/usr/include/thunderbird/mdb.h is in thunderbird-dev 1:52.8.0-1~deb8u1.
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2422 2423 2424 2425 2426 2427 2428 2429 2430 2431 2432 2433 2434 2435 2436 2437 2438 2439 2440 2441 2442 2443 2444 2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 2462 2463 2464 2465 2466 2467 2468 2469 2470 2471 2472 2473 2474 2475 2476 2477 2478 2479 2480 2481 2482 2483 2484 2485 2486 2487 2488 2489 2490 2491 2492 2493 2494 2495 2496 2497 2498 2499 2500 2501 2502 2503 2504 2505 2506 2507 2508 2509 2510 2511 2512 2513 2514 2515 2516 2517 2518 2519 | /* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is mozilla.org code.
*
* The Initial Developer of the Original Code is
* Netscape Communications Corporation.
* Portions created by the Initial Developer are Copyright (C) 1999
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Blake Ross (blake@blakeross.com)
*
* Alternatively, the contents of this file may be used under the terms of
* either of the GNU General Public License Version 2 or later (the "GPL"),
* or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
#ifndef _MDB_
#define _MDB_ 1
#include "nscore.h"
#include "nsISupports.h"
//3456789_123456789_123456789_123456789_123456789_123456789_123456789_123456789
// { %%%%% begin scalar typedefs %%%%%
typedef unsigned char mdb_u1; // make sure this is one byte
typedef unsigned short mdb_u2; // make sure this is two bytes
typedef short mdb_i2; // make sure this is two bytes
typedef uint32_t mdb_u4; // make sure this is four bytes
typedef int32_t mdb_i4; // make sure this is four bytes
typedef PRWord mdb_ip; // make sure sizeof(mdb_ip) == sizeof(void*)
typedef mdb_u1 mdb_bool; // unsigned byte with zero=false, nonzero=true
/* canonical boolean constants provided only for code clarity: */
#define mdbBool_kTrue ((mdb_bool) 1) /* actually any nonzero means true */
#define mdbBool_kFalse ((mdb_bool) 0) /* only zero means false */
typedef mdb_u4 mdb_id; // unsigned object identity in a scope
typedef mdb_id mdb_rid; // unsigned row identity inside scope
typedef mdb_id mdb_tid; // unsigned table identity inside scope
typedef mdb_u4 mdb_token; // unsigned token for atomized string
typedef mdb_token mdb_scope; // token used to id scope for rows
typedef mdb_token mdb_kind; // token used to id kind for tables
typedef mdb_token mdb_column; // token used to id columns for rows
typedef mdb_token mdb_cscode; // token used to id charset names
typedef mdb_u4 mdb_seed; // unsigned collection change counter
typedef mdb_u4 mdb_count; // unsigned collection member count
typedef mdb_u4 mdb_size; // unsigned physical media size
typedef mdb_u4 mdb_fill; // unsigned logical content size
typedef mdb_u4 mdb_more; // more available bytes for larger buffer
typedef mdb_u2 mork_uses; // 2-byte strong uses count
typedef mdb_u2 mork_refs; // 2-byte actual reference count
#define mdbId_kNone ((mdb_id) -1) /* never a valid Mork object ID */
typedef mdb_u4 mdb_percent; // 0..100, with values >100 same as 100
typedef mdb_u1 mdb_priority; // 0..9, for a total of ten different values
// sequence position is signed; negative is useful to mean "before first":
typedef mdb_i4 mdb_pos; // signed zero-based ordinal collection position
#define mdbPos_kBeforeFirst ((mdb_pos) -1) /* any negative is before zero */
// order is also signed, so we can use three states for comparison order:
typedef mdb_i4 mdb_order; // neg:lessthan, zero:equalto, pos:greaterthan
typedef mdb_order (* mdbAny_Order)(const void* inA, const void* inB,
const void* inClosure);
// } %%%%% end scalar typedefs %%%%%
// { %%%%% begin C structs %%%%%
#ifndef mdbScopeStringSet_typedef
typedef struct mdbScopeStringSet mdbScopeStringSet;
#define mdbScopeStringSet_typedef 1
#endif
/*| mdbScopeStringSet: a set of null-terminated C strings that enumerate some
**| names of row scopes, so that row scopes intended for use by an application
**| can be declared by an app when trying to open or create a database file.
**| (We use strings and not tokens because we cannot know the tokens for any
**| particular db without having first opened the db.) The goal is to inform
**| a db runtime that scopes not appearing in this list can be given relatively
**| short shrift in runtime representation, with the expectation that other
**| scopes will not actually be used. However, a db should still be prepared
**| to handle accessing row scopes not in this list, rather than raising errors.
**| But it could be quite expensive to access a row scope not on the list.
**| Note a zero count for the string set means no such string set is being
**| specified, and that a db should handle all row scopes efficiently.
**| (It does NOT mean an app plans to use no content whatsoever.)
|*/
#ifndef mdbScopeStringSet_struct
#define mdbScopeStringSet_struct 1
struct mdbScopeStringSet { // vector of scopes for use in db opening policy
// when mScopeStringSet_Count is zero, this means no scope constraints
mdb_count mScopeStringSet_Count; // number of strings in vector below
const char** mScopeStringSet_Strings; // null-ended ascii scope strings
};
#endif /*mdbScopeStringSet_struct*/
#ifndef mdbOpenPolicy_typedef
typedef struct mdbOpenPolicy mdbOpenPolicy;
#define mdbOpenPolicy_typedef 1
#endif
#ifndef mdbOpenPolicy_struct
#define mdbOpenPolicy_struct 1
struct mdbOpenPolicy { // policies affecting db usage for ports and stores
mdbScopeStringSet mOpenPolicy_ScopePlan; // predeclare scope usage plan
mdb_bool mOpenPolicy_MaxLazy; // nonzero: do least work
mdb_bool mOpenPolicy_MinMemory; // nonzero: use least memory
};
#endif /*mdbOpenPolicy_struct*/
#ifndef mdbTokenSet_typedef
typedef struct mdbTokenSet mdbTokenSet;
#define mdbTokenSet_typedef 1
#endif
#ifndef mdbTokenSet_struct
#define mdbTokenSet_struct 1
struct mdbTokenSet { // array for a set of tokens, and actual slots used
mdb_count mTokenSet_Count; // number of token slots in the array
mdb_fill mTokenSet_Fill; // the subset of count slots actually used
mdb_more mTokenSet_More; // more tokens available for bigger array
mdb_token* mTokenSet_Tokens; // array of count mdb_token instances
};
#endif /*mdbTokenSet_struct*/
#ifndef mdbUsagePolicy_typedef
typedef struct mdbUsagePolicy mdbUsagePolicy;
#define mdbUsagePolicy_typedef 1
#endif
/*| mdbUsagePolicy: another version of mdbOpenPolicy which uses tokens instead
**| of scope strings, because usage policies can be constructed for use with a
**| db that is already open, while an open policy must be constructed before a
**| db has yet been opened.
|*/
#ifndef mdbUsagePolicy_struct
#define mdbUsagePolicy_struct 1
struct mdbUsagePolicy { // policies affecting db usage for ports and stores
mdbTokenSet mUsagePolicy_ScopePlan; // current scope usage plan
mdb_bool mUsagePolicy_MaxLazy; // nonzero: do least work
mdb_bool mUsagePolicy_MinMemory; // nonzero: use least memory
};
#endif /*mdbUsagePolicy_struct*/
#ifndef mdbOid_typedef
typedef struct mdbOid mdbOid;
#define mdbOid_typedef 1
#endif
#ifndef mdbOid_struct
#define mdbOid_struct 1
struct mdbOid { // identity of some row or table inside a database
mdb_scope mOid_Scope; // scope token for an id's namespace
mdb_id mOid_Id; // identity of object inside scope namespace
};
#endif /*mdbOid_struct*/
#ifndef mdbRange_typedef
typedef struct mdbRange mdbRange;
#define mdbRange_typedef 1
#endif
#ifndef mdbRange_struct
#define mdbRange_struct 1
struct mdbRange { // range of row positions in a table
mdb_pos mRange_FirstPos; // position of first row
mdb_pos mRange_LastPos; // position of last row
};
#endif /*mdbRange_struct*/
#ifndef mdbColumnSet_typedef
typedef struct mdbColumnSet mdbColumnSet;
#define mdbColumnSet_typedef 1
#endif
#ifndef mdbColumnSet_struct
#define mdbColumnSet_struct 1
struct mdbColumnSet { // array of column tokens (just the same as mdbTokenSet)
mdb_count mColumnSet_Count; // number of columns
mdb_column* mColumnSet_Columns; // count mdb_column instances
};
#endif /*mdbColumnSet_struct*/
#ifndef mdbYarn_typedef
typedef struct mdbYarn mdbYarn;
#define mdbYarn_typedef 1
#endif
#ifdef MDB_BEGIN_C_LINKAGE_define
#define MDB_BEGIN_C_LINKAGE_define 1
#define MDB_BEGIN_C_LINKAGE extern "C" {
#define MDB_END_C_LINKAGE }
#endif /*MDB_BEGIN_C_LINKAGE_define*/
/*| mdbYarn_mGrow: an abstract API for growing the size of a mdbYarn
**| instance. With respect to a specific API that requires a caller
**| to supply a string (mdbYarn) that a callee fills with content
**| that might exceed the specified size, mdbYarn_mGrow is a caller-
**| supplied means of letting a callee attempt to increase the string
**| size to become large enough to receive all content available.
**|
**|| Grow(): a method for requesting that a yarn instance be made
**| larger in size. Note that such requests need not be honored, and
**| need not be honored in full if only partial size growth is desired.
**| (Note that no nsIMdbEnv instance is passed as argument, although one
**| might be needed in some circumstances. So if an nsIMdbEnv is needed,
**| a reference to one might be held inside a mdbYarn member slot.)
**|
**|| self: a yarn instance to be grown. Presumably this yarn is
**| the instance which holds the mYarn_Grow method pointer. Yarn
**| instancesshould only be passed to grow methods which they were
**| specifically designed to fit, as indicated by the mYarn_Grow slot.
**|
**|| inNewSize: the new desired value for slot mYarn_Size in self.
**| If mYarn_Size is already this big, then nothing should be done.
**| If inNewSize is larger than seems feasible or desirable to honor,
**| then any size restriction policy can be used to grow to some size
**| greater than mYarn_Size. (Grow() might even grow to a size
**| greater than inNewSize in order to make the increase in size seem
**| worthwhile, rather than growing in many smaller steps over time.)
|*/
typedef void (* mdbYarn_mGrow)(mdbYarn* self, mdb_size inNewSize);
// mdbYarn_mGrow methods must be declared with C linkage in C++
/*| mdbYarn: a variable length "string" of arbitrary binary bytes,
**| whose length is mYarn_Fill, inside a buffer mYarn_Buf that has
**| at most mYarn_Size byte of physical space.
**|
**|| mYarn_Buf: a pointer to space containing content. This slot
**| might never be nil when mYarn_Size is nonzero, but checks for nil
**| are recommended anyway.
**| (Implementations of mdbYarn_mGrow methods should take care to
**| ensure the existence of a replacement before dropping old Bufs.)
**| Content in Buf can be anything in any format, but the mYarn_Form
**| implies the actual format by some caller-to-callee convention.
**| mYarn_Form==0 implies US-ASCII iso-8859-1 Latin1 string content.
**|
**|| mYarn_Size: the physical size of Buf in bytes. Note that if one
**| intends to terminate a string with a null byte, that it must not
**| be written at or after mYarn_Buf[mYarn_Size] because this is after
**| the last byte in the physical buffer space. Size can be zero,
**| which means the string has no content whatsoever; note that when
**| Size is zero, this is a suitable reason for Buf==nil as well.
**|
**|| mYarn_Fill: the logical content in Buf in bytes, where Fill must
**| never exceed mYarn_Size. Note that yarn strings might not have a
**| terminating null byte (since they might not even be C strings), but
**| when they do, such terminating nulls are considered part of content
**| and therefore Fill will count such null bytes. So an "empty" C
**| string will have Fill==1, because content includes one null byte.
**| Fill does not mean "length" when applied to C strings for this
**| reason. However, clients using yarns to hold C strings can infer
**| that length is equal to Fill-1 (but should take care to handle the
**| case where Fill==0). To be paranoid, one can always copy to a
**| destination with size exceeding Fill, and place a redundant null
**| byte in the Fill position when this simplifies matters.
**|
**|| mYarn_Form: a designation of content format within mYarn_Buf.
**| The semantics of this slot are the least well defined, since the
**| actual meaning is context dependent, to the extent that callers
**| and callees must agree on format encoding conventions when such
**| are not standardized in many computing contexts. However, in the
**| context of a specific mdb database, mYarn_Form is a token for an
**| atomized string in that database that typically names a preferred
**| mime type charset designation. If and when mdbYarn is used for
**| other purposes away from the mdb interface, folks can use another
**| convention system for encoding content formats. However, in all
**| contexts is it useful to maintain the convention that Form==0
**| implies Buf contains US-ASCII iso-8859-1 Latin1 string content.
**|
**|| mYarn_Grow: either a mdbYarn_mGrow method, or else nil. When
**| a mdbYarn_mGrow method is provided, this method can be used to
**| request a yarn buf size increase. A caller who constructs the
**| original mdbYarn instance decides whether a grow method is necessary
**| or desirable, and uses only grow methods suitable for the buffering
**| nature of a specific mdbYarn instance. (For example, Buf might be a
**| staticly allocated string space which switches to something heap-based
**| when grown, and subsequent calls to grow the yarn must distinguish the
**| original static string from heap allocated space, etc.) Note that the
**| method stored in mYarn_Grow can change, and this might be a common way
**| to track memory managent changes in policy for mYarn_Buf.
|*/
#ifndef mdbYarn_struct
#define mdbYarn_struct 1
struct mdbYarn { // buffer with caller space allocation semantics
void* mYarn_Buf; // space for holding any binary content
mdb_fill mYarn_Fill; // logical content in Buf in bytes
mdb_size mYarn_Size; // physical size of Buf in bytes
mdb_more mYarn_More; // more available bytes if Buf is bigger
mdb_cscode mYarn_Form; // charset format encoding
mdbYarn_mGrow mYarn_Grow; // optional method to grow mYarn_Buf
// Subclasses might add further slots after mYarn_Grow in order to
// maintain bookkeeping needs, such as state info about mYarn_Buf.
