copy deeper, pretend the source
doesn't exist. */
s_entry = NULL;
s_fullpath = NULL;
}
else
{
if (t_entry->kind == svn_node_file
&& requested_depth == svn_depth_unknown
&& wc_depth < svn_depth_files)
continue;
if (t_entry->kind == svn_node_dir
&& (wc_depth < svn_depth_immediates
|| requested_depth == svn_depth_files))
continue;
/* Look for an entry with the same name in the source dirents. */
s_entry = s_entries ?
svn_hash_gets(s_entries, t_entry->name) : NULL;
s_fullpath = s_entry ?
svn_fspath__join(s_path, t_entry->name, iterpool) : NULL;
}
/* Compose the report, editor, and target paths for this entry. */
e_fullpath = svn_relpath_join(e_path, t_entry->name, iterpool);
t_fullpath = svn_fspath__join(t_path, t_entry->name, iterpool);
SVN_ERR(update_entry(b, s_rev, s_fullpath, s_entry, t_fullpath,
t_entry, dir_baton, e_fullpath, NULL,
DEPTH_BELOW_HERE(wc_depth),
DEPTH_BELOW_HERE(requested_depth),
iterpool));
}
/* iterpool is destroyed by destroying its parent (subpool) below */
}
svn_pool_destroy(subpool);
return SVN_NO_ERROR;
}
static svn_error_t *
drive(report_baton_t *b, svn_revnum_t s_rev, path_info_t *info,
apr_pool_t *pool)
{
const char *t_anchor, *s_fullpath;
svn_boolean_t allowed, info_is_set_path;
svn_fs_root_t *s_root;
const svn_fs_dirent_t *s_entry, *t_entry;
void *root_baton;
/* Compute the target path corresponding to the working copy anchor,
and check its authorization. */
t_anchor = *b->s_operand ? svn_fspath__dirname(b->t_path, pool) : b->t_path;
SVN_ERR(check_auth(b, &allowed, t_anchor, pool));
if (!allowed)
return svn_error_create
(SVN_ERR_AUTHZ_ROOT_UNREADABLE, NULL,
_("Not authorized to open root of edit operation"));
/* Collect information about the source and target nodes. */
s_fullpath = svn_fspath__join(b->fs_base, b->s_operand, pool);
SVN_ERR(get_source_root(b, &s_root, s_rev));
SVN_ERR(fake_dirent(&s_entry, s_root, s_fullpath, pool));
SVN_ERR(fake_dirent(&t_entry, b->t_root, b->t_path, pool));
/* If the operand is a locally added file or directory, it won't
exist in the source, so accept that. */
info_is_set_path = (SVN_IS_VALID_REVNUM(info->rev) && !info->link_path);
if (info_is_set_path && !s_entry)
s_fullpath = NULL;
/* Check if the target path exists first. */
if (!*b->s_operand && !(t_entry))
return svn_error_createf(SVN_ERR_FS_PATH_SYNTAX, NULL,
_("Target path '%s' does not exist"),
b->t_path);
/* If the anchor is the operand, the source and target must be dirs.
