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|
// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab ft=cpp
#include "common/errno.h"
#include "rgw_common.h"
#include "rgw_coroutine.h"
#include "rgw_sync_module.h"
#include "rgw_data_sync.h"
#include "rgw_sync_module_aws.h"
#include "rgw_cr_rados.h"
#include "rgw_rest_conn.h"
#include "rgw_cr_rest.h"
#include "rgw_acl.h"
#include "rgw_zone.h"
#include "services/svc_zone.h"
#include <boost/asio/yield.hpp>
#define dout_subsys ceph_subsys_rgw
#define DEFAULT_MULTIPART_SYNC_PART_SIZE (32 * 1024 * 1024)
static string default_target_path = "rgw-${zonegroup}-${sid}/${bucket}";
static string get_key_oid(const rgw_obj_key& key)
{
string oid = key.name;
if (!key.instance.empty() &&
!key.have_null_instance()) {
oid += string(":") + key.instance;
}
return oid;
}
static string obj_to_aws_path(rgw::sal::RGWObject* obj)
{
string path = obj->get_bucket()->get_name() + "/" + get_key_oid(obj->get_key());
return path;
}
/*
json configuration definition:
{
"connection": {
"access_key": <access>,
"secret": <secret>,
"endpoint": <endpoint>,
"host_style": <path | virtual>,
},
"acls": [ { "type": <id | email | uri>,
"source_id": <source_id>,
"dest_id": <dest_id> } ... ], # optional, acl mappings, no mappings if does not exist
"target_path": <target_path>, # override default
# anything below here is for non trivial configuration
# can be used in conjuction with the above
"default": {
"connection": {
"access_key": <access>,
"secret": <secret>,
"endpoint": <endpoint>,
"host_style" <path | virtual>,
},
"acls": [ # list of source uids and how they map into destination uids in the dest objects acls
{
"type" : <id | email | uri>, # optional, default is id
"source_id": <id>,
"dest_id": <id>
} ... ]
"target_path": "rgwx-${sid}/${bucket}" # how a bucket name is mapped to destination path,
# final object name will be target_path + "/" + obj
},
"connections": [
{
"id": <id>,
"access_key": <access>,
"secret": <secret>,
"endpoint": <endpoint>,
} ... ],
"acl_profiles": [
{
"id": <id>, # acl mappings
"acls": [ {
"type": <id | email | uri>,
"source_id": <id>,
"dest_id": <id>
} ... ]
}
],
"profiles": [
{
"source_bucket": <source>, # can specify either specific bucket name (foo), or prefix (foo*)
"target_path": <dest>, # (override default)
"connection_id": <connection_id>, # optional, if empty references default connection
"acls_id": <mappings_id>, # optional, if empty references default mappings
} ... ],
}
target path optional variables:
(evaluated at init)
sid: sync instance id, randomly generated by sync process on first sync initalization
zonegroup: zonegroup name
zonegroup_id: zonegroup name
zone: zone name
zone_id: zone name
(evaluated when syncing)
bucket: bucket name
owner: bucket owner
*/
struct ACLMapping {
ACLGranteeTypeEnum type{ACL_TYPE_CANON_USER};
string source_id;
string dest_id;
ACLMapping() = default;
ACLMapping(ACLGranteeTypeEnum t,
const string& s,
const string& d) : type(t),
source_id(s),
dest_id(d) {}
void init(const JSONFormattable& config) {
const string& t = config["type"];
if (t == "email") {
type = ACL_TYPE_EMAIL_USER;
} else if (t == "uri") {
type = ACL_TYPE_GROUP;
} else {
type = ACL_TYPE_CANON_USER;
}
source_id = config["source_id"];
dest_id = config["dest_id"];
}
void dump_conf(CephContext *cct, JSONFormatter& jf) const {
Formatter::ObjectSection os(jf, "acl_mapping");
string s;
switch (type) {
case ACL_TYPE_EMAIL_USER:
s = "email";
break;
case ACL_TYPE_GROUP:
s = "uri";
break;
default:
s = "id";
break;
}
encode_json("type", s, &jf);
encode_json("source_id", source_id, &jf);
encode_json("dest_id", dest_id, &jf);
}
};
struct ACLMappings {
map<string, ACLMapping> acl_mappings;
void init(const JSONFormattable& config) {
for (auto& c : config.array()) {
ACLMapping m;
m.init(c);
acl_mappings.emplace(std::make_pair(m.source_id, m));
}
}
void dump_conf(CephContext *cct, JSONFormatter& jf) const {
Formatter::ArraySection os(jf, "acls");
for (auto& i : acl_mappings) {
i.second.dump_conf(cct, jf);
}
}
};
struct AWSSyncConfig_ACLProfiles {
map<string, std::shared_ptr<ACLMappings> > acl_profiles;
void init(const JSONFormattable& config) {
for (auto& c : config.array()) {
const string& profile_id = c["id"];
std::shared_ptr<ACLMappings> ap{new ACLMappings};
ap->init(c["acls"]);
acl_profiles[profile_id] = ap;
}
}
void dump_conf(CephContext *cct, JSONFormatter& jf) const {
Formatter::ArraySection section(jf, "acl_profiles");
for (auto& p : acl_profiles) {
Formatter::ObjectSection section(jf, "profile");
encode_json("id", p.first, &jf);
p.second->dump_conf(cct, jf);
}
}
bool find(const string& profile_id, ACLMappings *result) const {
auto iter = acl_profiles.find(profile_id);
if (iter == acl_profiles.end()) {
return false;
}
*result = *iter->second;
return true;
}
};
struct AWSSyncConfig_Connection {
string connection_id;
string endpoint;
RGWAccessKey key;
HostStyle host_style{PathStyle};
bool has_endpoint{false};
bool has_key{false};
bool has_host_style{false};
void init(const JSONFormattable& config) {
has_endpoint = config.exists("endpoint");
has_key = config.exists("access_key") || config.exists("secret");
has_host_style = config.exists("host_style");
connection_id = config["id"];
endpoint = config["endpoint"];
key = RGWAccessKey(config["access_key"], config["secret"]);
string host_style_str = config["host_style"];
if (host_style_str != "virtual") {
host_style = PathStyle;
} else {
host_style = VirtualStyle;
}
}
void dump_conf(CephContext *cct, JSONFormatter& jf) const {
Formatter::ObjectSection section(jf, "connection");
encode_json("id", connection_id, &jf);
encode_json("endpoint", endpoint, &jf);
string s = (host_style == PathStyle ? "path" : "virtual");
encode_json("host_style", s, &jf);
{
Formatter::ObjectSection os(jf, "key");
encode_json("access_key", key.id, &jf);
string secret = (key.key.empty() ? "" : "******");
encode_json("secret", secret, &jf);