};
#endif /*mdbYarn_struct*/
// } %%%%% end C structs %%%%%
// { %%%%% begin class forward defines %%%%%
class nsIMdbEnv;
class nsIMdbObject;
class nsIMdbErrorHook;
class nsIMdbThumb;
class nsIMdbFactory;
class nsIMdbFile;
class nsIMdbPort;
class nsIMdbStore;
class nsIMdbCursor;
class nsIMdbPortTableCursor;
class nsIMdbCollection;
class nsIMdbTable;
class nsIMdbTableRowCursor;
class nsIMdbRow;
class nsIMdbRowCellCursor;
class nsIMdbBlob;
class nsIMdbCell;
class nsIMdbSorting;
// } %%%%% end class forward defines %%%%%
// { %%%%% begin C++ abstract class interfaces %%%%%
/*| nsIMdbObject: base class for all message db class interfaces
**|
**|| factory: all nsIMdbObjects from the same code suite have the same factory
**|
**|| refcounting: both strong and weak references, to ensure strong refs are
**| acyclic, while weak refs can cause cycles. CloseMdbObject() is
**| called when (strong) use counts hit zero, but clients can call this close
**| method early for some reason, if absolutely necessary even though it will
**| thwart the other uses of the same object. Note that implementations must
**| cope with close methods being called arbitrary numbers of times. The COM
**| calls to AddRef() and release ref map directly to strong use ref calls,
**| but the total ref count for COM objects is the sum of weak & strong refs.
|*/
#define NS_IMDBOBJECT_IID_STR "5533ea4b-14c3-4bef-ac60-22f9e9a49084"
#define NS_IMDBOBJECT_IID \
{0x5533ea4b, 0x14c3, 0x4bef, \
{ 0xac, 0x60, 0x22, 0xf9, 0xe9, 0xa4, 0x90, 0x84}}
class nsIMdbObject : public nsISupports { // msg db base class
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBOBJECT_IID)
// { ===== begin nsIMdbObject methods =====
// { ----- begin attribute methods -----
NS_IMETHOD IsFrozenMdbObject(nsIMdbEnv* ev, mdb_bool* outIsReadonly) = 0;
// same as nsIMdbPort::GetIsPortReadonly() when this object is inside a port.
// } ----- end attribute methods -----
// { ----- begin factory methods -----
NS_IMETHOD GetMdbFactory(nsIMdbEnv* ev, nsIMdbFactory** acqFactory) = 0;
// } ----- end factory methods -----
// { ----- begin ref counting for well-behaved cyclic graphs -----
NS_IMETHOD GetWeakRefCount(nsIMdbEnv* ev, // weak refs
mdb_count* outCount) = 0;
NS_IMETHOD GetStrongRefCount(nsIMdbEnv* ev, // strong refs
mdb_count* outCount) = 0;
NS_IMETHOD AddWeakRef(nsIMdbEnv* ev) = 0;
NS_IMETHOD_(mork_uses) AddStrongRef(nsIMdbEnv* ev) = 0;
NS_IMETHOD CutWeakRef(nsIMdbEnv* ev) = 0;
NS_IMETHOD CutStrongRef(nsIMdbEnv* ev) = 0;
NS_IMETHOD CloseMdbObject(nsIMdbEnv* ev) = 0; // called at strong refs zero
NS_IMETHOD IsOpenMdbObject(nsIMdbEnv* ev, mdb_bool* outOpen) = 0;
// } ----- end ref counting -----
// } ===== end nsIMdbObject methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbObject, NS_IMDBOBJECT_IID)
/*| nsIMdbErrorHook: a base class for clients of this API to subclass, in order
**| to provide a callback installable in nsIMdbEnv for error notifications. If
**| apps that subclass nsIMdbErrorHook wish to maintain a reference to the env
**| that contains the hook, then this should be a weak ref to avoid cycles.
**|
**|| OnError: when nsIMdbEnv has an error condition that causes the total count
**| of errors to increase, then nsIMdbEnv should call OnError() to report the
**| error in some fashion when an instance of nsIMdbErrorHook is installed. The
**| variety of string flavors is currently due to the uncertainty here in the
**| nsIMdbBlob and nsIMdbCell interfaces. (Note that overloading by using the
**| same method name is not necessary here, and potentially less clear.)
|*/
class nsIMdbErrorHook : public nsISupports{ // env callback handler to report errors
public:
// { ===== begin error methods =====
NS_IMETHOD OnErrorString(nsIMdbEnv* ev, const char* inAscii) = 0;
NS_IMETHOD OnErrorYarn(nsIMdbEnv* ev, const mdbYarn* inYarn) = 0;
// } ===== end error methods =====
// { ===== begin warning methods =====
NS_IMETHOD OnWarningString(nsIMdbEnv* ev, const char* inAscii) = 0;
NS_IMETHOD OnWarningYarn(nsIMdbEnv* ev, const mdbYarn* inYarn) = 0;
// } ===== end warning methods =====
// { ===== begin abort hint methods =====
NS_IMETHOD OnAbortHintString(nsIMdbEnv* ev, const char* inAscii) = 0;
NS_IMETHOD OnAbortHintYarn(nsIMdbEnv* ev, const mdbYarn* inYarn) = 0;
// } ===== end abort hint methods =====
};
/*| nsIMdbHeap: abstract memory allocation interface.
**|
**|| Alloc: return a block at least inSize bytes in size with alignment
**| suitable for any native type (such as long integers). When no such
**| block can be allocated, failure is indicated by a null address in
**| addition to reporting an error in the environment.
**|
**|| Free: deallocate a block allocated or resized earlier by the same
**| heap instance. If the inBlock parameter is nil, the heap should do
**| nothing (and crashing is strongly discouraged).
|*/
class nsIMdbHeap { // caller-supplied memory management interface
public:
// { ===== begin nsIMdbHeap methods =====
NS_IMETHOD Alloc(nsIMdbEnv* ev, // allocate a piece of memory
mdb_size inSize, // requested byte size of new memory block
void** outBlock) = 0; // memory block of inSize bytes, or nil
NS_IMETHOD Free(nsIMdbEnv* ev, // free block from Alloc or Resize()
void* ioBlock) = 0; // block to be destroyed/deallocated
virtual size_t GetUsedSize() = 0;
virtual ~nsIMdbHeap() {};
// } ===== end nsIMdbHeap methods =====
};
/*| nsIMdbCPlusHeap: Alloc() with global ::new(), Free() with global ::delete().
**| Resize() is done by ::new() followed by ::delete().
|*/
class nsIMdbCPlusHeap { // caller-supplied memory management interface
public:
// { ===== begin nsIMdbHeap methods =====
NS_IMETHOD Alloc(nsIMdbEnv* ev, // allocate a piece of memory
mdb_size inSize, // requested size of new memory block
void** outBlock); // memory block of inSize bytes, or nil
NS_IMETHOD Free(nsIMdbEnv* ev, // free block allocated earlier by Alloc()
void* inBlock);
NS_IMETHOD HeapAddStrongRef(nsIMdbEnv* ev);
NS_IMETHOD HeapCutStrongRef(nsIMdbEnv* ev);
// } ===== end nsIMdbHeap methods =====
};
/*| nsIMdbThumb:
|*/
#define NS_IMDBTHUMB_IID_STR "6d3ad7c1-a809-4e74-8577-49fa9a4562fa"
#define NS_IMDBTHUMB_IID \
{0x6d3ad7c1, 0xa809, 0x4e74, \
{ 0x85, 0x77, 0x49, 0xfa, 0x9a, 0x45, 0x62, 0xfa}}
class nsIMdbThumb : public nsISupports { // closure for repeating incremental method
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBTHUMB_IID)
// { ===== begin nsIMdbThumb methods =====
NS_IMETHOD GetProgress(nsIMdbEnv* ev,
mdb_count* outTotal, // total somethings to do in operation
mdb_count* outCurrent, // subportion of total completed so far
mdb_bool* outDone, // is operation finished?
mdb_bool* outBroken // is operation irreparably dead and broken?
) = 0;
NS_IMETHOD DoMore(nsIMdbEnv* ev,
mdb_count* outTotal, // total somethings to do in operation
mdb_count* outCurrent, // subportion of total completed so far
mdb_bool* outDone, // is operation finished?
mdb_bool* outBroken // is operation irreparably dead and broken?
) = 0;
NS_IMETHOD CancelAndBreakThumb( // cancel pending operation
nsIMdbEnv* ev) = 0;
// } ===== end nsIMdbThumb methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbThumb, NS_IMDBTHUMB_IID)
/*| nsIMdbEnv: a context parameter used when calling most abstract db methods.
**| The main purpose of such an object is to permit a database implementation
**| to avoid the use of globals to share information between various parts of
**| the implementation behind the abstract db interface. An environment acts
**| like a session object for a given calling thread, and callers should use
**| at least one different nsIMdbEnv instance for each thread calling the API.
**| While the database implementation might not be threaded, it is highly
**| desirable that the db be thread-safe if calling threads use distinct
**| instances of nsIMdbEnv. Callers can stop at one nsIMdbEnv per thread, or they
**| might decide to make on nsIMdbEnv instance for every nsIMdbPort opened, so that
**| error information is segregated by database instance. Callers create
**| instances of nsIMdbEnv by calling the MakeEnv() method in nsIMdbFactory.
**|
**|| tracing: an environment might support some kind of tracing, and this
**| boolean attribute permits such activity to be enabled or disabled.
**|
**|| errors: when a call to the abstract db interface returns, a caller might
**| check the number of outstanding errors to see whether the operation did
**| actually succeed. Each nsIMdbEnv should have all its errors cleared by a
**| call to ClearErrors() before making each call to the abstract db API,
**| because outstanding errors might disable further database actions. (This
**| is not done inside the db interface, because the db cannot in general know
**| when a call originates from inside or outside -- only the app knows this.)
**|
**|| error hook: callers can install an instance of nsIMdbErrorHook to receive
**| error notifications whenever the error count increases. The hook can
**| be uninstalled by passing a null pointer.
**|
|*/
#define NS_IMDBENV_IID_STR "a765e46b-efb6-41e6-b75b-c5d6bd710594"
#define NS_IMDBENV_IID \
{0xa765e46b, 0xefb6, 0x41e6, \
{ 0xb7, 0x5b, 0xc5, 0xd6, 0xbd, 0x71, 0x05, 0x94}}
class nsIMdbEnv : public nsISupports { // db specific context parameter
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBENV_IID)
// { ===== begin nsIMdbEnv methods =====
// { ----- begin attribute methods -----
NS_IMETHOD GetErrorCount(mdb_count* outCount,
mdb_bool* outShouldAbort) = 0;
NS_IMETHOD GetWarningCount(mdb_count* outCount,
mdb_bool* outShouldAbort) = 0;
NS_IMETHOD GetEnvBeVerbose(mdb_bool* outBeVerbose) = 0;
NS_IMETHOD SetEnvBeVerbose(mdb_bool inBeVerbose) = 0;
NS_IMETHOD GetDoTrace(mdb_bool* outDoTrace) = 0;
NS_IMETHOD SetDoTrace(mdb_bool inDoTrace) = 0;
NS_IMETHOD GetAutoClear(mdb_bool* outAutoClear) = 0;
NS_IMETHOD SetAutoClear(mdb_bool inAutoClear) = 0;
NS_IMETHOD GetErrorHook(nsIMdbErrorHook** acqErrorHook) = 0;
NS_IMETHOD SetErrorHook(
nsIMdbErrorHook* ioErrorHook) = 0; // becomes referenced
NS_IMETHOD GetHeap(nsIMdbHeap** acqHeap) = 0;
NS_IMETHOD SetHeap(
nsIMdbHeap* ioHeap) = 0; // becomes referenced
// } ----- end attribute methods -----
NS_IMETHOD ClearErrors() = 0; // clear errors beore re-entering db API
NS_IMETHOD ClearWarnings() = 0; // clear warnings
NS_IMETHOD ClearErrorsAndWarnings() = 0; // clear both errors & warnings
// } ===== end nsIMdbEnv methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbEnv, NS_IMDBENV_IID)