Check this before opening the root to avoid modifying the wc. */
else if (!*b->s_operand && (!s_entry || s_entry->kind != svn_node_dir
|| t_entry->kind != svn_node_dir))
return svn_error_create(SVN_ERR_FS_PATH_SYNTAX, NULL,
_("Cannot replace a directory from within"));
SVN_ERR(b->editor->set_target_revision(b->edit_baton, b->t_rev, pool));
SVN_ERR(b->editor->open_root(b->edit_baton, s_rev, pool, &root_baton));
/* If the anchor is the operand, diff the two directories; otherwise
update the operand within the anchor directory. */
if (!*b->s_operand)
SVN_ERR(delta_dirs(b, s_rev, s_fullpath, b->t_path, root_baton,
"", info->start_empty, info->depth, b->requested_depth,
pool));
else
SVN_ERR(update_entry(b, s_rev, s_fullpath, s_entry, b->t_path,
t_entry, root_baton, b->s_operand, info,
info->depth, b->requested_depth, pool));
return svn_error_trace(b->editor->close_directory(root_baton, pool));
}
/* Initialize the baton fields for editor-driving, and drive the editor. */
static svn_error_t *
finish_report(report_baton_t *b, apr_pool_t *pool)
{
path_info_t *info;
apr_pool_t *subpool;
svn_revnum_t s_rev;
int i;
/* Save our pool to manage the lookahead and fs_root cache with. */
b->pool = pool;
/* Add the end marker. */
SVN_ERR(svn_spillbuf__reader_write(b->reader, "-", 1, pool));
/* Read the first pathinfo from the report and verify that it is a top-level
set_path entry. */
SVN_ERR(read_path_info(&info, b->reader, pool));
if (!info || strcmp(info->path, b->s_operand) != 0
|| info->link_path || !SVN_IS_VALID_REVNUM(info->rev))
return svn_error_create(SVN_ERR_REPOS_BAD_REVISION_REPORT, NULL,
_("Invalid report for top level of working copy"));
s_rev = info->rev;
/* Initialize the lookahead pathinfo. */
subpool = svn_pool_create(pool);
SVN_ERR(read_path_info(&b->lookahead, b->reader, subpool));
if (b->lookahead && strcmp(b->lookahead->path, b->s_operand) == 0)
{
/* If the operand of the wc operation is switched or deleted,
then info above is just a place-holder, and the only thing we
have to do is pass the revision it contains to open_root.
The next pathinfo actually describes the target. */
if (!*b->s_operand)
return svn_error_create(SVN_ERR_REPOS_BAD_REVISION_REPORT, NULL,
_("Two top-level reports with no target"));
/* If the client issued a set-path followed by a delete-path, we need
to respect the depth set by the initial set-path. */
if (! SVN_IS_VALID_REVNUM(b->lookahead->rev))
{
b->lookahead->depth = info->depth;
}
info = b->lookahead;
SVN_ERR(read_path_info(&b->lookahead, b->reader, subpool));
}
/* Open the target root and initialize the source root cache. */
SVN_ERR(svn_fs_revision_root(&b->t_root, b->repos->fs, b->t_rev, pool));
for (i = 0; i < NUM_CACHED_SOURCE_ROOTS; i++)
b->s_roots[i] = NULL;
{
svn_error_t *err = svn_error_trace(drive(b, s_rev, info, pool));
if (err == SVN_NO_ERROR)
return svn_error_trace(b->editor->close_edit(b->edit_baton, pool));
return svn_error_trace(
svn_error_compose_create(err,
b->editor->abort_edit(b->edit_baton,
pool)));
}
}
/* --- COLLECTING THE REPORT INFORMATION --- */
/* Record a report operation into the spill buffer. Return an error
if DEPTH is svn_depth_unknown. */
static svn_error_t *
write_path_info(report_baton_t *b, const char *path, const char *lpath,
svn_revnum_t rev, svn_depth_t depth,
svn_boolean_t start_empty,
const char *lock_token, apr_pool_t *pool)
{
const char *lrep, *rrep, *drep, *ltrep, *rep;
/* Munge the path to be anchor-relative, so that we can use edit paths
as report paths. */
path = svn_relpath_join(b->s_operand, path, pool);
lrep = lpath ? apr_psprintf(pool, "+%" APR_SIZE_T_FMT ":%s",
strlen(lpath), lpath) : "-";
rrep = (SVN_IS_VALID_REVNUM(rev)) ?