}
}
};
static int conf_to_uint64(CephContext *cct, const JSONFormattable& config, const string& key, uint64_t *pval)
{
string sval;
if (config.find(key, &sval)) {
string err;
uint64_t val = strict_strtoll(sval.c_str(), 10, &err);
if (!err.empty()) {
ldout(cct, 0) << "ERROR: could not parse configurable value for cloud sync module: " << key << ": " << sval << dendl;
return -EINVAL;
}
*pval = val;
}
return 0;
}
struct AWSSyncConfig_S3 {
uint64_t multipart_sync_threshold{DEFAULT_MULTIPART_SYNC_PART_SIZE};
uint64_t multipart_min_part_size{DEFAULT_MULTIPART_SYNC_PART_SIZE};
int init(CephContext *cct, const JSONFormattable& config) {
int r = conf_to_uint64(cct, config, "multipart_sync_threshold", &multipart_sync_threshold);
if (r < 0) {
return r;
}
r = conf_to_uint64(cct, config, "multipart_min_part_size", &multipart_min_part_size);
if (r < 0) {
return r;
}
#define MULTIPART_MIN_POSSIBLE_PART_SIZE (5 * 1024 * 1024)
if (multipart_min_part_size < MULTIPART_MIN_POSSIBLE_PART_SIZE) {
multipart_min_part_size = MULTIPART_MIN_POSSIBLE_PART_SIZE;
}
return 0;
}
void dump_conf(CephContext *cct, JSONFormatter& jf) const {
Formatter::ObjectSection section(jf, "s3");
encode_json("multipart_sync_threshold", multipart_sync_threshold, &jf);
encode_json("multipart_min_part_size", multipart_min_part_size, &jf);
}
};
struct AWSSyncConfig_Profile {
string source_bucket;
bool prefix{false};
string target_path;
string connection_id;
string acls_id;
std::shared_ptr<AWSSyncConfig_Connection> conn_conf;
std::shared_ptr<ACLMappings> acls;
std::shared_ptr<RGWRESTConn> conn;
void init(const JSONFormattable& config) {
source_bucket = config["source_bucket"];
prefix = (!source_bucket.empty() && source_bucket[source_bucket.size() - 1] == '*');
if (prefix) {
source_bucket = source_bucket.substr(0, source_bucket.size() - 1);
}
target_path = config["target_path"];
connection_id = config["connection_id"];
acls_id = config["acls_id"];
if (config.exists("connection")) {
conn_conf = make_shared<AWSSyncConfig_Connection>();
conn_conf->init(config["connection"]);
}
if (config.exists("acls")) {
acls = make_shared<ACLMappings>();
acls->init(config["acls"]);
}
}
void dump_conf(CephContext *cct, JSONFormatter& jf, const char *section = "config") const {
Formatter::ObjectSection config(jf, section);
string sb{source_bucket};
if (prefix) {
sb.append("*");
}
encode_json("source_bucket", sb, &jf);
encode_json("target_path", target_path, &jf);
encode_json("connection_id", connection_id, &jf);
encode_json("acls_id", acls_id, &jf);
if (conn_conf.get()) {
conn_conf->dump_conf(cct, jf);
}
if (acls.get()) {
acls->dump_conf(cct, jf);
}
}
};
static void find_and_replace(const string& src, const string& find, const string& replace, string *dest)
{
string s = src;
size_t pos = s.find(find);
while (pos != string::npos) {
size_t next_ofs = pos + find.size();
s = s.substr(0, pos) + replace + s.substr(next_ofs);
pos = s.find(find, next_ofs);
}
*dest = s;
}
static void apply_meta_param(const string& src, const string& param, const string& val, string *dest)
{
string s = string("${") + param + "}";
find_and_replace(src, s, val, dest);
}
struct AWSSyncConfig {
AWSSyncConfig_Profile default_profile;
std::shared_ptr<AWSSyncConfig_Profile> root_profile;
map<string, std::shared_ptr<AWSSyncConfig_Connection> > connections;
AWSSyncConfig_ACLProfiles acl_profiles;
map<string, std::shared_ptr<AWSSyncConfig_Profile> > explicit_profiles;
AWSSyncConfig_S3 s3;
int init_profile(CephContext *cct, const JSONFormattable& profile_conf, AWSSyncConfig_Profile& profile,
bool connection_must_exist) {
if (!profile.connection_id.empty()) {
if (profile.conn_conf) {
ldout(cct, 0) << "ERROR: ambiguous profile connection configuration, connection_id=" << profile.connection_id << dendl;
return -EINVAL;
}
if (connections.find(profile.connection_id) == connections.end()) {
ldout(cct, 0) << "ERROR: profile configuration reference non-existent connection_id=" << profile.connection_id << dendl;
return -EINVAL;
}
profile.conn_conf = connections[profile.connection_id];
} else if (!profile.conn_conf) {
profile.connection_id = default_profile.connection_id;
auto i = connections.find(profile.connection_id);
if (i != connections.end()) {
profile.conn_conf = i->second;
}
}
if (connection_must_exist && !profile.conn_conf) {
ldout(cct, 0) << "ERROR: remote connection undefined for sync profile" << dendl;
return -EINVAL;
}
if (profile.conn_conf && default_profile.conn_conf) {
if (!profile.conn_conf->has_endpoint) {
profile.conn_conf->endpoint = default_profile.conn_conf->endpoint;
}
if (!profile.conn_conf->has_host_style) {
profile.conn_conf->host_style = default_profile.conn_conf->host_style;
}
if (!profile.conn_conf->has_key) {
profile.conn_conf->key = default_profile.conn_conf->key;
}
}
ACLMappings acl_mappings;
if (!profile.acls_id.empty()) {
if (!acl_profiles.find(profile.acls_id, &acl_mappings)) {
ldout(cct, 0) << "ERROR: profile configuration reference non-existent acls id=" << profile.acls_id << dendl;
return -EINVAL;
}
profile.acls = acl_profiles.acl_profiles[profile.acls_id];
} else if (!profile.acls) {
if (default_profile.acls) {
profile.acls = default_profile.acls;
profile.acls_id = default_profile.acls_id;
}
}
if (profile.target_path.empty()) {
profile.target_path = default_profile.target_path;
}
if (profile.target_path.empty()) {
profile.target_path = default_target_path;
}
return 0;
}
int init_target(CephContext *cct, const JSONFormattable& profile_conf, std::shared_ptr<AWSSyncConfig_Profile> *ptarget) {
std::shared_ptr<AWSSyncConfig_Profile> profile;
profile.reset(new AWSSyncConfig_Profile);
profile->init(profile_conf);
int ret = init_profile(cct, profile_conf, *profile, true);
if (ret < 0) {
return ret;
}
auto& sb = profile->source_bucket;
if (explicit_profiles.find(sb) != explicit_profiles.end()) {
ldout(cct, 0) << "WARNING: duplicate target configuration in sync module" << dendl;
}
