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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
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2019 Red Hat, Inc.
*
* This is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software
* Foundation. See file COPYING.
*
*/
#pragma once
#include "rgw_common.h"
#include "rgw_compression_types.h"
#include "rgw_sal.h"
class RGWSI_Zone;
struct RGWZoneGroup;
struct RGWZoneParams;
class RGWRados;
class rgw_obj_select {
rgw_placement_rule placement_rule;
rgw_obj obj;
rgw_raw_obj raw_obj;
bool is_raw;
public:
rgw_obj_select() : is_raw(false) {}
explicit rgw_obj_select(const rgw_obj& _obj) : obj(_obj), is_raw(false) {}
explicit rgw_obj_select(const rgw_raw_obj& _raw_obj) : raw_obj(_raw_obj), is_raw(true) {}
rgw_obj_select(const rgw_obj_select& rhs) {
placement_rule = rhs.placement_rule;
is_raw = rhs.is_raw;
if (is_raw) {
raw_obj = rhs.raw_obj;
} else {
obj = rhs.obj;
}
}
rgw_raw_obj get_raw_obj(const RGWZoneGroup& zonegroup, const RGWZoneParams& zone_params) const;
rgw_raw_obj get_raw_obj(rgw::sal::RGWStore* store) const;
rgw_obj_select& operator=(const rgw_obj& rhs) {
obj = rhs;
is_raw = false;
return *this;
}
rgw_obj_select& operator=(const rgw_raw_obj& rhs) {
raw_obj = rhs;
is_raw = true;
return *this;
}
void set_placement_rule(const rgw_placement_rule& rule) {
placement_rule = rule;
}
void dump(Formatter *f) const;
};
struct RGWObjManifestPart {
rgw_obj loc; /* the object where the data is located */
uint64_t loc_ofs; /* the offset at that object where the data is located */
uint64_t size; /* the part size */
RGWObjManifestPart() : loc_ofs(0), size(0) {}
void encode(bufferlist& bl) const {
ENCODE_START(2, 2, bl);
encode(loc, bl);
encode(loc_ofs, bl);
encode(size, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN_32(2, 2, 2, bl);
decode(loc, bl);
decode(loc_ofs, bl);
decode(size, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
static void generate_test_instances(std::list<RGWObjManifestPart*>& o);
};
WRITE_CLASS_ENCODER(RGWObjManifestPart)
/*
The manifest defines a set of rules for structuring the object parts.
There are a few terms to note:
- head: the head part of the object, which is the part that contains
the first chunk of data. An object might not have a head (as in the
case of multipart-part objects).
- stripe: data portion of a single rgw object that resides on a single
rados object.
- part: a collection of stripes that make a contiguous part of an
object. A regular object will only have one part (although might have
many stripes), a multipart object might have many parts. Each part
has a fixed stripe size, although the last stripe of a part might
be smaller than that. Consecutive parts may be merged if their stripe
value is the same.