/*| nsIMdbFactory: the main entry points to the abstract db interface. A DLL
**| that supports this mdb interface need only have a single exported method
**| that will return an instance of nsIMdbFactory, so that further methods in
**| the suite can be accessed from objects returned by nsIMdbFactory methods.
**|
**|| mdbYarn: note all nsIMdbFactory subclasses must guarantee null
**| termination of all strings written into mdbYarn instances, as long as
**| mYarn_Size and mYarn_Buf are nonzero. Even truncated string values must
**| be null terminated. This is more strict behavior than mdbYarn requires,
**| but it is part of the nsIMdbFactory interface.
**|
**|| envs: an environment instance is required as per-thread context for
**| most of the db method calls, so nsIMdbFactory creates such instances.
**|
**|| rows: callers must be able to create row instances that are independent
**| of storage space that is part of the db content graph. Many interfaces
**| for data exchange have strictly copy semantics, so that a row instance
**| has no specific identity inside the db content model, and the text in
**| cells are an independenty copy of unexposed content inside the db model.
**| Callers are expected to maintain one or more row instances as a buffer
**| for staging cell content copied into or out of a table inside the db.
**| Callers are urged to use an instance of nsIMdbRow created by the nsIMdbFactory
**| code suite, because reading and writing might be much more efficient than
**| when using a hand-rolled nsIMdbRow subclass with no relation to the suite.
**|
**|| ports: a port is a readonly interface to a specific database file. Most
**| of the methods to access a db file are suitable for a readonly interface,
**| so a port is the basic minimum for accessing content. This makes it
**| possible to read other external formats for import purposes, without
**| needing the code or competence necessary to write every such format. So
**| we can write generic import code just once, as long as every format can
**| show a face based on nsIMdbPort. (However, same suite import can be faster.)
**| Given a file name and the first 512 bytes of a file, a factory can say if
**| a port can be opened by this factory. Presumably an app maintains chains
**| of factories for different suites, and asks each in turn about opening a
**| a prospective file for reading (as a port) or writing (as a store). I'm
**| not ready to tackle issues of format fidelity and factory chain ordering.
**|
**|| stores: a store is a mutable interface to a specific database file, and
**| includes the port interface plus any methods particular to writing, which
**| are few in number. Presumably the set of files that can be opened as
**| stores is a subset of the set of files that can be opened as ports. A
**| new store can be created with CreateNewFileStore() by supplying a new
**| file name which does not yet exist (callers are always responsible for
**| destroying any existing files before calling this method).
|*/
#define NS_IMDBFACTORY_IID_STR "2b80395c-b91e-4990-b1a7-023e99ab14e9"
#define NS_IMDBFACTORY_IID \
{0xf04aa4ab, 0x1fe, 0x4115, \
{ 0xa4, 0xa5, 0x68, 0x19, 0xdf, 0xf1, 0x10, 0x3d}}
class nsIMdbFactory : public nsISupports { // suite entry points
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBFACTORY_IID)
// { ===== begin nsIMdbFactory methods =====
// { ----- begin file methods -----
NS_IMETHOD OpenOldFile(nsIMdbEnv* ev, nsIMdbHeap* ioHeap,
const char* inFilePath,
mdb_bool inFrozen, nsIMdbFile** acqFile) = 0;
// Choose some subclass of nsIMdbFile to instantiate, in order to read
// (and write if not frozen) the file known by inFilePath. The file
// returned should be open and ready for use, and presumably positioned
// at the first byte position of the file. The exact manner in which
// files must be opened is considered a subclass specific detail, and
// other portions or Mork source code don't want to know how it's done.
NS_IMETHOD CreateNewFile(nsIMdbEnv* ev, nsIMdbHeap* ioHeap,
const char* inFilePath,
nsIMdbFile** acqFile) = 0;
// Choose some subclass of nsIMdbFile to instantiate, in order to read
// (and write if not frozen) the file known by inFilePath. The file
// returned should be created and ready for use, and presumably positioned
// at the first byte position of the file. The exact manner in which
// files must be opened is considered a subclass specific detail, and
// other portions or Mork source code don't want to know how it's done.
// } ----- end file methods -----
// { ----- begin env methods -----
NS_IMETHOD MakeEnv(nsIMdbHeap* ioHeap, nsIMdbEnv** acqEnv) = 0; // acquire new env
// ioHeap can be nil, causing a MakeHeap() style heap instance to be used
// } ----- end env methods -----
// { ----- begin heap methods -----
NS_IMETHOD MakeHeap(nsIMdbEnv* ev, nsIMdbHeap** acqHeap) = 0; // acquire new heap
// } ----- end heap methods -----
// { ----- begin row methods -----
NS_IMETHOD MakeRow(nsIMdbEnv* ev, nsIMdbHeap* ioHeap, nsIMdbRow** acqRow) = 0; // new row
// ioHeap can be nil, causing the heap associated with ev to be used
// } ----- end row methods -----
// { ----- begin port methods -----
NS_IMETHOD CanOpenFilePort(
nsIMdbEnv* ev, // context
// const char* inFilePath, // the file to investigate
// const mdbYarn* inFirst512Bytes,
nsIMdbFile* ioFile, // db abstract file interface
mdb_bool* outCanOpen, // whether OpenFilePort() might succeed
mdbYarn* outFormatVersion) = 0; // informal file format description
NS_IMETHOD OpenFilePort(
nsIMdbEnv* ev, // context
nsIMdbHeap* ioHeap, // can be nil to cause ev's heap attribute to be used
// const char* inFilePath, // the file to open for readonly import
nsIMdbFile* ioFile, // db abstract file interface
const mdbOpenPolicy* inOpenPolicy, // runtime policies for using db
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental port open
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then call nsIMdbFactory::ThumbToOpenPort() to get the port instance.
NS_IMETHOD ThumbToOpenPort( // redeeming a completed thumb from OpenFilePort()
nsIMdbEnv* ev, // context
nsIMdbThumb* ioThumb, // thumb from OpenFilePort() with done status
nsIMdbPort** acqPort) = 0; // acquire new port object
// } ----- end port methods -----
// { ----- begin store methods -----
NS_IMETHOD CanOpenFileStore(
nsIMdbEnv* ev, // context
// const char* inFilePath, // the file to investigate
// const mdbYarn* inFirst512Bytes,
nsIMdbFile* ioFile, // db abstract file interface
mdb_bool* outCanOpenAsStore, // whether OpenFileStore() might succeed
mdb_bool* outCanOpenAsPort, // whether OpenFilePort() might succeed
mdbYarn* outFormatVersion) = 0; // informal file format description
NS_IMETHOD OpenFileStore( // open an existing database
nsIMdbEnv* ev, // context
nsIMdbHeap* ioHeap, // can be nil to cause ev's heap attribute to be used
// const char* inFilePath, // the file to open for general db usage
nsIMdbFile* ioFile, // db abstract file interface
const mdbOpenPolicy* inOpenPolicy, // runtime policies for using db
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental store open
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then call nsIMdbFactory::ThumbToOpenStore() to get the store instance.
NS_IMETHOD
ThumbToOpenStore( // redeem completed thumb from OpenFileStore()
nsIMdbEnv* ev, // context
nsIMdbThumb* ioThumb, // thumb from OpenFileStore() with done status
nsIMdbStore** acqStore) = 0; // acquire new db store object
NS_IMETHOD CreateNewFileStore( // create a new db with minimal content
nsIMdbEnv* ev, // context
nsIMdbHeap* ioHeap, // can be nil to cause ev's heap attribute to be used
// const char* inFilePath, // name of file which should not yet exist
nsIMdbFile* ioFile, // db abstract file interface
const mdbOpenPolicy* inOpenPolicy, // runtime policies for using db
nsIMdbStore** acqStore) = 0; // acquire new db store object
// } ----- end store methods -----
// } ===== end nsIMdbFactory methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbFactory, NS_IMDBFACTORY_IID)
extern "C" nsIMdbFactory* MakeMdbFactory();
/*| nsIMdbFile: abstract file interface resembling the original morkFile
**| abstract interface (which was in turn modeled on the file interface
**| from public domain IronDoc). The design of this file interface is
**| complicated by the fact that some DB's will not find this interface
**| adequate for all runtime requirements (even though this file API is
**| enough to implement text-based DB's like Mork). For this reason,
**| more methods have been added to let a DB library force the file to
**| become closed so the DB can reopen the file in some other manner.
**| Folks are encouraged to suggest ways to tune this interface to suit
**| DB's that cannot manage to pull their maneuvers even given this API.
**|
**|| Tell: get the current i/o position in file
**|
**|| Seek: change the current i/o position in file
**|
**|| Eof: return file's total length in bytes
**|
**|| Read: input inSize bytes into outBuf, returning actual transfer size
**|
**|| Get: read starting at specific file offset (e.g. Seek(); Read();)
**|
**|| Write: output inSize bytes from inBuf, returning actual transfer size
**|
**|| Put: write starting at specific file offset (e.g. Seek(); Write();)
**|
**|| Flush: if written bytes are buffered, push them to final destination
**|
**|| Path: get file path in some string representation. This is intended
**| either to support the display of file name in a user presentation, or
**| to support the closing and reopening of the file when the DB needs more
**| exotic file access than is presented by the nsIMdbFile interface.
**|
**|| Steal: tell this file to close any associated i/o stream in the file
**| system, because the file ioThief intends to reopen the file in order
**| to provide the MDB implementation with more exotic file access than is
**| offered by the nsIMdbFile alone. Presumably the thief knows enough
**| from Path() in order to know which file to reopen. If Steal() is
**| successful, this file should probably delegate all future calls to
**| the nsIMdbFile interface down to the thief files, so that even after
**| the file has been stolen, it can still be read, written, or forcibly
**| closed (by a call to CloseMdbObject()).
**|
**|| Thief: acquire and return thief passed to an earlier call to Steal().
|*/
#define NS_IMDBFILE_IID_STR "f04aa4ab-1fe7-4115-a4a5-6819dff1103d"
#define NS_IMDBFILE_IID \
{0xf04aa4ab, 0x1fe, 0x4115, \
{ 0xa4, 0xa5, 0x68, 0x19, 0xdf, 0xf1, 0x10, 0x3d}}
class nsIMdbFile : public nsISupports { // minimal file interface
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBFILE_IID)
// { ===== begin nsIMdbFile methods =====
// { ----- begin pos methods -----
NS_IMETHOD Tell(nsIMdbEnv* ev, mdb_pos* outPos) const = 0;
NS_IMETHOD Seek(nsIMdbEnv* ev, mdb_pos inPos, mdb_pos *outPos) = 0;
NS_IMETHOD Eof(nsIMdbEnv* ev, mdb_pos* outPos) = 0;
// } ----- end pos methods -----
// { ----- begin read methods -----
NS_IMETHOD Read(nsIMdbEnv* ev, void* outBuf, mdb_size inSize,
mdb_size* outActualSize) = 0;
NS_IMETHOD Get(nsIMdbEnv* ev, void* outBuf, mdb_size inSize,
mdb_pos inPos, mdb_size* outActualSize) = 0;
// } ----- end read methods -----
// { ----- begin write methods -----
NS_IMETHOD Write(nsIMdbEnv* ev, const void* inBuf, mdb_size inSize,
mdb_size* outActualSize) = 0;
NS_IMETHOD Put(nsIMdbEnv* ev, const void* inBuf, mdb_size inSize,
mdb_pos inPos, mdb_size* outActualSize) = 0;
NS_IMETHOD Flush(nsIMdbEnv* ev) = 0;
// } ----- end attribute methods -----
// { ----- begin path methods -----
NS_IMETHOD Path(nsIMdbEnv* ev, mdbYarn* outFilePath) = 0;
// } ----- end path methods -----
// { ----- begin replacement methods -----
NS_IMETHOD Steal(nsIMdbEnv* ev, nsIMdbFile* ioThief) = 0;
NS_IMETHOD Thief(nsIMdbEnv* ev, nsIMdbFile** acqThief) = 0;
// } ----- end replacement methods -----
// { ----- begin versioning methods -----
NS_IMETHOD BecomeTrunk(nsIMdbEnv* ev) = 0;
// If this file is a file version branch created by calling AcquireBud(),
// BecomeTrunk() causes this file's content to replace the original
// file's content, typically by assuming the original file's identity.
// This default implementation of BecomeTrunk() does nothing, and this
// is appropriate behavior for files which are not branches, and is
// also the right behavior for files returned from AcquireBud() which are
// in fact the original file that has been truncated down to zero length.
NS_IMETHOD AcquireBud(nsIMdbEnv* ev, nsIMdbHeap* ioHeap,
nsIMdbFile** acqBud) = 0; // acquired file for new version of content
// AcquireBud() starts a new "branch" version of the file, empty of content,
// so that a new version of the file can be written. This new file
// can later be told to BecomeTrunk() the original file, so the branch
// created by budding the file will replace the original file. Some
// file subclasses might initially take the unsafe but expedient
// approach of simply truncating this file down to zero length, and
// then returning the same morkFile pointer as this, with an extra
// reference count increment. Note that the caller of AcquireBud() is
// expected to eventually call CutStrongRef() on the returned file
// in order to release the strong reference. High quality versions
// of morkFile subclasses will create entirely new files which later
// are renamed to become the old file, so that better transactional
// behavior is exhibited by the file, so crashes protect old files.
// Note that AcquireBud() is an illegal operation on readonly files.