explicit_profiles[sb] = profile;
if (ptarget) {
*ptarget = profile;
}
return 0;
}
bool do_find_profile(const rgw_bucket bucket, std::shared_ptr<AWSSyncConfig_Profile> *result) {
const string& name = bucket.name;
auto iter = explicit_profiles.upper_bound(name);
if (iter == explicit_profiles.begin()) {
return false;
}
--iter;
if (iter->first.size() > name.size()) {
return false;
}
if (name.compare(0, iter->first.size(), iter->first) != 0) {
return false;
}
std::shared_ptr<AWSSyncConfig_Profile>& target = iter->second;
if (!target->prefix &&
name.size() != iter->first.size()) {
return false;
}
*result = target;
return true;
}
void find_profile(const rgw_bucket bucket, std::shared_ptr<AWSSyncConfig_Profile> *result) {
if (!do_find_profile(bucket, result)) {
*result = root_profile;
}
}
AWSSyncConfig() {}
int init(CephContext *cct, const JSONFormattable& config) {
auto& default_conf = config["default"];
if (config.exists("default")) {
default_profile.init(default_conf);
init_profile(cct, default_conf, default_profile, false);
}
for (auto& conn : config["connections"].array()) {
auto new_conn = conn;
std::shared_ptr<AWSSyncConfig_Connection> c{new AWSSyncConfig_Connection};
c->init(new_conn);
connections[new_conn["id"]] = c;
}
acl_profiles.init(config["acl_profiles"]);
int r = s3.init(cct, config["s3"]);
if (r < 0) {
return r;
}
auto new_root_conf = config;
r = init_target(cct, new_root_conf, &root_profile); /* the root profile config */
if (r < 0) {
return r;
}
for (auto target_conf : config["profiles"].array()) {
int r = init_target(cct, target_conf, nullptr);
if (r < 0) {
return r;
}
}
JSONFormatter jf(true);
dump_conf(cct, jf);
stringstream ss;
jf.flush(ss);
ldout(cct, 5) << "sync module config (parsed representation):\n" << ss.str() << dendl;
return 0;
}
void expand_target(RGWDataSyncCtx *sc, const string& sid, const string& path, string *dest) {
apply_meta_param(path, "sid", sid, dest);
const RGWZoneGroup& zg = sc->env->svc->zone->get_zonegroup();
apply_meta_param(path, "zonegroup", zg.get_name(), dest);
apply_meta_param(path, "zonegroup_id", zg.get_id(), dest);
const RGWZone& zone = sc->env->svc->zone->get_zone();
apply_meta_param(path, "zone", zone.name, dest);
apply_meta_param(path, "zone_id", zone.id, dest);
}
void update_config(RGWDataSyncCtx *sc, const string& sid) {
expand_target(sc, sid, root_profile->target_path, &root_profile->target_path);
ldout(sc->cct, 20) << "updated target: (root) -> " << root_profile->target_path << dendl;
for (auto& t : explicit_profiles) {
expand_target(sc, sid, t.second->target_path, &t.second->target_path);
ldout(sc->cct, 20) << "updated target: " << t.first << " -> " << t.second->target_path << dendl;
}
}
void dump_conf(CephContext *cct, JSONFormatter& jf) const {
Formatter::ObjectSection config(jf, "config");
root_profile->dump_conf(cct, jf);
jf.open_array_section("connections");
for (auto c : connections) {
c.second->dump_conf(cct, jf);
}
jf.close_section();
acl_profiles.dump_conf(cct, jf);
{ // targets
Formatter::ArraySection as(jf, "profiles");
for (auto& t : explicit_profiles) {
Formatter::ObjectSection target_section(jf, "profile");
encode_json("name", t.first, &jf);
t.second->dump_conf(cct, jf);
}
}
}
string get_path(std::shared_ptr<AWSSyncConfig_Profile>& profile,
const RGWBucketInfo& bucket_info,
const rgw_obj_key& obj) {
string bucket_str;
string owner;
if (!bucket_info.owner.tenant.empty()) {
bucket_str = owner = bucket_info.owner.tenant + "-";
owner += bucket_info.owner.id;
}
bucket_str += bucket_info.bucket.name;
const string& path = profile->target_path;
string new_path;
apply_meta_param(path, "bucket", bucket_str, &new_path);
apply_meta_param(new_path, "owner", owner, &new_path);
new_path += string("/") + get_key_oid(obj);
return new_path;
}
void get_target(std::shared_ptr<AWSSyncConfig_Profile>& profile,
const RGWBucketInfo& bucket_info,
const rgw_obj_key& obj,
string *bucket_name,
string *obj_name) {
string path = get_path(profile, bucket_info, obj);
size_t pos = path.find('/');
*bucket_name = path.substr(0, pos);
*obj_name = path.substr(pos + 1);
}
void init_conns(RGWDataSyncCtx *sc, const string& id) {
auto sync_env = sc->env;
update_config(sc, id);
auto& root_conf = root_profile->conn_conf;
root_profile->conn.reset(new S3RESTConn(sc->cct,
sync_env->svc->zone,
id,
{ root_conf->endpoint },
root_conf->key,
root_conf->host_style));
for (auto i : explicit_profiles) {
auto& c = i.second;
c->conn.reset(new S3RESTConn(sc->cct,
sync_env->svc->zone,
id,
{ c->conn_conf->endpoint },
c->conn_conf->key,
c->conn_conf->host_style));
}
}
};
struct AWSSyncInstanceEnv {
AWSSyncConfig conf;
string id;
explicit AWSSyncInstanceEnv(AWSSyncConfig& _conf) : conf(_conf) {}
void init(RGWDataSyncCtx *sc, uint64_t instance_id) {
char buf[32];
snprintf(buf, sizeof(buf), "%llx", (unsigned long long)instance_id);
id = buf;
conf.init_conns(sc, id);
}
void get_profile(const rgw_bucket& bucket, std::shared_ptr<AWSSyncConfig_Profile> *ptarget) {
conf.find_profile(bucket, ptarget);
ceph_assert(ptarget);
}
};
static int do_decode_rest_obj(CephContext *cct, map<string, bufferlist>& attrs, map<string, string>& headers, rgw_rest_obj *info)
{
for (auto header : headers) {
const string& val = header.second;
if (header.first == "RGWX_OBJECT_SIZE") {
info->content_len = atoi(val.c_str());
} else {
info->attrs[header.first] = val;
}
}
info->acls.set_ctx(cct);
auto aiter = attrs.find(RGW_ATTR_ACL);
if (aiter != attrs.end()) {
bufferlist& bl = aiter->second;
auto bliter = bl.cbegin();
try {
info->acls.decode(bliter);
} catch (buffer::error& err) {
ldout(cct, 0) << "ERROR: failed to decode policy off attrs" << dendl;
return -EIO;
}
} else {
ldout(cct, 0) << "WARNING: acl attrs not provided" << dendl;
}
return 0;
}
class RGWRESTStreamGetCRF : public RGWStreamReadHTTPResourceCRF
{
RGWDataSyncCtx *sc;
RGWRESTConn *conn;
rgw::sal::RGWObject* src_obj;
RGWRESTConn::get_obj_params req_params;