*/
struct RGWObjManifestRule {
uint32_t start_part_num;
uint64_t start_ofs;
uint64_t part_size; /* each part size, 0 if there's no part size, meaning it's unlimited */
uint64_t stripe_max_size; /* underlying obj max size */
string override_prefix;
RGWObjManifestRule() : start_part_num(0), start_ofs(0), part_size(0), stripe_max_size(0) {}
RGWObjManifestRule(uint32_t _start_part_num, uint64_t _start_ofs, uint64_t _part_size, uint64_t _stripe_max_size) :
start_part_num(_start_part_num), start_ofs(_start_ofs), part_size(_part_size), stripe_max_size(_stripe_max_size) {}
void encode(bufferlist& bl) const {
ENCODE_START(2, 1, bl);
encode(start_part_num, bl);
encode(start_ofs, bl);
encode(part_size, bl);
encode(stripe_max_size, bl);
encode(override_prefix, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START(2, bl);
decode(start_part_num, bl);
decode(start_ofs, bl);
decode(part_size, bl);
decode(stripe_max_size, bl);
if (struct_v >= 2)
decode(override_prefix, bl);
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
};
WRITE_CLASS_ENCODER(RGWObjManifestRule)
class RGWObjManifest {
protected:
bool explicit_objs{false}; /* really old manifest? */
map<uint64_t, RGWObjManifestPart> objs;
uint64_t obj_size{0};
rgw_obj obj;
uint64_t head_size{0};
rgw_placement_rule head_placement_rule;
uint64_t max_head_size{0};
string prefix;
rgw_bucket_placement tail_placement; /* might be different than the original bucket,
as object might have been copied across pools */
map<uint64_t, RGWObjManifestRule> rules;
string tail_instance; /* tail object's instance */
void convert_to_explicit(const DoutPrefixProvider *dpp, const RGWZoneGroup& zonegroup, const RGWZoneParams& zone_params);
int append_explicit(const DoutPrefixProvider *dpp, RGWObjManifest& m, const RGWZoneGroup& zonegroup, const RGWZoneParams& zone_params);
void append_rules(RGWObjManifest& m, map<uint64_t, RGWObjManifestRule>::iterator& iter, string *override_prefix);
public:
RGWObjManifest() = default;
RGWObjManifest(const RGWObjManifest& rhs) {
*this = rhs;
}
RGWObjManifest& operator=(const RGWObjManifest& rhs) {
explicit_objs = rhs.explicit_objs;
objs = rhs.objs;
obj_size = rhs.obj_size;
obj = rhs.obj;
head_size = rhs.head_size;
max_head_size = rhs.max_head_size;
prefix = rhs.prefix;
tail_placement = rhs.tail_placement;
rules = rhs.rules;
tail_instance = rhs.tail_instance;
return *this;
}
map<uint64_t, RGWObjManifestPart>& get_explicit_objs() {
return objs;
}
void set_explicit(uint64_t _size, map<uint64_t, RGWObjManifestPart>& _objs) {
explicit_objs = true;
objs.swap(_objs);
set_obj_size(_size);
}
void get_implicit_location(uint64_t cur_part_id, uint64_t cur_stripe, uint64_t ofs,
string *override_prefix, rgw_obj_select *location) const;
void set_trivial_rule(uint64_t tail_ofs, uint64_t stripe_max_size) {
RGWObjManifestRule rule(0, tail_ofs, 0, stripe_max_size);
rules[0] = rule;
max_head_size = tail_ofs;
}
void set_multipart_part_rule(uint64_t stripe_max_size, uint64_t part_num) {
RGWObjManifestRule rule(0, 0, 0, stripe_max_size);
rule.start_part_num = part_num;
rules[0] = rule;
max_head_size = 0;
}
void encode(bufferlist& bl) const {
ENCODE_START(7, 6, bl);
encode(obj_size, bl);
encode(objs, bl);
encode(explicit_objs, bl);
encode(obj, bl);
encode(head_size, bl);
encode(max_head_size, bl);
encode(prefix, bl);
encode(rules, bl);
bool encode_tail_bucket = !(tail_placement.bucket == obj.bucket);
encode(encode_tail_bucket, bl);
if (encode_tail_bucket) {
encode(tail_placement.bucket, bl);
}
bool encode_tail_instance = (tail_instance != obj.key.instance);
encode(encode_tail_instance, bl);
if (encode_tail_instance) {
encode(tail_instance, bl);
}
encode(head_placement_rule, bl);
encode(tail_placement.placement_rule, bl);
ENCODE_FINISH(bl);
}
void decode(bufferlist::const_iterator& bl) {
DECODE_START_LEGACY_COMPAT_LEN_32(7, 2, 2, bl);
decode(obj_size, bl);
decode(objs, bl);
if (struct_v >= 3) {
decode(explicit_objs, bl);
decode(obj, bl);
decode(head_size, bl);
decode(max_head_size, bl);
decode(prefix, bl);
decode(rules, bl);
} else {
explicit_objs = true;
if (!objs.empty()) {
map<uint64_t, RGWObjManifestPart>::iterator iter = objs.begin();
obj = iter->second.loc;
head_size = iter->second.size;
max_head_size = head_size;
}
}
if (explicit_objs && head_size > 0 && !objs.empty()) {
/* patch up manifest due to issue 16435:
* the first object in the explicit objs list might not be the one we need to access, use the
* head object instead if set. This would happen if we had an old object that was created
* when the explicit objs manifest was around, and it got copied.