// } ----- end versioning methods -----
// } ===== end nsIMdbFile methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbFile, NS_IMDBFILE_IID)
/*| nsIMdbPort: a readonly interface to a specific database file. The mutable
**| nsIMdbStore interface is a subclass that includes writing behavior, but
**| most of the needed db methods appear in the readonly nsIMdbPort interface.
**|
**|| mdbYarn: note all nsIMdbPort and nsIMdbStore subclasses must guarantee null
**| termination of all strings written into mdbYarn instances, as long as
**| mYarn_Size and mYarn_Buf are nonzero. Even truncated string values must
**| be null terminated. This is more strict behavior than mdbYarn requires,
**| but it is part of the nsIMdbPort and nsIMdbStore interface.
**|
**|| attributes: methods are provided to distinguish a readonly port from a
**| mutable store, and whether a mutable store actually has any dirty content.
**|
**|| filepath: the file path used to open the port from the nsIMdbFactory can be
**| queried and discovered by GetPortFilePath(), which includes format info.
**|
**|| export: a port can write itself in other formats, with perhaps a typical
**| emphasis on text interchange formats used by other systems. A port can be
**| queried to determine its preferred export interchange format, and a port
**| can be queried to see whether a specific export format is supported. And
**| actually exporting a port requires a new destination file name and format.
**|
**|| tokens: a port supports queries about atomized strings to map tokens to
**| strings or strings to token integers. (All atomized strings must be in
**| US-ASCII iso-8859-1 Latin1 charset encoding.) When a port is actually a
**| mutable store and a string has not yet been atomized, then StringToToken()
**| will actually do so and modify the store. The QueryToken() method will not
**| atomize a string if it has not already been atomized yet, even in stores.
**|
**|| tables: other than string tokens, all port content is presented through
**| tables, which are ordered collections of rows. Tables are identified by
**| row scope and table kind, which might or might not be unique in a port,
**| depending on app convention. When tables are effectively unique, then
**| queries for specific scope and kind pairs will find those tables. To see
**| all tables that match specific row scope and table kind patterns, even in
**| the presence of duplicates, every port supports a GetPortTableCursor()
**| method that returns an iterator over all matching tables. Table kind is
**| considered scoped inside row scope, so passing a zero for table kind will
**| find all table kinds for some nonzero row scope. Passing a zero for row
**| scope will iterate over all tables in the port, in some undefined order.
**| (A new table can be added to a port using nsIMdbStore::NewTable(), even when
**| the requested scope and kind combination is already used by other tables.)
**|
**|| memory: callers can request that a database use less memory footprint in
**| several flavors, from an inconsequential idle flavor to a rather drastic
**| panic flavor. Callers might perform an idle purge very frequently if desired
**| with very little cost, since only normally scheduled memory management will
**| be conducted, such as freeing resources for objects scheduled to be dropped.
**| Callers should perform session memory purges infrequently because they might
**| involve costly scanning of data structures to removed cached content, and
**| session purges are recommended only when a caller experiences memory crunch.
**| Callers should only rarely perform a panic purge, in response to dire memory
**| straits, since this is likely to make db operations much more expensive
**| than they would be otherwise. A panic purge asks a database to free as much
**| memory as possible while staying effective and operational, because a caller
**| thinks application failure might otherwise occur. (Apps might better close
**| an open db, so panic purges only make sense when a db is urgently needed.)
|*/
class nsIMdbPort : public nsISupports {
public:
// { ===== begin nsIMdbPort methods =====
// { ----- begin attribute methods -----
NS_IMETHOD GetIsPortReadonly(nsIMdbEnv* ev, mdb_bool* outBool) = 0;
NS_IMETHOD GetIsStore(nsIMdbEnv* ev, mdb_bool* outBool) = 0;
NS_IMETHOD GetIsStoreAndDirty(nsIMdbEnv* ev, mdb_bool* outBool) = 0;
NS_IMETHOD GetUsagePolicy(nsIMdbEnv* ev,
mdbUsagePolicy* ioUsagePolicy) = 0;
NS_IMETHOD SetUsagePolicy(nsIMdbEnv* ev,
const mdbUsagePolicy* inUsagePolicy) = 0;
// } ----- end attribute methods -----
// { ----- begin memory policy methods -----
NS_IMETHOD IdleMemoryPurge( // do memory management already scheduled
nsIMdbEnv* ev, // context
mdb_size* outEstimatedBytesFreed) = 0; // approximate bytes actually freed
NS_IMETHOD SessionMemoryPurge( // request specific footprint decrease
nsIMdbEnv* ev, // context
mdb_size inDesiredBytesFreed, // approximate number of bytes wanted
mdb_size* outEstimatedBytesFreed) = 0; // approximate bytes actually freed
NS_IMETHOD PanicMemoryPurge( // desperately free all possible memory
nsIMdbEnv* ev, // context
mdb_size* outEstimatedBytesFreed) = 0; // approximate bytes actually freed
// } ----- end memory policy methods -----
// { ----- begin filepath methods -----
NS_IMETHOD GetPortFilePath(
nsIMdbEnv* ev, // context
mdbYarn* outFilePath, // name of file holding port content
mdbYarn* outFormatVersion) = 0; // file format description
NS_IMETHOD GetPortFile(
nsIMdbEnv* ev, // context
nsIMdbFile** acqFile) = 0; // acquire file used by port or store
// } ----- end filepath methods -----
// { ----- begin export methods -----
NS_IMETHOD BestExportFormat( // determine preferred export format
nsIMdbEnv* ev, // context
mdbYarn* outFormatVersion) = 0; // file format description
// some tentative suggested import/export formats
// "ns:msg:db:port:format:ldif:ns4.0:passthrough" // necessary
// "ns:msg:db:port:format:ldif:ns4.5:utf8" // necessary
// "ns:msg:db:port:format:ldif:ns4.5:tabbed"
// "ns:msg:db:port:format:ldif:ns4.5:binary" // necessary
// "ns:msg:db:port:format:html:ns3.0:addressbook" // necessary
// "ns:msg:db:port:format:html:display:verbose"
// "ns:msg:db:port:format:html:display:concise"
// "ns:msg:db:port:format:mork:zany:verbose" // necessary
// "ns:msg:db:port:format:mork:zany:atomized" // necessary
// "ns:msg:db:port:format:rdf:xml"
// "ns:msg:db:port:format:xml:mork"
// "ns:msg:db:port:format:xml:display:verbose"
// "ns:msg:db:port:format:xml:display:concise"
// "ns:msg:db:port:format:xml:print:verbose" // recommended
// "ns:msg:db:port:format:xml:print:concise"
NS_IMETHOD
CanExportToFormat( // can export content in given specific format?
nsIMdbEnv* ev, // context
const char* inFormatVersion, // file format description
mdb_bool* outCanExport) = 0; // whether ExportSource() might succeed
NS_IMETHOD ExportToFormat( // export content in given specific format
nsIMdbEnv* ev, // context
// const char* inFilePath, // the file to receive exported content
nsIMdbFile* ioFile, // destination abstract file interface
const char* inFormatVersion, // file format description
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental export
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the export will be finished.
// } ----- end export methods -----
// { ----- begin token methods -----
NS_IMETHOD TokenToString( // return a string name for an integer token
nsIMdbEnv* ev, // context
mdb_token inToken, // token for inTokenName inside this port
mdbYarn* outTokenName) = 0; // the type of table to access
NS_IMETHOD StringToToken( // return an integer token for scope name
nsIMdbEnv* ev, // context
const char* inTokenName, // Latin1 string to tokenize if possible
mdb_token* outToken) = 0; // token for inTokenName inside this port
// String token zero is never used and never supported. If the port
// is a mutable store, then StringToToken() to create a new
// association of inTokenName with a new integer token if possible.
// But a readonly port will return zero for an unknown scope name.
NS_IMETHOD QueryToken( // like StringToToken(), but without adding
nsIMdbEnv* ev, // context
const char* inTokenName, // Latin1 string to tokenize if possible
mdb_token* outToken) = 0; // token for inTokenName inside this port
// QueryToken() will return a string token if one already exists,
// but unlike StringToToken(), will not assign a new token if not
// already in use.
// } ----- end token methods -----
// { ----- begin row methods -----
NS_IMETHOD HasRow( // contains a row with the specified oid?
nsIMdbEnv* ev, // context
const mdbOid* inOid, // hypothetical row oid
mdb_bool* outHasRow) = 0; // whether GetRow() might succeed
NS_IMETHOD GetRowRefCount( // get number of tables that contain a row
nsIMdbEnv* ev, // context
const mdbOid* inOid, // hypothetical row oid
mdb_count* outRefCount) = 0; // number of tables containing inRowKey
NS_IMETHOD GetRow( // access one row with specific oid
nsIMdbEnv* ev, // context
const mdbOid* inOid, // hypothetical row oid
nsIMdbRow** acqRow) = 0; // acquire specific row (or null)
// NS_IMETHOD
// GetPortRowCursor( // get cursor for all rows in specific scope
// nsIMdbEnv* ev, // context
// mdb_scope inRowScope, // row scope for row ids
// nsIMdbPortRowCursor** acqCursor) = 0; // all such rows in the port
NS_IMETHOD FindRow(nsIMdbEnv* ev, // search for row with matching cell
mdb_scope inRowScope, // row scope for row ids
mdb_column inColumn, // the column to search (and maintain an index)
const mdbYarn* inTargetCellValue, // cell value for which to search
mdbOid* outRowOid, // out row oid on match (or {0,-1} for no match)
nsIMdbRow** acqRow) = 0; // acquire matching row (or nil for no match)
// can be null if you only want the oid
// FindRow() searches for one row that has a cell in column inColumn with
// a contained value with the same form (i.e. charset) and is byte-wise
// identical to the blob described by yarn inTargetCellValue. Both content
// and form of the yarn must be an exact match to find a matching row.
//
// (In other words, both a yarn's blob bytes and form are significant. The
// form is not expected to vary in columns used for identity anyway. This
// is intended to make the cost of FindRow() cheaper for MDB implementors,
// since any cell value atomization performed internally must necessarily
// make yarn form significant in order to avoid data loss in atomization.)
//
// FindRow() can lazily create an index on attribute inColumn for all rows
// with that attribute in row space scope inRowScope, so that subsequent
// calls to FindRow() will perform faster. Such an index might or might
// not be persistent (but this seems desirable if it is cheap to do so).
// Note that lazy index creation in readonly DBs is not very feasible.
//
// This FindRow() interface assumes that attribute inColumn is effectively
// an alternative means of unique identification for a row in a rowspace,
// so correct behavior is only guaranteed when no duplicates for this col
// appear in the given set of rows. (If more than one row has the same cell
// value in this column, no more than one will be found; and cutting one of
// two duplicate rows can cause the index to assume no other such row lives
// in the row space, so future calls return nil for negative search results
// even though some duplicate row might still live within the rowspace.)
//
// In other words, the FindRow() implementation is allowed to assume simple
// hash tables mapping unqiue column keys to associated row values will be
// sufficient, where any duplication is not recorded because only one copy
// of a given key need be remembered. Implementors are not required to sort
// all rows by the specified column.
// } ----- end row methods -----
// { ----- begin table methods -----
NS_IMETHOD HasTable( // supports a table with the specified oid?
nsIMdbEnv* ev, // context
const mdbOid* inOid, // hypothetical table oid
mdb_bool* outHasTable) = 0; // whether GetTable() might succeed
NS_IMETHOD GetTable( // access one table with specific oid
nsIMdbEnv* ev, // context
const mdbOid* inOid, // hypothetical table oid
nsIMdbTable** acqTable) = 0; // acquire specific table (or null)
NS_IMETHOD HasTableKind( // supports a table of the specified type?
nsIMdbEnv* ev, // context
mdb_scope inRowScope, // rid scope for row ids
mdb_kind inTableKind, // the type of table to access
mdb_count* outTableCount, // current number of such tables
mdb_bool* outSupportsTable) = 0; // whether GetTableKind() might succeed
// row scopes to be supported include the following suggestions:
// "ns:msg:db:row:scope:address:cards:all"
// "ns:msg:db:row:scope:mail:messages:all"
// "ns:msg:db:row:scope:news:articles:all"
// table kinds to be supported include the following suggestions:
// "ns:msg:db:table:kind:address:cards:main"
// "ns:msg:db:table:kind:address:lists:all"
// "ns:msg:db:table:kind:address:list"
// "ns:msg:db:table:kind:news:threads:all"
// "ns:msg:db:table:kind:news:thread"
// "ns:msg:db:table:kind:mail:threads:all"
// "ns:msg:db:table:kind:mail:thread"
NS_IMETHOD GetTableKind( // access one (random) table of specific type
nsIMdbEnv* ev, // context
mdb_scope inRowScope, // row scope for row ids
mdb_kind inTableKind, // the type of table to access
mdb_count* outTableCount, // current number of such tables
mdb_bool* outMustBeUnique, // whether port can hold only one of these
nsIMdbTable** acqTable) = 0; // acquire scoped collection of rows
NS_IMETHOD
GetPortTableCursor( // get cursor for all tables of specific type
nsIMdbEnv* ev, // context
mdb_scope inRowScope, // row scope for row ids
mdb_kind inTableKind, // the type of table to access
nsIMdbPortTableCursor** acqCursor) = 0; // all such tables in the port
// } ----- end table methods -----
// { ----- begin commit methods -----
NS_IMETHOD ShouldCompress( // store wastes at least inPercentWaste?
nsIMdbEnv* ev, // context
mdb_percent inPercentWaste, // 0..100 percent file size waste threshold
mdb_percent* outActualWaste, // 0..100 percent of file actually wasted
mdb_bool* outShould) = 0; // true when about inPercentWaste% is wasted
// ShouldCompress() returns true if the store can determine that the file
// will shrink by an estimated percentage of inPercentWaste% (or more) if
// CompressCommit() is called, because that percentage of the file seems
// to be recoverable free space. The granularity is only in terms of
// percentage points, and any value over 100 is considered equal to 100.
//
// If a store only has an approximate idea how much space might be saved
// during a compress, then a best guess should be made. For example, the
// Mork implementation might keep track of how much file space began with
// text content before the first updating transaction, and then consider
// all content following the start of the first transaction as potentially
// wasted space if it is all updates and not just new content. (This is
// a safe assumption in the sense that behavior will stabilize on a low
// estimate of wastage after a commit removes all transaction updates.)
//
// Some db formats might attempt to keep a very accurate reckoning of free
// space size, so a very accurate determination can be made. But other db
// formats might have difficulty determining size of free space, and might
// require some lengthy calculation to answer. This is the reason for
// passing in the percentage threshold of interest, so that such lengthy
// computations can terminate early as soon as at least inPercentWaste is
// found, so that the entire file need not be groveled when unnecessary.
// However, we hope implementations will always favor fast but imprecise
// heuristic answers instead of extremely slow but very precise answers.
//
// If the outActualWaste parameter is non-nil, it will be used to return
// the actual estimated space wasted as a percentage of file size. (This
// parameter is provided so callers need not call repeatedly with altered
// inPercentWaste values to isolate the actual wastage figure.) Note the
// actual wastage figure returned can exactly equal inPercentWaste even
// when this grossly underestimates the real figure involved, if the db
// finds it very expensive to determine the extent of wastage after it is
// known to at least exceed inPercentWaste. Note we expect that whenever
// outShould returns true, that outActualWaste returns >= inPercentWaste.