apr_psprintf(pool, "+%ld:", rev) : "-";
if (depth == svn_depth_exclude)
drep = "+X";
else if (depth == svn_depth_empty)
drep = "+E";
else if (depth == svn_depth_files)
drep = "+F";
else if (depth == svn_depth_immediates)
drep = "+M";
else if (depth == svn_depth_infinity)
drep = "-";
else
return svn_error_createf(SVN_ERR_REPOS_BAD_ARGS, NULL,
_("Unsupported report depth '%s'"),
svn_depth_to_word(depth));
ltrep = lock_token ? apr_psprintf(pool, "+%" APR_SIZE_T_FMT ":%s",
strlen(lock_token), lock_token) : "-";
rep = apr_psprintf(pool, "+%" APR_SIZE_T_FMT ":%s%s%s%s%c%s",
strlen(path), path, lrep, rrep, drep,
start_empty ? '+' : '-', ltrep);
return svn_error_trace(
svn_spillbuf__reader_write(b->reader, rep, strlen(rep), pool));
}
svn_error_t *
svn_repos_set_path3(void *baton, const char *path, svn_revnum_t rev,
svn_depth_t depth, svn_boolean_t start_empty,
const char *lock_token, apr_pool_t *pool)
{
return svn_error_trace(
write_path_info(baton, path, NULL, rev, depth, start_empty,
lock_token, pool));
}
svn_error_t *
svn_repos_link_path3(void *baton, const char *path, const char *link_path,
svn_revnum_t rev, svn_depth_t depth,
svn_boolean_t start_empty,
const char *lock_token, apr_pool_t *pool)
{
if (depth == svn_depth_exclude)
return svn_error_create(SVN_ERR_REPOS_BAD_ARGS, NULL,
_("Depth 'exclude' not supported for link"));
return svn_error_trace(
write_path_info(baton, path, link_path, rev, depth,
start_empty, lock_token, pool));
}
svn_error_t *
svn_repos_delete_path(void *baton, const char *path, apr_pool_t *pool)
{
/* We pass svn_depth_infinity because deletion of a path always
deletes everything underneath it. */
return svn_error_trace(
write_path_info(baton, path, NULL, SVN_INVALID_REVNUM,
svn_depth_infinity, FALSE, NULL, pool));
}
svn_error_t *
svn_repos_finish_report(void *baton, apr_pool_t *pool)
{
report_baton_t *b = baton;
SVN_ERR(svn_fs_refresh_revision_props(svn_repos_fs(b->repos), pool));
return svn_error_trace(finish_report(b, pool));
}
svn_error_t *
svn_repos_abort_report(void *baton, apr_pool_t *pool)
{
return SVN_NO_ERROR;
}
/* --- BEGINNING THE REPORT --- */
svn_error_t *
svn_repos_begin_report3(void **report_baton,
svn_revnum_t revnum,
svn_repos_t *repos,
const char *fs_base,
const char *s_operand,
const char *switch_path,
svn_boolean_t text_deltas,
svn_depth_t depth,
svn_boolean_t ignore_ancestry,
svn_boolean_t send_copyfrom_args,
const svn_delta_editor_t *editor,
void *edit_baton,
svn_repos_authz_func_t authz_read_func,
void *authz_read_baton,
apr_size_t zero_copy_limit,
apr_pool_t *pool)
{
report_baton_t *b;
const char *uuid;
if (depth == svn_depth_exclude)
return svn_error_create(SVN_ERR_REPOS_BAD_ARGS, NULL,
_("Request depth 'exclude' not supported"));
SVN_ERR(svn_fs_get_uuid(repos->fs, &uuid, pool));
/* Build a reporter baton. Copy strings in case the caller doesn't
keep track of them. */
b = apr_palloc(pool, sizeof(*b));
b->repos = repos;
b->fs_base = svn_fspath__canonicalize(fs_base, pool);
b->s_operand = apr_pstrdup(pool, s_operand);
b->t_rev = revnum;
b->t_path = switch_path ? svn_fspath__canonicalize(switch_path, pool)
: svn_fspath__join(b->fs_base, s_operand, pool);
b->text_deltas = text_deltas;
b->zero_copy_limit = zero_copy_limit;
b->requested_depth = depth;
b->ignore_ancestry = ignore_ancestry;
b->send_copyfrom_args = send_copyfrom_args;
b->is_switch = (switch_path != NULL);
b->editor = editor;
b->edit_baton = edit_baton;
b->authz_read_func = authz_read_func;
b->authz_read_baton = authz_read_baton;
b->revision_infos = svn_hash__make(pool);
b->pool = pool;
b->reader = svn_spillbuf__reader_create(1000 /* blocksize */,
1000000 /* maxsize */,
pool);
b->repos_uuid = svn_string_create(uuid, pool);
/* Hand reporter back to client. */
*report_baton = b;
return SVN_NO_ERROR;
}