rgw_sync_aws_src_obj_properties src_properties;
public:
RGWRESTStreamGetCRF(CephContext *_cct,
RGWCoroutinesEnv *_env,
RGWCoroutine *_caller,
RGWDataSyncCtx *_sc,
RGWRESTConn *_conn,
rgw::sal::RGWObject* _src_obj,
const rgw_sync_aws_src_obj_properties& _src_properties) : RGWStreamReadHTTPResourceCRF(_cct, _env, _caller,
_sc->env->http_manager, _src_obj->get_key()),
sc(_sc), conn(_conn), src_obj(_src_obj),
src_properties(_src_properties) {
}
int init(const DoutPrefixProvider *dpp) override {
/* init input connection */
req_params.get_op = true;
req_params.prepend_metadata = true;
req_params.unmod_ptr = &src_properties.mtime;
req_params.etag = src_properties.etag;
req_params.mod_zone_id = src_properties.zone_short_id;
req_params.mod_pg_ver = src_properties.pg_ver;
if (range.is_set) {
req_params.range_is_set = true;
req_params.range_start = range.ofs;
req_params.range_end = range.ofs + range.size - 1;
}
RGWRESTStreamRWRequest *in_req;
int ret = conn->get_obj(dpp, src_obj, req_params, false /* send */, &in_req);
if (ret < 0) {
ldpp_dout(dpp, 0) << "ERROR: " << __func__ << "(): conn->get_obj() returned ret=" << ret << dendl;
return ret;
}
set_req(in_req);
return RGWStreamReadHTTPResourceCRF::init(dpp);
}
int decode_rest_obj(map<string, string>& headers, bufferlist& extra_data) override {
map<string, bufferlist> src_attrs;
ldout(sc->cct, 20) << __func__ << ":" << " headers=" << headers << " extra_data.length()=" << extra_data.length() << dendl;
if (extra_data.length() > 0) {
JSONParser jp;
if (!jp.parse(extra_data.c_str(), extra_data.length())) {
ldout(sc->cct, 0) << "ERROR: failed to parse response extra data. len=" << extra_data.length() << " data=" << extra_data.c_str() << dendl;
return -EIO;
}
JSONDecoder::decode_json("attrs", src_attrs, &jp);
}
return do_decode_rest_obj(sc->cct, src_attrs, headers, &rest_obj);
}
bool need_extra_data() override {
return true;
}
};
static std::set<string> keep_headers = { "CONTENT_TYPE",
"CONTENT_ENCODING",
"CONTENT_DISPOSITION",
"CONTENT_LANGUAGE" };
class RGWAWSStreamPutCRF : public RGWStreamWriteHTTPResourceCRF
{
RGWDataSyncCtx *sc;
rgw_sync_aws_src_obj_properties src_properties;
std::shared_ptr<AWSSyncConfig_Profile> target;
rgw::sal::RGWObject* dest_obj;
string etag;
public:
RGWAWSStreamPutCRF(CephContext *_cct,
RGWCoroutinesEnv *_env,
RGWCoroutine *_caller,
RGWDataSyncCtx *_sc,
const rgw_sync_aws_src_obj_properties& _src_properties,
std::shared_ptr<AWSSyncConfig_Profile>& _target,
rgw::sal::RGWObject* _dest_obj) : RGWStreamWriteHTTPResourceCRF(_cct, _env, _caller, _sc->env->http_manager),
sc(_sc), src_properties(_src_properties), target(_target), dest_obj(_dest_obj) {
}
int init() override {
/* init output connection */
RGWRESTStreamS3PutObj *out_req{nullptr};
if (multipart.is_multipart) {
char buf[32];
snprintf(buf, sizeof(buf), "%d", multipart.part_num);
rgw_http_param_pair params[] = { { "uploadId", multipart.upload_id.c_str() },
{ "partNumber", buf },
{ nullptr, nullptr } };
target->conn->put_obj_send_init(dest_obj, params, &out_req);
} else {
target->conn->put_obj_send_init(dest_obj, nullptr, &out_req);
}
set_req(out_req);
return RGWStreamWriteHTTPResourceCRF::init();
}
static bool keep_attr(const string& h) {
return (keep_headers.find(h) != keep_headers.end() ||
boost::algorithm::starts_with(h, "X_AMZ_"));
}
static void init_send_attrs(CephContext *cct,
const rgw_rest_obj& rest_obj,
const rgw_sync_aws_src_obj_properties& src_properties,
const AWSSyncConfig_Profile *target,
map<string, string> *attrs) {
auto& new_attrs = *attrs;
new_attrs.clear();
for (auto& hi : rest_obj.attrs) {
if (keep_attr(hi.first)) {
new_attrs.insert(hi);
}
}
auto acl = rest_obj.acls.get_acl();
map<int, vector<string> > access_map;
if (target->acls) {
for (auto& grant : acl.get_grant_map()) {
auto& orig_grantee = grant.first;
auto& perm = grant.second;
string grantee;
const auto& am = target->acls->acl_mappings;
auto iter = am.find(orig_grantee);
if (iter == am.end()) {
ldout(cct, 20) << "acl_mappings: Could not find " << orig_grantee << " .. ignoring" << dendl;
continue;
}
grantee = iter->second.dest_id;
string type;
switch (iter->second.type) {
case ACL_TYPE_CANON_USER:
type = "id";
break;
case ACL_TYPE_EMAIL_USER:
type = "emailAddress";
break;
case ACL_TYPE_GROUP:
type = "uri";
break;
default:
continue;
}
string tv = type + "=" + grantee;
int flags = perm.get_permission().get_permissions();
if ((flags & RGW_PERM_FULL_CONTROL) == RGW_PERM_FULL_CONTROL) {
access_map[flags].push_back(tv);
continue;
}
for (int i = 1; i <= RGW_PERM_WRITE_ACP; i <<= 1) {
if (flags & i) {
access_map[i].push_back(tv);
}
}
}
}
for (auto aiter : access_map) {
int grant_type = aiter.first;
string header_str("x-amz-grant-");
switch (grant_type) {
case RGW_PERM_READ:
header_str.append("read");
break;
case RGW_PERM_WRITE:
header_str.append("write");
break;
case RGW_PERM_READ_ACP:
header_str.append("read-acp");
break;
case RGW_PERM_WRITE_ACP:
header_str.append("write-acp");
break;
case RGW_PERM_FULL_CONTROL:
header_str.append("full-control");
break;
}
string s;
for (auto viter : aiter.second) {
if (!s.empty()) {
s.append(", ");
}
s.append(viter);
}
ldout(cct, 20) << "acl_mappings: set acl: " << header_str << "=" << s << dendl;
new_attrs[header_str] = s;
}
char buf[32];
snprintf(buf, sizeof(buf), "%llu", (long long)src_properties.versioned_epoch);
new_attrs["x-amz-meta-rgwx-versioned-epoch"] = buf;
utime_t ut(src_properties.mtime);
snprintf(buf, sizeof(buf), "%lld.%09lld",
(long long)ut.sec(),
(long long)ut.nsec());
new_attrs["x-amz-meta-rgwx-source-mtime"] = buf;
new_attrs["x-amz-meta-rgwx-source-etag"] = src_properties.etag;
new_attrs["x-amz-meta-rgwx-source-key"] = rest_obj.key.name;
if (!rest_obj.key.instance.empty()) {
new_attrs["x-amz-meta-rgwx-source-version-id"] = rest_obj.key.instance;
}
}
void send_ready(const DoutPrefixProvider *dpp, const rgw_rest_obj& rest_obj) override {