//
// The effect of different inPercentWaste values is not very uniform over
// the permitted range. For example, 50 represents 50% wastage, or a file
// that is about double what it should be ideally. But 99 represents 99%
// wastage, or a file that is about ninety-nine times as big as it should
// be ideally. In the smaller direction, 25 represents 25% wastage, or
// a file that is only 33% larger than it should be ideally.
//
// Callers can determine what policy they want to use for considering when
// a file holds too much wasted space, and express this as a percentage
// of total file size to pass as in the inPercentWaste parameter. A zero
// likely returns always trivially true, and 100 always trivially false.
// The great majority of callers are expected to use values from 25 to 75,
// since most plausible thresholds for compressing might fall between the
// extremes of 133% of ideal size and 400% of ideal size. (Presumably the
// larger a file gets, the more important the percentage waste involved, so
// a sliding scale for compress thresholds might use smaller numbers for
// much bigger file sizes.)
// } ----- end commit methods -----
// } ===== end nsIMdbPort methods =====
};
/*| nsIMdbStore: a mutable interface to a specific database file.
**|
**|| tables: one can force a new table to exist in a store with NewTable()
**| and nonzero values for both row scope and table kind. (If one wishes only
**| one table of a certain kind, then one might look for it first using the
**| GetTableKind() method). One can pass inMustBeUnique to force future
**| users of this store to be unable to create other tables with the same pair
**| of scope and kind attributes. When inMustBeUnique is true, and the table
**| with the given scope and kind pair already exists, then the existing one
**| is returned instead of making a new table. Similarly, if one passes false
**| for inMustBeUnique, but the table kind has already been marked unique by a
**| previous user of the store, then the existing unique table is returned.
**|
**|| import: all or some of another port's content can be imported by calling
**| AddPortContent() with a row scope identifying the extent of content to
**| be imported. A zero row scope will import everything. A nonzero row
**| scope will only import tables with a matching row scope. Note that one
**| must somehow find a way to negotiate possible conflicts between existing
**| row content and imported row content, and this involves a specific kind of
**| definition for row identity involving either row IDs or unique attributes,
**| or some combination of these two. At the moment I am just going to wave
**| my hands, and say the default behavior is to assign all new row identities
**| to all imported content, which will result in no merging of content; this
**| must change later because it is unacceptable in some contexts.
**|
**|| commits: to manage modifications in a mutable store, very few methods are
**| really needed to indicate global policy choices that are independent of
**| the actual modifications that happen in objects at the level of tables,
**| rows, and cells, etc. The most important policy to specify is which sets
**| of changes are considered associated in a manner such that they should be
**| applied together atomically to a given store. We call each such group of
**| changes a transaction. We handle three different grades of transaction,
**| but they differ only in semantic significance to the application, and are
**| not intended to nest. (If small transactions were nested inside large
**| transactions, that would imply that a single large transaction must be
**| atomic over all the contained small transactions; but actually we intend
**| smalls transaction never be undone once commited due to, say, aborting a
**| transaction of greater significance.) The small, large, and session level
**| commits have equal granularity, and differ only in risk of loss from the
**| perspective of an application. Small commits characterize changes that
**| can be lost with relatively small risk, so small transactions can delay
**| until later if they are expensive or impractical to commit. Large commits
**| involve changes that would probably inconvenience users if lost, so the
**| need to pay costs of writing is rather greater than with small commits.
**| Session commits are last ditch attempts to save outstanding changes before
**| stopping the use of a particular database, so there will be no later point
**| in time to save changes that have been delayed due to possible high cost.
**| If large commits are never delayed, then a session commit has about the
**| same performance effect as another large commit; but if small and large
**| commits are always delayed, then a session commit is likely to be rather
**| expensive as a runtime cost compared to any earlier database usage.
**|
**|| aborts: the only way to abort changes to a store is by closing the store.
**| So there is no specific method for causing any abort. Stores must discard
**| all changes made that are uncommited when a store is closed. This design
**| choice makes the implementations of tables, rows, and cells much less
**| complex because they need not maintain a record of undobable changes. When
**| a store is closed, presumably this precipitates the closure of all tables,
**| rows, and cells in the store as well. So an application can revert the
**| state of a store in the user interface by quietly closing and reopening a
**| store, because this will discard uncommited changes and show old content.
**| This implies an app that closes a store will need to send a "scramble"
**| event notification to any views that depend on old discarded content.
|*/
#define NS_IMDBSTORE_IID_STR "74d6218d-44b0-43b5-9ebe-69a17dfb562c"
#define NS_IMDBSTORE_IID \
{0x74d6218d, 0x44b0, 0x43b5, \
{0x9e, 0xbe, 0x69, 0xa1, 0x7d, 0xfb, 0x56, 0x2c}}
class nsIMdbStore : public nsIMdbPort {
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBSTORE_IID)
// { ===== begin nsIMdbStore methods =====
// { ----- begin table methods -----
NS_IMETHOD NewTable( // make one new table of specific type
nsIMdbEnv* ev, // context
mdb_scope inRowScope, // row scope for row ids
mdb_kind inTableKind, // the type of table to access
mdb_bool inMustBeUnique, // whether store can hold only one of these
const mdbOid* inOptionalMetaRowOid, // can be nil to avoid specifying
nsIMdbTable** acqTable) = 0; // acquire scoped collection of rows
NS_IMETHOD NewTableWithOid( // make one new table of specific type
nsIMdbEnv* ev, // context
const mdbOid* inOid, // caller assigned oid
mdb_kind inTableKind, // the type of table to access
mdb_bool inMustBeUnique, // whether store can hold only one of these
const mdbOid* inOptionalMetaRowOid, // can be nil to avoid specifying
nsIMdbTable** acqTable) = 0; // acquire scoped collection of rows
// } ----- end table methods -----
// { ----- begin row scope methods -----
NS_IMETHOD RowScopeHasAssignedIds(nsIMdbEnv* ev,
mdb_scope inRowScope, // row scope for row ids
mdb_bool* outCallerAssigned, // nonzero if caller assigned specified
mdb_bool* outStoreAssigned) = 0; // nonzero if store db assigned specified
NS_IMETHOD SetCallerAssignedIds(nsIMdbEnv* ev,
mdb_scope inRowScope, // row scope for row ids
mdb_bool* outCallerAssigned, // nonzero if caller assigned specified
mdb_bool* outStoreAssigned) = 0; // nonzero if store db assigned specified
NS_IMETHOD SetStoreAssignedIds(nsIMdbEnv* ev,
mdb_scope inRowScope, // row scope for row ids
mdb_bool* outCallerAssigned, // nonzero if caller assigned specified
mdb_bool* outStoreAssigned) = 0; // nonzero if store db assigned specified
// } ----- end row scope methods -----
// { ----- begin row methods -----
NS_IMETHOD NewRowWithOid(nsIMdbEnv* ev, // new row w/ caller assigned oid
const mdbOid* inOid, // caller assigned oid
nsIMdbRow** acqRow) = 0; // create new row
NS_IMETHOD NewRow(nsIMdbEnv* ev, // new row with db assigned oid
mdb_scope inRowScope, // row scope for row ids
nsIMdbRow** acqRow) = 0; // create new row
// Note this row must be added to some table or cell child before the
// store is closed in order to make this row persist across sesssions.
// } ----- end row methods -----
// { ----- begin inport/export methods -----
NS_IMETHOD ImportContent( // import content from port
nsIMdbEnv* ev, // context
mdb_scope inRowScope, // scope for rows (or zero for all?)
nsIMdbPort* ioPort, // the port with content to add to store
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental import
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the import will be finished.
NS_IMETHOD ImportFile( // import content from port
nsIMdbEnv* ev, // context
nsIMdbFile* ioFile, // the file with content to add to store
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental import
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the import will be finished.
// } ----- end inport/export methods -----
// { ----- begin hinting methods -----
NS_IMETHOD
ShareAtomColumnsHint( // advise re shared column content atomizing
nsIMdbEnv* ev, // context
mdb_scope inScopeHint, // zero, or suggested shared namespace
const mdbColumnSet* inColumnSet) = 0; // cols desired tokenized together
NS_IMETHOD
AvoidAtomColumnsHint( // advise column with poor atomizing prospects
nsIMdbEnv* ev, // context
const mdbColumnSet* inColumnSet) = 0; // cols with poor atomizing prospects
// } ----- end hinting methods -----
// { ----- begin commit methods -----
NS_IMETHOD LargeCommit( // save important changes if at all possible
nsIMdbEnv* ev, // context
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental commit
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the commit will be finished. Note the store is effectively write
// locked until commit is finished or canceled through the thumb instance.
// Until the commit is done, the store will report it has readonly status.
NS_IMETHOD SessionCommit( // save all changes if large commits delayed
nsIMdbEnv* ev, // context
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental commit
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the commit will be finished. Note the store is effectively write
// locked until commit is finished or canceled through the thumb instance.
// Until the commit is done, the store will report it has readonly status.
NS_IMETHOD
CompressCommit( // commit and make db physically smaller if possible
nsIMdbEnv* ev, // context
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental commit
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the commit will be finished. Note the store is effectively write
// locked until commit is finished or canceled through the thumb instance.
// Until the commit is done, the store will report it has readonly status.
// } ----- end commit methods -----
// } ===== end nsIMdbStore methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbStore, NS_IMDBSTORE_IID)
/*| nsIMdbCursor: base cursor class for iterating row cells and table rows
**|
**|| count: the number of elements in the collection (table or row)
**|
**|| seed: the change count in the underlying collection, which is synced
**| with the collection when the iteration position is set, and henceforth
**| acts to show whether the iter has lost collection synchronization, in
**| case it matters to clients whether any change happens during iteration.
**|
**|| pos: the position of the current element in the collection. Negative
**| means a position logically before the first element. A positive value
**| equal to count (or larger) implies a position after the last element.
**| To iterate over all elements, set the position to negative, so subsequent
**| calls to any 'next' method will access the first collection element.
**|
**|| doFailOnSeedOutOfSync: whether a cursor should return an error if the
**| cursor's snapshot of a table's seed becomes stale with respect the table's
**| current seed value (which implies the iteration is less than total) in
**| between to cursor calls that actually access collection content. By
**| default, a cursor should assume this attribute is false until specified,
**| so that iterations quietly try to re-sync when they lose coherence.
|*/
#define NS_IMDBCURSOR_IID_STR "a0c37337-6ebc-474c-90db-e65ea0b850aa"
#define NS_IMDBCURSOR_IID \
{0xa0c37337, 0x6ebc, 0x474c, \
{0x90, 0xdb, 0xe6, 0x5e, 0xa0, 0xb8, 0x50, 0xaa}}
class nsIMdbCursor : public nsISupports { // collection iterator
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBCURSOR_IID)
// { ===== begin nsIMdbCursor methods =====
// { ----- begin attribute methods -----
NS_IMETHOD GetCount(nsIMdbEnv* ev, mdb_count* outCount) = 0; // readonly
NS_IMETHOD GetSeed(nsIMdbEnv* ev, mdb_seed* outSeed) = 0; // readonly
NS_IMETHOD SetPos(nsIMdbEnv* ev, mdb_pos inPos) = 0; // mutable
NS_IMETHOD GetPos(nsIMdbEnv* ev, mdb_pos* outPos) = 0;
NS_IMETHOD SetDoFailOnSeedOutOfSync(nsIMdbEnv* ev, mdb_bool inFail) = 0;
NS_IMETHOD GetDoFailOnSeedOutOfSync(nsIMdbEnv* ev, mdb_bool* outFail) = 0;
// } ----- end attribute methods -----
// } ===== end nsIMdbCursor methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbCursor, NS_IMDBCURSOR_IID)
#define NS_IMDBPORTTABLECURSOR_IID_STR = "f181a41e-933d-49b3-af93-20d3634b8b78"
#define NS_IMDBPORTTABLECURSOR_IID \
{0xf181a41e, 0x933d, 0x49b3, \
{0xaf, 0x93, 0x20, 0xd3, 0x63, 0x4b, 0x8b, 0x78}}
/*| nsIMdbPortTableCursor: cursor class for iterating port tables
**|
**|| port: the cursor is associated with a specific port, which can be
**| set to a different port (which resets the position to -1 so the
**| next table acquired is the first in the port.
**|
|*/
class nsIMdbPortTableCursor : public nsISupports { // table collection iterator
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBPORTTABLECURSOR_IID)
// { ===== begin nsIMdbPortTableCursor methods =====
// { ----- begin attribute methods -----
NS_IMETHOD SetPort(nsIMdbEnv* ev, nsIMdbPort* ioPort) = 0; // sets pos to -1
NS_IMETHOD GetPort(nsIMdbEnv* ev, nsIMdbPort** acqPort) = 0;
NS_IMETHOD SetRowScope(nsIMdbEnv* ev, // sets pos to -1
mdb_scope inRowScope) = 0;
NS_IMETHOD GetRowScope(nsIMdbEnv* ev, mdb_scope* outRowScope) = 0;
// setting row scope to zero iterates over all row scopes in port
NS_IMETHOD SetTableKind(nsIMdbEnv* ev, // sets pos to -1
mdb_kind inTableKind) = 0;
NS_IMETHOD GetTableKind(nsIMdbEnv* ev, mdb_kind* outTableKind) = 0;
// setting table kind to zero iterates over all table kinds in row scope
// } ----- end attribute methods -----
// { ----- begin table iteration methods -----
NS_IMETHOD NextTable( // get table at next position in the db
nsIMdbEnv* ev, // context
nsIMdbTable** acqTable) = 0; // the next table in the iteration
// } ----- end table iteration methods -----
// } ===== end nsIMdbPortTableCursor methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbPortTableCursor,
NS_IMDBPORTTABLECURSOR_IID)
/*| nsIMdbCollection: an object that collects a set of other objects as members.