*/
rgw_obj& obj_0 = objs[0].loc;
if (!obj_0.get_oid().empty() && obj_0.key.ns.empty()) {
objs[0].loc = obj;
objs[0].size = head_size;
}
}
if (struct_v >= 4) {
if (struct_v < 6) {
decode(tail_placement.bucket, bl);
} else {
bool need_to_decode;
decode(need_to_decode, bl);
if (need_to_decode) {
decode(tail_placement.bucket, bl);
} else {
tail_placement.bucket = obj.bucket;
}
}
}
if (struct_v >= 5) {
if (struct_v < 6) {
decode(tail_instance, bl);
} else {
bool need_to_decode;
decode(need_to_decode, bl);
if (need_to_decode) {
decode(tail_instance, bl);
} else {
tail_instance = obj.key.instance;
}
}
} else { // old object created before 'tail_instance' field added to manifest
tail_instance = obj.key.instance;
}
if (struct_v >= 7) {
decode(head_placement_rule, bl);
decode(tail_placement.placement_rule, bl);
}
DECODE_FINISH(bl);
}
void dump(Formatter *f) const;
static void generate_test_instances(list<RGWObjManifest*>& o);
int append(const DoutPrefixProvider *dpp, RGWObjManifest& m, const RGWZoneGroup& zonegroup,
const RGWZoneParams& zone_params);
int append(const DoutPrefixProvider *dpp, RGWObjManifest& m, RGWSI_Zone *zone_svc);
bool get_rule(uint64_t ofs, RGWObjManifestRule *rule);
bool empty() const {
if (explicit_objs)
return objs.empty();
return rules.empty();
}
bool has_explicit_objs() const {
return explicit_objs;
}
bool has_tail() const {
if (explicit_objs) {
if (objs.size() == 1) {
auto iter = objs.begin();
const rgw_obj& o = iter->second.loc;
return !(obj == o);
}
return (objs.size() >= 2);
}
return (obj_size > head_size);
}
void set_head(const rgw_placement_rule& placement_rule, const rgw_obj& _o, uint64_t _s) {
head_placement_rule = placement_rule;
obj = _o;
head_size = _s;
if (explicit_objs && head_size > 0) {
objs[0].loc = obj;
objs[0].size = head_size;
}
}
const rgw_obj& get_obj() const {
return obj;
}
void set_tail_placement(const rgw_placement_rule& placement_rule, const rgw_bucket& _b) {
tail_placement.placement_rule = placement_rule;
tail_placement.bucket = _b;
}
const rgw_bucket_placement& get_tail_placement() const {
return tail_placement;
}
const rgw_placement_rule& get_head_placement_rule() const {
return head_placement_rule;
}
void set_prefix(const string& _p) {
prefix = _p;
}
const string& get_prefix() const {
return prefix;
}
void set_tail_instance(const string& _ti) {
tail_instance = _ti;
}
const string& get_tail_instance() const {
return tail_instance;
}
void set_head_size(uint64_t _s) {
head_size = _s;
}
void set_obj_size(uint64_t s) {
obj_size = s;
}
uint64_t get_obj_size() const {
return obj_size;
}
uint64_t get_head_size() const {
return head_size;
}
uint64_t get_max_head_size() const {
return max_head_size;
}
class obj_iterator {
const DoutPrefixProvider *dpp;
const RGWObjManifest *manifest = nullptr;
uint64_t part_ofs = 0; /* where current part starts */
uint64_t stripe_ofs = 0; /* where current stripe starts */
uint64_t ofs = 0; /* current position within the object */
uint64_t stripe_size = 0; /* current part size */
int cur_part_id = 0;