RGWRESTStreamS3PutObj *r = static_cast<RGWRESTStreamS3PutObj *>(req);
map<string, string> new_attrs;
if (!multipart.is_multipart) {
init_send_attrs(sc->cct, rest_obj, src_properties, target.get(), &new_attrs);
}
r->set_send_length(rest_obj.content_len);
RGWAccessControlPolicy policy;
r->send_ready(dpp, target->conn->get_key(), new_attrs, policy, false);
}
void handle_headers(const map<string, string>& headers) {
for (auto h : headers) {
if (h.first == "ETAG") {
etag = h.second;
}
}
}
bool get_etag(string *petag) {
if (etag.empty()) {
return false;
}
*petag = etag;
return true;
}
};
class RGWAWSStreamObjToCloudPlainCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWRESTConn *source_conn;
std::shared_ptr<AWSSyncConfig_Profile> target;
rgw::sal::RGWObject* src_obj;
rgw::sal::RGWObject* dest_obj;
rgw_sync_aws_src_obj_properties src_properties;
std::shared_ptr<RGWStreamReadHTTPResourceCRF> in_crf;
std::shared_ptr<RGWStreamWriteHTTPResourceCRF> out_crf;
public:
RGWAWSStreamObjToCloudPlainCR(RGWDataSyncCtx *_sc,
RGWRESTConn *_source_conn,
rgw::sal::RGWObject* _src_obj,
const rgw_sync_aws_src_obj_properties& _src_properties,
std::shared_ptr<AWSSyncConfig_Profile> _target,
rgw::sal::RGWObject* _dest_obj) : RGWCoroutine(_sc->cct),
sc(_sc),
source_conn(_source_conn),
target(_target),
src_obj(_src_obj),
dest_obj(_dest_obj),
src_properties(_src_properties) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
/* init input */
in_crf.reset(new RGWRESTStreamGetCRF(cct, get_env(), this, sc,
source_conn, src_obj,
src_properties));
/* init output */
out_crf.reset(new RGWAWSStreamPutCRF(cct, get_env(), this, sc,
src_properties, target, dest_obj));
yield call(new RGWStreamSpliceCR(cct, sc->env->http_manager, in_crf, out_crf));
if (retcode < 0) {
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
class RGWAWSStreamObjToCloudMultipartPartCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWRESTConn *source_conn;
std::shared_ptr<AWSSyncConfig_Profile> target;
rgw::sal::RGWObject* src_obj;
rgw::sal::RGWObject* dest_obj;
rgw_sync_aws_src_obj_properties src_properties;
string upload_id;
rgw_sync_aws_multipart_part_info part_info;
std::shared_ptr<RGWStreamReadHTTPResourceCRF> in_crf;
std::shared_ptr<RGWStreamWriteHTTPResourceCRF> out_crf;
string *petag;
public:
RGWAWSStreamObjToCloudMultipartPartCR(RGWDataSyncCtx *_sc,
RGWRESTConn *_source_conn,
rgw::sal::RGWObject* _src_obj,
std::shared_ptr<AWSSyncConfig_Profile>& _target,
rgw::sal::RGWObject* _dest_obj,
const rgw_sync_aws_src_obj_properties& _src_properties,
const string& _upload_id,
const rgw_sync_aws_multipart_part_info& _part_info,
string *_petag) : RGWCoroutine(_sc->cct),
sc(_sc),
source_conn(_source_conn),
target(_target),
src_obj(_src_obj),
dest_obj(_dest_obj),
src_properties(_src_properties),
upload_id(_upload_id),
part_info(_part_info),
petag(_petag) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
/* init input */
in_crf.reset(new RGWRESTStreamGetCRF(cct, get_env(), this, sc,
source_conn, src_obj,
src_properties));
in_crf->set_range(part_info.ofs, part_info.size);
/* init output */
out_crf.reset(new RGWAWSStreamPutCRF(cct, get_env(), this, sc,
src_properties, target, dest_obj));
out_crf->set_multipart(upload_id, part_info.part_num, part_info.size);
yield call(new RGWStreamSpliceCR(cct, sc->env->http_manager, in_crf, out_crf));
if (retcode < 0) {
return set_cr_error(retcode);
}
if (!(static_cast<RGWAWSStreamPutCRF *>(out_crf.get()))->get_etag(petag)) {
ldout(sc->cct, 0) << "ERROR: failed to get etag from PUT request" << dendl;
return set_cr_error(-EIO);
}
return set_cr_done();
}
return 0;
}
};
class RGWAWSAbortMultipartCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWRESTConn *dest_conn;
rgw::sal::RGWObject* dest_obj;
string upload_id;
public:
RGWAWSAbortMultipartCR(RGWDataSyncCtx *_sc,
RGWRESTConn *_dest_conn,
rgw::sal::RGWObject* _dest_obj,
const string& _upload_id) : RGWCoroutine(_sc->cct),
sc(_sc),
dest_conn(_dest_conn),
dest_obj(_dest_obj),
upload_id(_upload_id) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
yield {
rgw_http_param_pair params[] = { { "uploadId", upload_id.c_str() }, {nullptr, nullptr} };
bufferlist bl;
call(new RGWDeleteRESTResourceCR(sc->cct, dest_conn, sc->env->http_manager,
obj_to_aws_path(dest_obj), params));
}
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to abort multipart upload for dest object=" << dest_obj << " (retcode=" << retcode << ")" << dendl;
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
class RGWAWSInitMultipartCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWRESTConn *dest_conn;
rgw::sal::RGWObject* dest_obj;
uint64_t obj_size;
map<string, string> attrs;
bufferlist out_bl;
string *upload_id;
struct InitMultipartResult {
string bucket;
string key;
string upload_id;
void decode_xml(XMLObj *obj) {
RGWXMLDecoder::decode_xml("Bucket", bucket, obj);
RGWXMLDecoder::decode_xml("Key", key, obj);
RGWXMLDecoder::decode_xml("UploadId", upload_id, obj);
}
} result;
public:
RGWAWSInitMultipartCR(RGWDataSyncCtx *_sc,
RGWRESTConn *_dest_conn,
rgw::sal::RGWObject* _dest_obj,
uint64_t _obj_size,
const map<string, string>& _attrs,
string *_upload_id) : RGWCoroutine(_sc->cct),
sc(_sc),
dest_conn(_dest_conn),
dest_obj(_dest_obj),
obj_size(_obj_size),
attrs(_attrs),
upload_id(_upload_id) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
yield {
rgw_http_param_pair params[] = { { "uploads", nullptr }, {nullptr, nullptr} };
bufferlist bl;
call(new RGWPostRawRESTResourceCR <bufferlist> (sc->cct, dest_conn, sc->env->http_manager,
obj_to_aws_path(dest_obj), params, &attrs, bl, &out_bl));
}
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to initialize multipart upload for dest object=" << dest_obj << dendl;
return set_cr_error(retcode);
}
{
/*
* If one of the following fails we cannot abort upload, as we cannot
* extract the upload id. If one of these fail it's very likely that that's
* the least of our problem.