**| The main purpose of this base class is to unify the perceived semantics
**| of tables and rows where their collection behavior is similar. This helps
**| isolate the mechanics of collection behavior from the other semantics that
**| are more characteristic of rows and tables.
**|
**|| count: the number of objects in a collection is the member count. (Some
**| collection interfaces call this attribute the 'size', but that can be a
**| little ambiguous, and counting actual members is harder to confuse.)
**|
**|| seed: the seed of a collection is a counter for changes in membership in
**| a specific collection. This seed should change when members are added to
**| or removed from a collection, but not when a member changes internal state.
**| The seed should also change whenever the internal collection of members has
**| a complex state change that reorders member positions (say by sorting) that
**| would affect the nature of an iteration over that collection of members.
**| The purpose of a seed is to inform any outstanding collection cursors that
**| they might be stale, without incurring the cost of broadcasting an event
**| notification to such cursors, which would need more data structure support.
**| Presumably a cursor in a particular mdb code suite has much more direct
**| access to a collection seed member slot that this abstract COM interface,
**| so this information is intended more for clients outside mdb that want to
**| make inferences similar to those made by the collection cursors. The seed
**| value as an integer magnitude is not very important, and callers should not
**| assume meaningful information can be derived from an integer value beyond
**| whether it is equal or different from a previous inspection. A seed uses
**| integers of many bits in order to make the odds of wrapping and becoming
**| equal to an earlier seed value have probability that is vanishingly small.
**|
**|| port: every collection is associated with a specific database instance.
**|
**|| cursor: a subclass of nsIMdbCursor suitable for this specific collection
**| subclass. The ability to GetCursor() from the base nsIMdbCollection class
**| is not really as useful as getting a more specifically typed cursor more
**| directly from the base class without any casting involved. So including
**| this method here is more for conceptual illustration.
**|
**|| oid: every collection has an identity that persists from session to
**| session. Implementations are probably able to distinguish row IDs from
**| table IDs, but we don't specify anything official in this regard. A
**| collection has the same identity for the lifetime of the collection,
**| unless identity is swapped with another collection by means of a call to
**| BecomeContent(), which is considered a way to swap a new representation
**| for an old well-known object. (Even so, only content appears to change,
**| while the identity seems to stay the same.)
**|
**|| become: developers can effectively cause two objects to swap identities,
**| in order to effect a complete swap between what persistent content is
**| represented by two oids. The caller should consider this a content swap,
**| and not identity wap, because identities will seem to stay the same while
**| only content changes. However, implementations will likely do this
**| internally by swapping identities. Callers must swap content only
**| between objects of similar type, such as a row with another row, and a
**| table with another table, because implementations need not support
**| cross-object swapping because it might break object name spaces.
**|
**|| dropping: when a caller expects a row or table will no longer be used, the
**| caller can tell the collection to 'drop activity', which means the runtime
**| object can have its internal representation purged to save memory or any
**| other resource that is being consumed by the collection's representation.
**| This has no effect on the collection's persistent content or semantics,
**| and is only considered a runtime effect. After a collection drops
**| activity, the object should still be as usable as before (because it has
**| NOT been closed), but further usage can be expensive to re-instate because
**| it might involve reallocating space and/or re-reading disk space. But
**| since this future usage is not expected, the caller does not expect to
**| pay the extra expense. An implementation can choose to implement
**| 'dropping activity' in different ways, or even not at all if this
**| operation is not really feasible. Callers cannot ask objects whether they
**| are 'dropped' or not, so this should be transparent. (Note that
**| implementors might fear callers do not really know whether future
**| usage will occur, and therefore might delay the act of dropping until
**| the near future, until seeing whether the object is used again
**| immediately elsewhere. Such use soon after the drop request might cause
**| the drop to be cancelled.)
|*/
class nsIMdbCollection : public nsISupports { // sequence of objects
public:
// { ===== begin nsIMdbCollection methods =====
// { ----- begin attribute methods -----
NS_IMETHOD GetSeed(nsIMdbEnv* ev,
mdb_seed* outSeed) = 0; // member change count
NS_IMETHOD GetCount(nsIMdbEnv* ev,
mdb_count* outCount) = 0; // member count
NS_IMETHOD GetPort(nsIMdbEnv* ev,
nsIMdbPort** acqPort) = 0; // collection container
// } ----- end attribute methods -----
// { ----- begin cursor methods -----
NS_IMETHOD GetCursor( // make a cursor starting iter at inMemberPos
nsIMdbEnv* ev, // context
mdb_pos inMemberPos, // zero-based ordinal pos of member in collection
nsIMdbCursor** acqCursor) = 0; // acquire new cursor instance
// } ----- end cursor methods -----
// { ----- begin ID methods -----
NS_IMETHOD GetOid(nsIMdbEnv* ev,
mdbOid* outOid) = 0; // read object identity
NS_IMETHOD BecomeContent(nsIMdbEnv* ev,
const mdbOid* inOid) = 0; // exchange content
// } ----- end ID methods -----
// { ----- begin activity dropping methods -----
NS_IMETHOD DropActivity( // tell collection usage no longer expected
nsIMdbEnv* ev) = 0;
// } ----- end activity dropping methods -----
// } ===== end nsIMdbCollection methods =====
};
/*| nsIMdbTable: an ordered collection of rows
**|
**|| row scope: an integer token for an atomized string in this database
**| that names a space for row IDs. This attribute of a table is intended
**| as guidance metainformation that helps with searching a database for
**| tables that operate on collections of rows of the specific type. By
**| convention, a table with a specific row scope is expected to focus on
**| containing rows that belong to that scope, however exceptions are easily
**| allowed because all rows in a table are known by both row ID and scope.
**| (A table with zero row scope is never allowed because this would make it
**| ambiguous to use a zero row scope when iterating over tables in a port to
**| indicate that all row scopes should be seen by a cursor.)
**|
**|| table kind: an integer token for an atomized string in this database
**| that names a kind of table as a subset of the associated row scope. This
**| attribute is intended as guidance metainformation to clarify the role of
**| this table with respect to other tables in the same row scope, and this
**| also helps search for such tables in a database. By convention, a table
**| with a specific table kind has a consistent role for containing rows with
**| respect to other collections of such rows in the same row scope. Also by
**| convention, at least one table in a row scope has a table kind purporting
**| to contain ALL the rows that belong in that row scope, so that at least
**| one table exists that allows all rows in a scope to be interated over.
**| (A table with zero table kind is never allowed because this would make it
**| ambiguous to use a zero table kind when iterating over tables in a port to
**| indicate that all table kinds in a row scope should be seen by a cursor.)
**|
**|| port: every table is considered part of some port that contains the
**| table, so that closing the containing port will cause the table to be
**| indirectly closed as well. We make it easy to get the containing port for
**| a table, because the port supports important semantic interfaces that will
**| affect how content in table is presented; the most important port context
**| that affects a table is specified by the set of token to string mappings
**| that affect all tokens used throughout the database, and which drive the
**| meanings of row scope, table kind, cell columns, etc.
**|
**|| cursor: a cursor that iterates over the rows in this table, where rows
**| have zero-based index positions from zero to count-1. Making a cursor
**| with negative position will next iterate over the first row in the table.
**|
**|| position: given any position from zero to count-1, a table will return
**| the row ID and row scope for the row at that position. (One can use the
**| GetRowAllCells() method to read that row, or else use a row cursor to both
**| get the row at some position and read its content at the same time.) The
**| position depends on whether a table is sorted, and upon the actual sort.
**| Note that moving a row's position is only possible in unsorted tables.
**|
**|| row set: every table contains a collection of rows, where a member row is
**| referenced by the table using the row ID and row scope for the row. No
**| single table owns a given row instance, because rows are effectively ref-
**| counted and destroyed only when the last table removes a reference to that
**| particular row. (But a row can be emptied of all content no matter how
**| many refs exist, and this might be the next best thing to destruction.)
**| Once a row exists in a least one table (after NewRow() is called), then it
**| can be added to any other table by calling AddRow(), or removed from any
**| table by calling CutRow(), or queried as a member by calling HasRow(). A
**| row can only be added to a table once, and further additions do nothing and
**| complain not at all. Cutting a row from a table only does something when
**| the row was actually a member, and otherwise does nothing silently.
**|
**|| row ref count: one can query the number of tables (and/or cells)
**| containing a row as a member or a child.
**|
**|| row content: one can access or modify the cell content in a table's row
**| by moving content to or from an instance of nsIMdbRow. Note that nsIMdbRow
**| never represents the actual row inside a table, and this is the reason
**| why nsIMdbRow instances do not have row IDs or row scopes. So an instance
**| of nsIMdbRow always and only contains a snapshot of some or all content in
**| past, present, or future persistent row inside a table. This means that
**| reading and writing rows in tables has strictly copy semantics, and we
**| currently do not plan any exceptions for specific performance reasons.
**|
**|| sorting: note all rows are assumed sorted by row ID as a secondary
**| sort following the primary column sort, when table rows are sorted.
**|
**|| indexes:
|*/
#define NS_IMDBTABLE_IID_STR = "fe11bc98-d02b-4128-9fac-87042fdf9639"
#define NS_IMDBTABLE_IID \
{0xfe11bc98, 0xd02b, 0x4128, \
{0x9f, 0xac, 0x87, 0x04, 0x2f, 0xdf, 0x96, 0x39}}
class nsIMdbTable : public nsIMdbCollection { // a collection of rows
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBTABLE_IID)
// { ===== begin nsIMdbTable methods =====
// { ----- begin meta attribute methods -----
NS_IMETHOD SetTablePriority(nsIMdbEnv* ev, mdb_priority inPrio) = 0;
NS_IMETHOD GetTablePriority(nsIMdbEnv* ev, mdb_priority* outPrio) = 0;
NS_IMETHOD GetTableBeVerbose(nsIMdbEnv* ev, mdb_bool* outBeVerbose) = 0;
NS_IMETHOD SetTableBeVerbose(nsIMdbEnv* ev, mdb_bool inBeVerbose) = 0;
NS_IMETHOD GetTableIsUnique(nsIMdbEnv* ev, mdb_bool* outIsUnique) = 0;
NS_IMETHOD GetTableKind(nsIMdbEnv* ev, mdb_kind* outTableKind) = 0;
NS_IMETHOD GetRowScope(nsIMdbEnv* ev, mdb_scope* outRowScope) = 0;
NS_IMETHOD GetMetaRow(
nsIMdbEnv* ev, // context
const mdbOid* inOptionalMetaRowOid, // can be nil to avoid specifying
mdbOid* outOid, // output meta row oid, can be nil to suppress output
nsIMdbRow** acqRow) = 0; // acquire table's unique singleton meta row
// The purpose of a meta row is to support the persistent recording of
// meta info about a table as cells put into the distinguished meta row.
// Each table has exactly one meta row, which is not considered a member
// of the collection of rows inside the table. The only way to tell
// whether a row is a meta row is by the fact that it is returned by this
// GetMetaRow() method from some table. Otherwise nothing distinguishes
// a meta row from any other row. A meta row can be used anyplace that
// any other row can be used, and can even be put into other tables (or
// the same table) as a table member, if this is useful for some reason.
// The first attempt to access a table's meta row using GetMetaRow() will
// cause the meta row to be created if it did not already exist. When the
// meta row is created, it will have the row oid that was previously
// requested for this table's meta row; or if no oid was ever explicitly
// specified for this meta row, then a unique oid will be generated in
// the row scope named "m" (so obviously MDB clients should not
// manually allocate any row IDs from that special meta scope namespace).
// The meta row oid can be specified either when the table is created, or
// else the first time that GetMetaRow() is called, by passing a non-nil
// pointer to an oid for parameter inOptionalMetaRowOid. The meta row's
// actual oid is returned in outOid (if this is a non-nil pointer), and
// it will be different from inOptionalMetaRowOid when the meta row was
// already given a different oid earlier.
// } ----- end meta attribute methods -----
// { ----- begin cursor methods -----
NS_IMETHOD GetTableRowCursor( // make a cursor, starting iteration at inRowPos
nsIMdbEnv* ev, // context
mdb_pos inRowPos, // zero-based ordinal position of row in table
nsIMdbTableRowCursor** acqCursor) = 0; // acquire new cursor instance
// } ----- end row position methods -----
// { ----- begin row position methods -----
NS_IMETHOD PosToOid( // get row member for a table position
nsIMdbEnv* ev, // context
mdb_pos inRowPos, // zero-based ordinal position of row in table
mdbOid* outOid) = 0; // row oid at the specified position
NS_IMETHOD OidToPos( // test for the table position of a row member
nsIMdbEnv* ev, // context
const mdbOid* inOid, // row to find in table
mdb_pos* outPos) = 0; // zero-based ordinal position of row in table
NS_IMETHOD PosToRow( // test for the table position of a row member
nsIMdbEnv* ev, // context
mdb_pos inRowPos, // zero-based ordinal position of row in table
nsIMdbRow** acqRow) = 0; // acquire row at table position inRowPos
NS_IMETHOD RowToPos( // test for the table position of a row member
nsIMdbEnv* ev, // context
nsIMdbRow* ioRow, // row to find in table
mdb_pos* outPos) = 0; // zero-based ordinal position of row in table
// } ----- end row position methods -----
// { ----- begin oid set methods -----
NS_IMETHOD AddOid( // make sure the row with inOid is a table member
nsIMdbEnv* ev, // context
const mdbOid* inOid) = 0; // row to ensure membership in table
NS_IMETHOD HasOid( // test for the table position of a row member
nsIMdbEnv* ev, // context
const mdbOid* inOid, // row to find in table
mdb_bool* outHasOid) = 0; // whether inOid is a member row
NS_IMETHOD CutOid( // make sure the row with inOid is not a member
nsIMdbEnv* ev, // context
const mdbOid* inOid) = 0; // row to remove from table
// } ----- end oid set methods -----
// { ----- begin row set methods -----
NS_IMETHOD NewRow( // create a new row instance in table
nsIMdbEnv* ev, // context
mdbOid* ioOid, // please use minus one (unbound) rowId for db-assigned IDs
nsIMdbRow** acqRow) = 0; // create new row
NS_IMETHOD AddRow( // make sure the row with inOid is a table member
nsIMdbEnv* ev, // context
nsIMdbRow* ioRow) = 0; // row to ensure membership in table
NS_IMETHOD HasRow( // test for the table position of a row member
nsIMdbEnv* ev, // context
nsIMdbRow* ioRow, // row to find in table
mdb_bool* outHasRow) = 0; // whether row is a table member
NS_IMETHOD CutRow( // make sure the row with inOid is not a member
nsIMdbEnv* ev, // context
nsIMdbRow* ioRow) = 0; // row to remove from table
NS_IMETHOD CutAllRows( // remove all rows from the table
nsIMdbEnv* ev) = 0; // context
// } ----- end row set methods -----
// { ----- begin hinting methods -----
NS_IMETHOD SearchColumnsHint( // advise re future expected search cols
nsIMdbEnv* ev, // context
const mdbColumnSet* inColumnSet) = 0; // columns likely to be searched
NS_IMETHOD SortColumnsHint( // advise re future expected sort columns
nsIMdbEnv* ev, // context
const mdbColumnSet* inColumnSet) = 0; // columns for likely sort requests
NS_IMETHOD StartBatchChangeHint( // advise before many adds and cuts
nsIMdbEnv* ev, // context
const void* inLabel) = 0; // intend unique address to match end call
// If batch starts nest by virtue of nesting calls in the stack, then
// the address of a local variable makes a good batch start label that
// can be used at batch end time, and such addresses remain unique.