int cur_stripe = 0;
string cur_override_prefix;
rgw_obj_select location;
map<uint64_t, RGWObjManifestRule>::const_iterator rule_iter;
map<uint64_t, RGWObjManifestRule>::const_iterator next_rule_iter;
map<uint64_t, RGWObjManifestPart>::const_iterator explicit_iter;
void update_explicit_pos();
public:
obj_iterator() = default;
explicit obj_iterator(const DoutPrefixProvider *_dpp, const RGWObjManifest *_m)
: obj_iterator(_dpp, _m, 0)
{}
obj_iterator(const DoutPrefixProvider *_dpp, const RGWObjManifest *_m, uint64_t _ofs) : dpp(_dpp), manifest(_m) {
seek(_ofs);
}
void seek(uint64_t ofs);
void operator++();
bool operator==(const obj_iterator& rhs) const {
return (ofs == rhs.ofs);
}
bool operator!=(const obj_iterator& rhs) const {
return (ofs != rhs.ofs);
}
const rgw_obj_select& get_location() {
return location;
}
/* where current part starts */
uint64_t get_part_ofs() const {
return part_ofs;
}
/* start of current stripe */
uint64_t get_stripe_ofs() {
if (manifest->explicit_objs) {
return explicit_iter->first;
}
return stripe_ofs;
}
/* current ofs relative to start of rgw object */
uint64_t get_ofs() const {
return ofs;
}
/* stripe number */
int get_cur_stripe() const {
return cur_stripe;
}
/* current stripe size */
uint64_t get_stripe_size() {
if (manifest->explicit_objs) {
return explicit_iter->second.size;
}
return stripe_size;
}
/* offset where data starts within current stripe */
uint64_t location_ofs() {
if (manifest->explicit_objs) {
return explicit_iter->second.loc_ofs;
}
return 0; /* all stripes start at zero offset */
}
void update_location();
void dump(Formatter *f) const;
}; // class obj_iterator
obj_iterator obj_begin(const DoutPrefixProvider *dpp) const { return obj_iterator{dpp, this}; }
obj_iterator obj_end(const DoutPrefixProvider *dpp) const { return obj_iterator{dpp, this, obj_size}; }
obj_iterator obj_find(const DoutPrefixProvider *dpp, uint64_t ofs) const {
return obj_iterator{dpp, this, std::min(ofs, obj_size)};
}
/*
* simple object generator. Using a simple single rule manifest.
*/
class generator {
RGWObjManifest *manifest;
uint64_t last_ofs;
uint64_t cur_part_ofs;
int cur_part_id;
int cur_stripe;
uint64_t cur_stripe_size;
string cur_oid;
string oid_prefix;
rgw_obj_select cur_obj;
RGWObjManifestRule rule;
public:
generator() : manifest(NULL), last_ofs(0), cur_part_ofs(0), cur_part_id(0),
cur_stripe(0), cur_stripe_size(0) {}
int create_begin(CephContext *cct, RGWObjManifest *manifest,
const rgw_placement_rule& head_placement_rule,
const rgw_placement_rule *tail_placement_rule,
const rgw_bucket& bucket,
const rgw_obj& obj);
int create_next(uint64_t ofs);
rgw_raw_obj get_cur_obj(RGWZoneGroup& zonegroup, RGWZoneParams& zone_params) { return cur_obj.get_raw_obj(zonegroup, zone_params); }
rgw_raw_obj get_cur_obj(rgw::sal::RGWStore* store) const { return cur_obj.get_raw_obj(store); }
/* total max size of current stripe (including head obj) */
uint64_t cur_stripe_max_size() const {
return cur_stripe_size;
}
};
};
WRITE_CLASS_ENCODER(RGWObjManifest)
|