*/
RGWXMLDecoder::XMLParser parser;
if (!parser.init()) {
ldout(sc->cct, 0) << "ERROR: failed to initialize xml parser for parsing multipart init response from server" << dendl;
return set_cr_error(-EIO);
}
if (!parser.parse(out_bl.c_str(), out_bl.length(), 1)) {
string str(out_bl.c_str(), out_bl.length());
ldout(sc->cct, 5) << "ERROR: failed to parse xml: " << str << dendl;
return set_cr_error(-EIO);
}
try {
RGWXMLDecoder::decode_xml("InitiateMultipartUploadResult", result, &parser, true);
} catch (RGWXMLDecoder::err& err) {
string str(out_bl.c_str(), out_bl.length());
ldout(sc->cct, 5) << "ERROR: unexpected xml: " << str << dendl;
return set_cr_error(-EIO);
}
}
ldpp_dout(dpp, 20) << "init multipart result: bucket=" << result.bucket << " key=" << result.key << " upload_id=" << result.upload_id << dendl;
*upload_id = result.upload_id;
return set_cr_done();
}
return 0;
}
};
class RGWAWSCompleteMultipartCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWRESTConn *dest_conn;
rgw::sal::RGWObject* dest_obj;
bufferlist out_bl;
string upload_id;
struct CompleteMultipartReq {
map<int, rgw_sync_aws_multipart_part_info> parts;
explicit CompleteMultipartReq(const map<int, rgw_sync_aws_multipart_part_info>& _parts) : parts(_parts) {}
void dump_xml(Formatter *f) const {
for (auto p : parts) {
f->open_object_section("Part");
encode_xml("PartNumber", p.first, f);
encode_xml("ETag", p.second.etag, f);
f->close_section();
};
}
} req_enc;
struct CompleteMultipartResult {
string location;
string bucket;
string key;
string etag;
void decode_xml(XMLObj *obj) {
RGWXMLDecoder::decode_xml("Location", bucket, obj);
RGWXMLDecoder::decode_xml("Bucket", bucket, obj);
RGWXMLDecoder::decode_xml("Key", key, obj);
RGWXMLDecoder::decode_xml("ETag", etag, obj);
}
} result;
public:
RGWAWSCompleteMultipartCR(RGWDataSyncCtx *_sc,
RGWRESTConn *_dest_conn,
rgw::sal::RGWObject* _dest_obj,
string _upload_id,
const map<int, rgw_sync_aws_multipart_part_info>& _parts) : RGWCoroutine(_sc->cct),
sc(_sc),
dest_conn(_dest_conn),
dest_obj(_dest_obj),
upload_id(_upload_id),
req_enc(_parts) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
yield {
rgw_http_param_pair params[] = { { "uploadId", upload_id.c_str() }, {nullptr, nullptr} };
stringstream ss;
XMLFormatter formatter;
encode_xml("CompleteMultipartUpload", req_enc, &formatter);
formatter.flush(ss);
bufferlist bl;
bl.append(ss.str());
call(new RGWPostRawRESTResourceCR <bufferlist> (sc->cct, dest_conn, sc->env->http_manager,
obj_to_aws_path(dest_obj), params, nullptr, bl, &out_bl));
}
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to initialize multipart upload for dest object=" << dest_obj << dendl;
return set_cr_error(retcode);
}
{
/*
* If one of the following fails we cannot abort upload, as we cannot
* extract the upload id. If one of these fail it's very likely that that's
* the least of our problem.
*/
RGWXMLDecoder::XMLParser parser;
if (!parser.init()) {
ldout(sc->cct, 0) << "ERROR: failed to initialize xml parser for parsing multipart init response from server" << dendl;
return set_cr_error(-EIO);
}
if (!parser.parse(out_bl.c_str(), out_bl.length(), 1)) {
string str(out_bl.c_str(), out_bl.length());
ldout(sc->cct, 5) << "ERROR: failed to parse xml: " << str << dendl;
return set_cr_error(-EIO);
}
try {
RGWXMLDecoder::decode_xml("CompleteMultipartUploadResult", result, &parser, true);
} catch (RGWXMLDecoder::err& err) {
string str(out_bl.c_str(), out_bl.length());
ldout(sc->cct, 5) << "ERROR: unexpected xml: " << str << dendl;
return set_cr_error(-EIO);
}
}
ldpp_dout(dpp, 20) << "complete multipart result: location=" << result.location << " bucket=" << result.bucket << " key=" << result.key << " etag=" << result.etag << dendl;
return set_cr_done();
}
return 0;
}
};
class RGWAWSStreamAbortMultipartUploadCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWRESTConn *dest_conn;
rgw::sal::RGWObject* dest_obj;
const rgw_raw_obj status_obj;
string upload_id;
public:
RGWAWSStreamAbortMultipartUploadCR(RGWDataSyncCtx *_sc,
RGWRESTConn *_dest_conn,
rgw::sal::RGWObject* _dest_obj,
const rgw_raw_obj& _status_obj,
const string& _upload_id) : RGWCoroutine(_sc->cct), sc(_sc),
dest_conn(_dest_conn),
dest_obj(_dest_obj),
status_obj(_status_obj),
upload_id(_upload_id) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
yield call(new RGWAWSAbortMultipartCR(sc, dest_conn, dest_obj, upload_id));
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to abort multipart upload dest obj=" << dest_obj << " upload_id=" << upload_id << " retcode=" << retcode << dendl;
/* ignore error, best effort */
}
yield call(new RGWRadosRemoveCR(sc->env->store, status_obj));
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to remove sync status obj obj=" << status_obj << " retcode=" << retcode << dendl;
/* ignore error, best effort */
}
return set_cr_done();
}
return 0;
}
};
class RGWAWSStreamObjToCloudMultipartCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
RGWDataSyncEnv *sync_env;
AWSSyncConfig& conf;
RGWRESTConn *source_conn;
std::shared_ptr<AWSSyncConfig_Profile> target;
rgw::sal::RGWObject* src_obj;
rgw::sal::RGWObject* dest_obj;
uint64_t obj_size;
string src_etag;
rgw_sync_aws_src_obj_properties src_properties;
rgw_rest_obj rest_obj;
rgw_sync_aws_multipart_upload_info status;
map<string, string> new_attrs;
rgw_sync_aws_multipart_part_info *pcur_part_info{nullptr};
int ret_err{0};
rgw_raw_obj status_obj;
public:
RGWAWSStreamObjToCloudMultipartCR(RGWDataSyncCtx *_sc,
rgw_bucket_sync_pipe& _sync_pipe,
AWSSyncConfig& _conf,
RGWRESTConn *_source_conn,
rgw::sal::RGWObject* _src_obj,
std::shared_ptr<AWSSyncConfig_Profile>& _target,
rgw::sal::RGWObject* _dest_obj,
uint64_t _obj_size,
const rgw_sync_aws_src_obj_properties& _src_properties,
const rgw_rest_obj& _rest_obj) : RGWCoroutine(_sc->cct),
sc(_sc),
sync_env(_sc->env),
conf(_conf),
source_conn(_source_conn),
target(_target),
src_obj(_src_obj),
dest_obj(_dest_obj),
obj_size(_obj_size),
src_properties(_src_properties),
rest_obj(_rest_obj),
status_obj(sync_env->svc->zone->get_zone_params().log_pool,
RGWBucketPipeSyncStatusManager::obj_status_oid(_sync_pipe, sc->source_zone, src_obj)) {
}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
yield call(new RGWSimpleRadosReadCR<rgw_sync_aws_multipart_upload_info>(dpp, sync_env->async_rados, sync_env->svc->sysobj,