NS_IMETHOD EndBatchChangeHint( // advise before many adds and cuts
nsIMdbEnv* ev, // context
const void* inLabel) = 0; // label matching start label
// Suppose a table is maintaining one or many sort orders for a table,
// so that every row added to the table must be inserted in each sort,
// and every row cut must be removed from each sort. If a db client
// intends to make many such changes before needing any information
// about the order or positions of rows inside a table, then a client
// might tell the table to start batch changes in order to disable
// sorting of rows for the interim. Presumably a table will then do
// a full sort of all rows at need when the batch changes end, or when
// a surprise request occurs for row position during batch changes.
// } ----- end hinting methods -----
// { ----- begin searching methods -----
NS_IMETHOD FindRowMatches( // search variable number of sorted cols
nsIMdbEnv* ev, // context
const mdbYarn* inPrefix, // content to find as prefix in row's column cell
nsIMdbTableRowCursor** acqCursor) = 0; // set of matching rows
NS_IMETHOD GetSearchColumns( // query columns used by FindRowMatches()
nsIMdbEnv* ev, // context
mdb_count* outCount, // context
mdbColumnSet* outColSet) = 0; // caller supplied space to put columns
// GetSearchColumns() returns the columns actually searched when the
// FindRowMatches() method is called. No more than mColumnSet_Count
// slots of mColumnSet_Columns will be written, since mColumnSet_Count
// indicates how many slots are present in the column array. The
// actual number of search column used by the table is returned in
// the outCount parameter; if this number exceeds mColumnSet_Count,
// then a caller needs a bigger array to read the entire column set.
// The minimum of mColumnSet_Count and outCount is the number slots
// in mColumnSet_Columns that were actually written by this method.
//
// Callers are expected to change this set of columns by calls to
// nsIMdbTable::SearchColumnsHint() or SetSearchSorting(), or both.
// } ----- end searching methods -----
// { ----- begin sorting methods -----
// sorting: note all rows are assumed sorted by row ID as a secondary
// sort following the primary column sort, when table rows are sorted.
NS_IMETHOD
CanSortColumn( // query which column is currently used for sorting
nsIMdbEnv* ev, // context
mdb_column inColumn, // column to query sorting potential
mdb_bool* outCanSort) = 0; // whether the column can be sorted
NS_IMETHOD GetSorting( // view same table in particular sorting
nsIMdbEnv* ev, // context
mdb_column inColumn, // requested new column for sorting table
nsIMdbSorting** acqSorting) = 0; // acquire sorting for column
NS_IMETHOD SetSearchSorting( // use this sorting in FindRowMatches()
nsIMdbEnv* ev, // context
mdb_column inColumn, // often same as nsIMdbSorting::GetSortColumn()
nsIMdbSorting* ioSorting) = 0; // requested sorting for some column
// SetSearchSorting() attempts to inform the table that ioSorting
// should be used during calls to FindRowMatches() for searching
// the column which is actually sorted by ioSorting. This method
// is most useful in conjunction with nsIMdbSorting::SetCompare(),
// because otherwise a caller would not be able to override the
// comparison ordering method used during searchs. Note that some
// database implementations might be unable to use an arbitrarily
// specified sort order, either due to schema or runtime interface
// constraints, in which case ioSorting might not actually be used.
// Presumably ioSorting is an instance that was returned from some
// earlier call to nsIMdbTable::GetSorting(). A caller can also
// use nsIMdbTable::SearchColumnsHint() to specify desired change
// in which columns are sorted and searched by FindRowMatches().
//
// A caller can pass a nil pointer for ioSorting to request that
// column inColumn no longer be used at all by FindRowMatches().
// But when ioSorting is non-nil, then inColumn should match the
// column actually sorted by ioSorting; when these do not agree,
// implementations are instructed to give precedence to the column
// specified by ioSorting (so this means callers might just pass
// zero for inColumn when ioSorting is also provided, since then
// inColumn is both redundant and ignored).
// } ----- end sorting methods -----
// { ----- begin moving methods -----
// moving a row does nothing unless a table is currently unsorted
NS_IMETHOD MoveOid( // change position of row in unsorted table
nsIMdbEnv* ev, // context
const mdbOid* inOid, // row oid to find in table
mdb_pos inHintFromPos, // suggested hint regarding start position
mdb_pos inToPos, // desired new position for row inRowId
mdb_pos* outActualPos) = 0; // actual new position of row in table
NS_IMETHOD MoveRow( // change position of row in unsorted table
nsIMdbEnv* ev, // context
nsIMdbRow* ioRow, // row oid to find in table
mdb_pos inHintFromPos, // suggested hint regarding start position
mdb_pos inToPos, // desired new position for row inRowId
mdb_pos* outActualPos) = 0; // actual new position of row in table
// } ----- end moving methods -----
// { ----- begin index methods -----
NS_IMETHOD AddIndex( // create a sorting index for column if possible
nsIMdbEnv* ev, // context
mdb_column inColumn, // the column to sort by index
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental index building
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the index addition will be finished.
NS_IMETHOD CutIndex( // stop supporting a specific column index
nsIMdbEnv* ev, // context
mdb_column inColumn, // the column with index to be removed
nsIMdbThumb** acqThumb) = 0; // acquire thumb for incremental index destroy
// Call nsIMdbThumb::DoMore() until done, or until the thumb is broken, and
// then the index removal will be finished.
NS_IMETHOD HasIndex( // query for current presence of a column index
nsIMdbEnv* ev, // context
mdb_column inColumn, // the column to investigate
mdb_bool* outHasIndex) = 0; // whether column has index for this column
NS_IMETHOD EnableIndexOnSort( // create an index for col on first sort
nsIMdbEnv* ev, // context
mdb_column inColumn) = 0; // the column to index if ever sorted
NS_IMETHOD QueryIndexOnSort( // check whether index on sort is enabled
nsIMdbEnv* ev, // context
mdb_column inColumn, // the column to investigate
mdb_bool* outIndexOnSort) = 0; // whether column has index-on-sort enabled
NS_IMETHOD DisableIndexOnSort( // prevent future index creation on sort
nsIMdbEnv* ev, // context
mdb_column inColumn) = 0; // the column to index if ever sorted
// } ----- end index methods -----
// } ===== end nsIMdbTable methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbTable, NS_IMDBTABLE_IID)
/*| nsIMdbSorting: a view of a table in some particular sort order. This
**| row order closely resembles a readonly array of rows with the same row
**| membership as the underlying table, but in a different order than the
**| table's explicit row order. But the sorting's row membership changes
**| whenever the table's membership changes (without any notification, so
**| keep this in mind when modifying the table).
**|
**|| table: every sorting is associated with a particular table. You
**| cannot change which table is used by a sorting (just ask some new
**| table for a suitable sorting instance instead).
**|
**|| compare: the ordering method used by a sorting, wrapped up in a
**| abstract plug-in interface. When this was never installed by an
**| explicit call to SetNewCompare(), a compare object is still returned,
**| and it might match the compare instance returned by the factory method
**| nsIMdbFactory::MakeCompare(), which represents a default sort order
**| (which we fervently hope is consistently ASCII byte ordering).
**|
**|| cursor: in case callers are more comfortable with a cursor style
**| of accessing row members, each sorting will happily return a cursor
**| instance with behavior very similar to a cursor returned from a call
**| to nsIMdbTable::GetTableRowCursor(), but with different row order.
**| A cursor should show exactly the same information as the pos methods.
**|
**|| pos: the PosToOid() and PosToRow() methods are just like the table
**| methods of the same name, except they show rows in the sort order of
**| the sorting, rather than that of the table. These methods are like
**| readonly array position accessor's, or like a C++ operator[].
|*/
class nsIMdbSorting : public nsIMdbObject { // sorting of some table
public:
// { ===== begin nsIMdbSorting methods =====
// { ----- begin attribute methods -----
// sorting: note all rows are assumed sorted by row ID as a secondary
// sort following the primary column sort, when table rows are sorted.
NS_IMETHOD GetTable(nsIMdbEnv* ev, nsIMdbTable** acqTable) = 0;
NS_IMETHOD GetSortColumn( // query which col is currently sorted
nsIMdbEnv* ev, // context
mdb_column* outColumn) = 0; // col the table uses for sorting (or zero)
// } ----- end attribute methods -----
// { ----- begin cursor methods -----
NS_IMETHOD GetSortingRowCursor( // make a cursor, starting at inRowPos
nsIMdbEnv* ev, // context
mdb_pos inRowPos, // zero-based ordinal position of row in table
nsIMdbTableRowCursor** acqCursor) = 0; // acquire new cursor instance
// A cursor interface turning same info as PosToOid() or PosToRow().
// } ----- end row position methods -----
// { ----- begin row position methods -----
NS_IMETHOD PosToOid( // get row member for a table position
nsIMdbEnv* ev, // context
mdb_pos inRowPos, // zero-based ordinal position of row in table
mdbOid* outOid) = 0; // row oid at the specified position
NS_IMETHOD PosToRow( // test for the table position of a row member
nsIMdbEnv* ev, // context
mdb_pos inRowPos, // zero-based ordinal position of row in table
nsIMdbRow** acqRow) = 0; // acquire row at table position inRowPos
// } ----- end row position methods -----
// } ===== end nsIMdbSorting methods =====
};
/*| nsIMdbTableRowCursor: cursor class for iterating table rows
**|
**|| table: the cursor is associated with a specific table, which can be
**| set to a different table (which resets the position to -1 so the
**| next row acquired is the first in the table.
**|
**|| NextRowId: the rows in the table can be iterated by identity alone,
**| without actually reading the cells of any row with this method.
**|
**|| NextRowCells: read the next row in the table, but only read cells
**| from the table which are already present in the row (so no new cells
**| are added to the row, even if they are present in the table). All the
**| cells will have content specified, even it is the empty string. No
**| columns will be removed, even if missing from the row (because missing
**| and empty are semantically equivalent).
**|
**|| NextRowAllCells: read the next row in the table, and access all the
**| cells for this row in the table, adding any missing columns to the row
**| as needed until all cells are represented. All the
**| cells will have content specified, even it is the empty string. No
**| columns will be removed, even if missing from the row (because missing
**| and empty are semantically equivalent).
**|
|*/
#define NS_IMDBTABLEROWCURSOR_IID_STR = "4f325dad-0385-4b62-a992-c914ab93587e"
#define NS_IMDBTABLEROWCURSOR_IID \
{0x4f325dad, 0x0385, 0x4b62, \
{0xa9, 0x92, 0xc9, 0x14, 0xab, 0x93, 0x58, 0x7e}}
class nsIMdbTableRowCursor : public nsISupports { // table row iterator
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBTABLEROWCURSOR_IID)
// { ===== begin nsIMdbTableRowCursor methods =====
// { ----- begin attribute methods -----
// NS_IMETHOD SetTable(nsIMdbEnv* ev, nsIMdbTable* ioTable) = 0; // sets pos to -1
// Method SetTable() cut and made obsolete in keeping with new sorting methods.
NS_IMETHOD GetTable(nsIMdbEnv* ev, nsIMdbTable** acqTable) = 0;
// } ----- end attribute methods -----
// { ----- begin duplicate row removal methods -----
NS_IMETHOD CanHaveDupRowMembers(nsIMdbEnv* ev, // cursor might hold dups?
mdb_bool* outCanHaveDups) = 0;
NS_IMETHOD MakeUniqueCursor( // clone cursor, removing duplicate rows
nsIMdbEnv* ev, // context
nsIMdbTableRowCursor** acqCursor) = 0; // acquire clone with no dups
// Note that MakeUniqueCursor() is never necessary for a cursor which was
// created by table method nsIMdbTable::GetTableRowCursor(), because a table
// never contains the same row as a member more than once. However, a cursor
// created by table method nsIMdbTable::FindRowMatches() might contain the
// same row more than once, because the same row can generate a hit by more
// than one column with a matching string prefix. Note this method can
// return the very same cursor instance with just an incremented refcount,
// when the original cursor could not contain any duplicate rows (calling
// CanHaveDupRowMembers() shows this case on a false return). Otherwise
// this method returns a different cursor instance. Callers should not use
// this MakeUniqueCursor() method lightly, because it tends to defeat the
// purpose of lazy programming techniques, since it can force creation of
// an explicit row collection in a new cursor's representation, in order to
// inspect the row membership and remove any duplicates; this can have big
// impact if a collection holds tens of thousands of rows or more, when
// the original cursor with dups simply referenced rows indirectly by row
// position ranges, without using an explicit row set representation.