status_obj, &status, false));
if (retcode < 0 && retcode != -ENOENT) {
ldpp_dout(dpp, 0) << "ERROR: failed to read sync status of object " << src_obj << " retcode=" << retcode << dendl;
return retcode;
}
if (retcode >= 0) {
/* check here that mtime and size did not change */
if (status.src_properties.mtime != src_properties.mtime || status.obj_size != obj_size ||
status.src_properties.etag != src_properties.etag) {
yield call(new RGWAWSStreamAbortMultipartUploadCR(sc, target->conn.get(), dest_obj, status_obj, status.upload_id));
retcode = -ENOENT;
}
}
if (retcode == -ENOENT) {
RGWAWSStreamPutCRF::init_send_attrs(sc->cct, rest_obj, src_properties, target.get(), &new_attrs);
yield call(new RGWAWSInitMultipartCR(sc, target->conn.get(), dest_obj, status.obj_size, std::move(new_attrs), &status.upload_id));
if (retcode < 0) {
return set_cr_error(retcode);
}
status.obj_size = obj_size;
status.src_properties = src_properties;
#define MULTIPART_MAX_PARTS 10000
uint64_t min_part_size = obj_size / MULTIPART_MAX_PARTS;
status.part_size = std::max(conf.s3.multipart_min_part_size, min_part_size);
status.num_parts = (obj_size + status.part_size - 1) / status.part_size;
status.cur_part = 1;
}
for (; (uint32_t)status.cur_part <= status.num_parts; ++status.cur_part) {
yield {
rgw_sync_aws_multipart_part_info& cur_part_info = status.parts[status.cur_part];
cur_part_info.part_num = status.cur_part;
cur_part_info.ofs = status.cur_ofs;
cur_part_info.size = std::min((uint64_t)status.part_size, status.obj_size - status.cur_ofs);
pcur_part_info = &cur_part_info;
status.cur_ofs += status.part_size;
call(new RGWAWSStreamObjToCloudMultipartPartCR(sc,
source_conn, src_obj,
target,
dest_obj,
status.src_properties,
status.upload_id,
cur_part_info,
&cur_part_info.etag));
}
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to sync obj=" << src_obj << ", sync via multipart upload, upload_id=" << status.upload_id << " part number " << status.cur_part << " (error: " << cpp_strerror(-retcode) << ")" << dendl;
ret_err = retcode;
yield call(new RGWAWSStreamAbortMultipartUploadCR(sc, target->conn.get(), dest_obj, status_obj, status.upload_id));
return set_cr_error(ret_err);
}
yield call(new RGWSimpleRadosWriteCR<rgw_sync_aws_multipart_upload_info>(dpp, sync_env->async_rados, sync_env->svc->sysobj, status_obj, status));
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to store multipart upload state, retcode=" << retcode << dendl;
/* continue with upload anyway */
}
ldout(sc->cct, 20) << "sync of object=" << src_obj << " via multipart upload, finished sending part #" << status.cur_part << " etag=" << pcur_part_info->etag << dendl;
}
yield call(new RGWAWSCompleteMultipartCR(sc, target->conn.get(), dest_obj, status.upload_id, status.parts));
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to complete multipart upload of obj=" << src_obj << " (error: " << cpp_strerror(-retcode) << ")" << dendl;
ret_err = retcode;
yield call(new RGWAWSStreamAbortMultipartUploadCR(sc, target->conn.get(), dest_obj, status_obj, status.upload_id));
return set_cr_error(ret_err);
}
/* remove status obj */
yield call(new RGWRadosRemoveCR(sync_env->store, status_obj));
if (retcode < 0) {
ldpp_dout(dpp, 0) << "ERROR: failed to abort multipart upload obj=" << src_obj << " upload_id=" << status.upload_id << " part number " << status.cur_part << " (" << cpp_strerror(-retcode) << ")" << dendl;
/* ignore error, best effort */
}
return set_cr_done();
}
return 0;
}
};
template <class T>
int decode_attr(map<string, bufferlist>& attrs, const char *attr_name, T *result, T def_val)
{
map<string, bufferlist>::iterator iter = attrs.find(attr_name);
if (iter == attrs.end()) {
*result = def_val;
return 0;
}
bufferlist& bl = iter->second;
if (bl.length() == 0) {
*result = def_val;
return 0;
}
auto bliter = bl.cbegin();
try {
decode(*result, bliter);
} catch (buffer::error& err) {
return -EIO;
}
return 0;
}
// maybe use Fetch Remote Obj instead?
class RGWAWSHandleRemoteObjCBCR: public RGWStatRemoteObjCBCR {
rgw_bucket_sync_pipe sync_pipe;
AWSSyncInstanceEnv& instance;
uint64_t versioned_epoch{0};
RGWRESTConn *source_conn{nullptr};
std::shared_ptr<AWSSyncConfig_Profile> target;
bufferlist res;
unordered_map <string, bool> bucket_created;
string target_bucket_name;
string target_obj_name;
rgw_rest_obj rest_obj;
int ret{0};
uint32_t src_zone_short_id{0};
uint64_t src_pg_ver{0};
bufferlist out_bl;
struct CreateBucketResult {
string code;
void decode_xml(XMLObj *obj) {
RGWXMLDecoder::decode_xml("Code", code, obj);
}
} result;
public:
RGWAWSHandleRemoteObjCBCR(RGWDataSyncCtx *_sc,
rgw_bucket_sync_pipe& _sync_pipe,
rgw_obj_key& _key,
AWSSyncInstanceEnv& _instance,
uint64_t _versioned_epoch) : RGWStatRemoteObjCBCR(_sc, _sync_pipe.info.source_bs.bucket, _key),
sync_pipe(_sync_pipe),
instance(_instance), versioned_epoch(_versioned_epoch)
{}
~RGWAWSHandleRemoteObjCBCR(){
}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
ret = decode_attr(attrs, RGW_ATTR_PG_VER, &src_pg_ver, (uint64_t)0);
if (ret < 0) {
ldout(sc->cct, 0) << "ERROR: failed to decode pg ver attr, ignoring" << dendl;
} else {
ret = decode_attr(attrs, RGW_ATTR_SOURCE_ZONE, &src_zone_short_id, (uint32_t)0);
if (ret < 0) {
ldout(sc->cct, 0) << "ERROR: failed to decode source zone short_id attr, ignoring" << dendl;
src_pg_ver = 0; /* all or nothing */
}
}
ldpp_dout(dpp, 4) << "AWS: download begin: z=" << sc->source_zone
<< " b=" << src_bucket << " k=" << key << " size=" << size
<< " mtime=" << mtime << " etag=" << etag
<< " zone_short_id=" << src_zone_short_id << " pg_ver=" << src_pg_ver
<< dendl;
source_conn = sync_env->svc->zone->get_zone_conn(sc->source_zone);
if (!source_conn) {
ldout(sc->cct, 0) << "ERROR: cannot find http connection to zone " << sc->source_zone << dendl;
return set_cr_error(-EINVAL);
}
instance.get_profile(sync_pipe.info.source_bs.bucket, &target);
instance.conf.get_target(target, sync_pipe.dest_bucket_info, key, &target_bucket_name, &target_obj_name);
if (bucket_created.find(target_bucket_name) == bucket_created.end()){
yield {
ldout(sc->cct,0) << "AWS: creating bucket " << target_bucket_name << dendl;
bufferlist bl;
call(new RGWPutRawRESTResourceCR <bufferlist> (sc->cct, target->conn.get(),
sync_env->http_manager,
target_bucket_name, nullptr, bl, &out_bl));
}
if (retcode < 0 ) {
RGWXMLDecoder::XMLParser parser;
if (!parser.init()) {
ldout(sc->cct, 0) << "ERROR: failed to initialize xml parser for parsing multipart init response from server" << dendl;
return set_cr_error(retcode);
}
if (!parser.parse(out_bl.c_str(), out_bl.length(), 1)) {
string str(out_bl.c_str(), out_bl.length());
ldout(sc->cct, 5) << "ERROR: failed to parse xml: " << str << dendl;
return set_cr_error(retcode);
}
try {
RGWXMLDecoder::decode_xml("Error", result, &parser, true);
} catch (RGWXMLDecoder::err& err) {
string str(out_bl.c_str(), out_bl.length());
ldout(sc->cct, 5) << "ERROR: unexpected xml: " << str << dendl;
return set_cr_error(retcode);
}
if (result.code != "BucketAlreadyOwnedByYou") {
return set_cr_error(retcode);
}
}
bucket_created[target_bucket_name] = true;
}
yield {
rgw::sal::RGWRadosBucket bucket(sync_env->store, src_bucket);
rgw::sal::RGWRadosObject src_obj(sync_env->store, key, &bucket);
/* init output */
rgw_bucket target_bucket;
target_bucket.name = target_bucket_name; /* this is only possible because we only use bucket name for
uri resolution */
rgw::sal::RGWRadosBucket dest_bucket(sync_env->store, target_bucket);
rgw::sal::RGWRadosObject dest_obj(sync_env->store, rgw_obj_key(target_obj_name), &dest_bucket);
rgw_sync_aws_src_obj_properties src_properties;
src_properties.mtime = mtime;
src_properties.etag = etag;
src_properties.zone_short_id = src_zone_short_id;
src_properties.pg_ver = src_pg_ver;
src_properties.versioned_epoch = versioned_epoch;
if (size < instance.conf.s3.multipart_sync_threshold) {
call(new RGWAWSStreamObjToCloudPlainCR(sc, source_conn, &src_obj,
src_properties,
target,
&dest_obj));
} else {
rgw_rest_obj rest_obj;
rest_obj.init(key);
if (do_decode_rest_obj(sc->cct, attrs, headers, &rest_obj)) {
ldout(sc->cct, 0) << "ERROR: failed to decode rest obj out of headers=" << headers << ", attrs=" << attrs << dendl;
return set_cr_error(-EINVAL);
}
call(new RGWAWSStreamObjToCloudMultipartCR(sc, sync_pipe, instance.conf, source_conn, &src_obj,
target, &dest_obj, size, src_properties, rest_obj));
}
}
if (retcode < 0) {
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
class RGWAWSHandleRemoteObjCR : public RGWCallStatRemoteObjCR {
rgw_bucket_sync_pipe sync_pipe;
AWSSyncInstanceEnv& instance;
uint64_t versioned_epoch;
public:
RGWAWSHandleRemoteObjCR(RGWDataSyncCtx *_sc,
rgw_bucket_sync_pipe& _sync_pipe, rgw_obj_key& _key,
AWSSyncInstanceEnv& _instance, uint64_t _versioned_epoch) : RGWCallStatRemoteObjCR(_sc, _sync_pipe.info.source_bs.bucket, _key),
sync_pipe(_sync_pipe),
instance(_instance), versioned_epoch(_versioned_epoch) {
}
~RGWAWSHandleRemoteObjCR() {}
RGWStatRemoteObjCBCR *allocate_callback() override {
return new RGWAWSHandleRemoteObjCBCR(sc, sync_pipe, key, instance, versioned_epoch);
}
};
class RGWAWSRemoveRemoteObjCBCR : public RGWCoroutine {
RGWDataSyncCtx *sc;
std::shared_ptr<AWSSyncConfig_Profile> target;
rgw_bucket_sync_pipe sync_pipe;
rgw_obj_key key;
ceph::real_time mtime;
AWSSyncInstanceEnv& instance;
int ret{0};
public:
RGWAWSRemoveRemoteObjCBCR(RGWDataSyncCtx *_sc,
rgw_bucket_sync_pipe& _sync_pipe, rgw_obj_key& _key, const ceph::real_time& _mtime,
AWSSyncInstanceEnv& _instance) : RGWCoroutine(_sc->cct), sc(_sc),
sync_pipe(_sync_pipe), key(_key),
mtime(_mtime), instance(_instance) {}
int operate(const DoutPrefixProvider *dpp) override {
reenter(this) {
ldout(sc->cct, 0) << ": remove remote obj: z=" << sc->source_zone
<< " b=" <<sync_pipe.info.source_bs.bucket << " k=" << key << " mtime=" << mtime << dendl;
yield {
instance.get_profile(sync_pipe.info.source_bs.bucket, &target);
string path = instance.conf.get_path(target, sync_pipe.dest_bucket_info, key);
ldout(sc->cct, 0) << "AWS: removing aws object at" << path << dendl;
call(new RGWDeleteRESTResourceCR(sc->cct, target->conn.get(),
sc->env->http_manager,
path, nullptr /* params */));
}
if (retcode < 0) {
return set_cr_error(retcode);
}
return set_cr_done();
}
return 0;
}
};
class RGWAWSDataSyncModule: public RGWDataSyncModule {
CephContext *cct;
AWSSyncInstanceEnv instance;
public:
RGWAWSDataSyncModule(CephContext *_cct, AWSSyncConfig& _conf) :
cct(_cct),
instance(_conf) {
}
void init(RGWDataSyncCtx *sc, uint64_t instance_id) override {
instance.init(sc, instance_id);
}
~RGWAWSDataSyncModule() {}
RGWCoroutine *sync_object(RGWDataSyncCtx *sc, rgw_bucket_sync_pipe& sync_pipe, rgw_obj_key& key,
std::optional<uint64_t> versioned_epoch,
rgw_zone_set *zones_trace) override {
ldout(sc->cct, 0) << instance.id << ": sync_object: b=" << sync_pipe.info.source_bs.bucket << " k=" << key << " versioned_epoch=" << versioned_epoch.value_or(0) << dendl;
return new RGWAWSHandleRemoteObjCR(sc, sync_pipe, key, instance, versioned_epoch.value_or(0));
}
RGWCoroutine *remove_object(RGWDataSyncCtx *sc, rgw_bucket_sync_pipe& sync_pipe, rgw_obj_key& key, real_time& mtime, bool versioned, uint64_t versioned_epoch,
rgw_zone_set *zones_trace) override {
ldout(sc->cct, 0) <<"rm_object: b=" << sync_pipe.info.source_bs.bucket << " k=" << key << " mtime=" << mtime << " versioned=" << versioned << " versioned_epoch=" << versioned_epoch << dendl;
return new RGWAWSRemoveRemoteObjCBCR(sc, sync_pipe, key, mtime, instance);
}
RGWCoroutine *create_delete_marker(RGWDataSyncCtx *sc, rgw_bucket_sync_pipe& sync_pipe, rgw_obj_key& key, real_time& mtime,
rgw_bucket_entry_owner& owner, bool versioned, uint64_t versioned_epoch,
rgw_zone_set *zones_trace) override {
ldout(sc->cct, 0) <<"AWS Not implemented: create_delete_marker: b=" << sync_pipe.info.source_bs.bucket << " k=" << key << " mtime=" << mtime
<< " versioned=" << versioned << " versioned_epoch=" << versioned_epoch << dendl;
return NULL;
}
};
class RGWAWSSyncModuleInstance : public RGWSyncModuleInstance {
RGWAWSDataSyncModule data_handler;
public:
RGWAWSSyncModuleInstance(CephContext *cct, AWSSyncConfig& _conf) : data_handler(cct, _conf) {}
RGWDataSyncModule *get_data_handler() override {
return &data_handler;
}
};
int RGWAWSSyncModule::create_instance(CephContext *cct, const JSONFormattable& config, RGWSyncModuleInstanceRef *instance){
AWSSyncConfig conf;
int r = conf.init(cct, config);
if (r < 0) {
return r;
}
instance->reset(new RGWAWSSyncModuleInstance(cct, conf));
return 0;
}
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