// Callers are encouraged to use nsIMdbCursor::GetCount() to determine
// whether the row collection is very large (tens of thousands), and to
// delay calling MakeUniqueCursor() when possible, until a user interface
// element actually demands the creation of an explicit set representation.
// } ----- end duplicate row removal methods -----
// { ----- begin oid iteration methods -----
NS_IMETHOD NextRowOid( // get row id of next row in the table
nsIMdbEnv* ev, // context
mdbOid* outOid, // out row oid
mdb_pos* outRowPos) = 0; // zero-based position of the row in table
// } ----- end oid iteration methods -----
// { ----- begin row iteration methods -----
NS_IMETHOD NextRow( // get row cells from table for cells already in row
nsIMdbEnv* ev, // context
nsIMdbRow** acqRow, // acquire next row in table
mdb_pos* outRowPos) = 0; // zero-based position of the row in table
NS_IMETHOD PrevRowOid( // get row id of previous row in the table
nsIMdbEnv* ev, // context
mdbOid* outOid, // out row oid
mdb_pos* outRowPos) = 0; // zero-based position of the row in table
// } ----- end oid iteration methods -----
// { ----- begin row iteration methods -----
NS_IMETHOD PrevRow( // get row cells from table for cells already in row
nsIMdbEnv* ev, // context
nsIMdbRow** acqRow, // acquire previous row in table
mdb_pos* outRowPos) = 0; // zero-based position of the row in table
// } ----- end row iteration methods -----
// { ----- begin copy iteration methods -----
// NS_IMETHOD NextRowCopy( // put row cells into sink only when already in sink
// nsIMdbEnv* ev, // context
// nsIMdbRow* ioSinkRow, // sink for row cells read from next row
// mdbOid* outOid, // out row oid
// mdb_pos* outRowPos) = 0; // zero-based position of the row in table
//
// NS_IMETHOD NextRowCopyAll( // put all row cells into sink, adding to sink
// nsIMdbEnv* ev, // context
// nsIMdbRow* ioSinkRow, // sink for row cells read from next row
// mdbOid* outOid, // out row oid
// mdb_pos* outRowPos) = 0; // zero-based position of the row in table
// } ----- end copy iteration methods -----
// } ===== end nsIMdbTableRowCursor methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbTableRowCursor, NS_IMDBTABLEROWCURSOR_IID)
/*| nsIMdbRow: a collection of cells
**|
|*/
#define NS_IMDBROW_IID_STR "271e8d6e-183a-40e3-9f18-36913b4c7853"
#define NS_IMDBROW_IID \
{0x271e8d6e, 0x183a, 0x40e3, \
{0x9f, 0x18, 0x36, 0x91, 0x3b, 0x4c, 0x78, 0x53}}
class nsIMdbRow : public nsIMdbCollection { // cell tuple
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBROW_IID)
// { ===== begin nsIMdbRow methods =====
// { ----- begin cursor methods -----
NS_IMETHOD GetRowCellCursor( // make a cursor starting iteration at inCellPos
nsIMdbEnv* ev, // context
mdb_pos inCellPos, // zero-based ordinal position of cell in row
nsIMdbRowCellCursor** acqCursor) = 0; // acquire new cursor instance
// } ----- end cursor methods -----
// { ----- begin column methods -----
NS_IMETHOD AddColumn( // make sure a particular column is inside row
nsIMdbEnv* ev, // context
mdb_column inColumn, // column to add
const mdbYarn* inYarn) = 0; // cell value to install
NS_IMETHOD CutColumn( // make sure a column is absent from the row
nsIMdbEnv* ev, // context
mdb_column inColumn) = 0; // column to ensure absent from row
NS_IMETHOD CutAllColumns( // remove all columns from the row
nsIMdbEnv* ev) = 0; // context
// } ----- end column methods -----
// { ----- begin cell methods -----
NS_IMETHOD NewCell( // get cell for specified column, or add new one
nsIMdbEnv* ev, // context
mdb_column inColumn, // column to add
nsIMdbCell** acqCell) = 0; // cell column and value
NS_IMETHOD AddCell( // copy a cell from another row to this row
nsIMdbEnv* ev, // context
const nsIMdbCell* inCell) = 0; // cell column and value
NS_IMETHOD GetCell( // find a cell in this row
nsIMdbEnv* ev, // context
mdb_column inColumn, // column to find
nsIMdbCell** acqCell) = 0; // cell for specified column, or null
NS_IMETHOD EmptyAllCells( // make all cells in row empty of content
nsIMdbEnv* ev) = 0; // context
// } ----- end cell methods -----
// { ----- begin row methods -----
NS_IMETHOD AddRow( // add all cells in another row to this one
nsIMdbEnv* ev, // context
nsIMdbRow* ioSourceRow) = 0; // row to union with
NS_IMETHOD SetRow( // make exact duplicate of another row
nsIMdbEnv* ev, // context
nsIMdbRow* ioSourceRow) = 0; // row to duplicate
// } ----- end row methods -----
// { ----- begin blob methods -----
NS_IMETHOD SetCellYarn(nsIMdbEnv* ev, // synonym for AddColumn()
mdb_column inColumn, // column to write
const mdbYarn* inYarn) = 0; // reads from yarn slots
// make this text object contain content from the yarn's buffer
NS_IMETHOD GetCellYarn(nsIMdbEnv* ev,
mdb_column inColumn, // column to read
mdbYarn* outYarn) = 0; // writes some yarn slots
// copy content into the yarn buffer, and update mYarn_Fill and mYarn_Form
NS_IMETHOD AliasCellYarn(nsIMdbEnv* ev,
mdb_column inColumn, // column to alias
mdbYarn* outYarn) = 0; // writes ALL yarn slots
NS_IMETHOD NextCellYarn(nsIMdbEnv* ev, // iterative version of GetCellYarn()
mdb_column* ioColumn, // next column to read
mdbYarn* outYarn) = 0; // writes some yarn slots
// copy content into the yarn buffer, and update mYarn_Fill and mYarn_Form
//
// The ioColumn argument is an inout parameter which initially contains the
// last column accessed and returns the next column corresponding to the
// content read into the yarn. Callers should start with a zero column
// value to say 'no previous column', which causes the first column to be
// read. Then the value returned in ioColumn is perfect for the next call
// to NextCellYarn(), since it will then be the previous column accessed.
// Callers need only examine the column token returned to see which cell
// in the row is being read into the yarn. When no more columns remain,
// and the iteration has ended, ioColumn will return a zero token again.
// So iterating over cells starts and ends with a zero column token.
NS_IMETHOD SeekCellYarn( // resembles nsIMdbRowCellCursor::SeekCell()
nsIMdbEnv* ev, // context
mdb_pos inPos, // position of cell in row sequence
mdb_column* outColumn, // column for this particular cell
mdbYarn* outYarn) = 0; // writes some yarn slots
// copy content into the yarn buffer, and update mYarn_Fill and mYarn_Form
// Callers can pass nil for outYarn to indicate no interest in content, so
// only the outColumn value is returned. NOTE to subclasses: you must be
// able to ignore outYarn when the pointer is nil; please do not crash.
// } ----- end blob methods -----
// } ===== end nsIMdbRow methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbRow, NS_IMDBROW_IID)
/*| nsIMdbRowCellCursor: cursor class for iterating row cells
**|
**|| row: the cursor is associated with a specific row, which can be
**| set to a different row (which resets the position to -1 so the
**| next cell acquired is the first in the row.
**|
**|| NextCell: get the next cell in the row and return its position and
**| a new instance of a nsIMdbCell to represent this next cell.
|*/
#define NS_IMDBROWCELLCURSOR_IID_STR "b33371a7-5d63-4d10-85a8-e44dffe75c28"
#define NS_IMDBROWCELLCURSOR_IID \
{0x271e8d6e, 0x5d63, 0x4d10 , \
{0x85, 0xa8, 0xe4, 0x4d, 0xff, 0xe7, 0x5c, 0x28}}
class nsIMdbRowCellCursor : public nsISupports{ // cell collection iterator
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBROWCELLCURSOR_IID)
// { ===== begin nsIMdbRowCellCursor methods =====
// { ----- begin attribute methods -----
NS_IMETHOD SetRow(nsIMdbEnv* ev, nsIMdbRow* ioRow) = 0; // sets pos to -1
NS_IMETHOD GetRow(nsIMdbEnv* ev, nsIMdbRow** acqRow) = 0;
// } ----- end attribute methods -----
// { ----- begin cell creation methods -----
NS_IMETHOD MakeCell( // get cell at current pos in the row
nsIMdbEnv* ev, // context
mdb_column* outColumn, // column for this particular cell
mdb_pos* outPos, // position of cell in row sequence
nsIMdbCell** acqCell) = 0; // the cell at inPos
// } ----- end cell creation methods -----
// { ----- begin cell seeking methods -----
NS_IMETHOD SeekCell( // same as SetRow() followed by MakeCell()
nsIMdbEnv* ev, // context
mdb_pos inPos, // position of cell in row sequence
mdb_column* outColumn, // column for this particular cell
nsIMdbCell** acqCell) = 0; // the cell at inPos
// } ----- end cell seeking methods -----
// { ----- begin cell iteration methods -----
NS_IMETHOD NextCell( // get next cell in the row
nsIMdbEnv* ev, // context
nsIMdbCell** acqCell, // changes to the next cell in the iteration
mdb_column* outColumn, // column for this particular cell
mdb_pos* outPos) = 0; // position of cell in row sequence
NS_IMETHOD PickNextCell( // get next cell in row within filter set
nsIMdbEnv* ev, // context
nsIMdbCell* ioCell, // changes to the next cell in the iteration
const mdbColumnSet* inFilterSet, // col set of actual caller interest
mdb_column* outColumn, // column for this particular cell
mdb_pos* outPos) = 0; // position of cell in row sequence
// Note that inFilterSet should not have too many (many more than 10?)
// cols, since this might imply a potential excessive consumption of time
// over many cursor calls when looking for column and filter intersection.
// } ----- end cell iteration methods -----
// } ===== end nsIMdbRowCellCursor methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbRowCellCursor, NS_IMDBROWCELLCURSOR_IID)
/*| nsIMdbBlob: a base class for objects composed mainly of byte sequence state.
**| (This provides a base class for nsIMdbCell, so that cells themselves can
**| be used to set state in another cell, without extracting a buffer.)
|*/
class nsIMdbBlob : public nsISupports { // a string with associated charset
public:
// { ===== begin nsIMdbBlob methods =====
// { ----- begin attribute methods -----
NS_IMETHOD SetBlob(nsIMdbEnv* ev,
nsIMdbBlob* ioBlob) = 0; // reads inBlob slots
// when inBlob is in the same suite, this might be fastest cell-to-cell
NS_IMETHOD ClearBlob( // make empty (so content has zero length)
nsIMdbEnv* ev) = 0;
// clearing a yarn is like SetYarn() with empty yarn instance content
NS_IMETHOD GetBlobFill(nsIMdbEnv* ev,
mdb_fill* outFill) = 0; // size of blob
// Same value that would be put into mYarn_Fill, if one called GetYarn()
// with a yarn instance that had mYarn_Buf==nil and mYarn_Size==0.
NS_IMETHOD SetYarn(nsIMdbEnv* ev,
const mdbYarn* inYarn) = 0; // reads from yarn slots
// make this text object contain content from the yarn's buffer
NS_IMETHOD GetYarn(nsIMdbEnv* ev,
mdbYarn* outYarn) = 0; // writes some yarn slots
// copy content into the yarn buffer, and update mYarn_Fill and mYarn_Form
NS_IMETHOD AliasYarn(nsIMdbEnv* ev,
mdbYarn* outYarn) = 0; // writes ALL yarn slots
// AliasYarn() reveals sensitive internal text buffer state to the caller
// by setting mYarn_Buf to point into the guts of this text implementation.
//
// The caller must take great care to avoid writing on this space, and to
// avoid calling any method that would cause the state of this text object
// to change (say by directly or indirectly setting the text to hold more
// content that might grow the size of the buffer and free the old buffer).
// In particular, callers should scrupulously avoid making calls into the
// mdb interface to write any content while using the buffer pointer found
// in the returned yarn instance. Best safe usage involves copying content
// into some other kind of external content representation beyond mdb.
//
// (The original design of this method a week earlier included the concept
// of very fast and efficient cooperative locking via a pointer to some lock
// member slot. But let's ignore that complexity in the current design.)
//
// AliasYarn() is specifically intended as the first step in transferring
// content from nsIMdbBlob to a nsString representation, without forcing extra
// allocations and/or memory copies. (A standard nsIMdbBlob_AsString() utility
// will use AliasYarn() as the first step in setting a nsString instance.)
//
// This is an alternative to the GetYarn() method, which has copy semantics
// only; AliasYarn() relaxes a robust safety principle only for performance
// reasons, to accomodate the need for callers to transform text content to
// some other canonical representation that would necessitate an additional
// copy and transformation when such is incompatible with the mdbYarn format.
//
// The implementation of AliasYarn() should have extremely little overhead
// besides the virtual dispatch to the method implementation, and the code
// necessary to populate all the mdbYarn member slots with internal buffer
// address and metainformation that describes the buffer content. Note that
// mYarn_Grow must always be set to nil to indicate no resizing is allowed.
// } ----- end attribute methods -----
// } ===== end nsIMdbBlob methods =====
};
/*| nsIMdbCell: the text in a single column of a row. The base nsIMdbBlob
**| class provides all the interface related to accessing cell text.
**|
**|| column: each cell in a row appears in a specific column, where this
**| column is identified by the an integer mdb_scope value (generated by
**| the StringToScopeToken() method in the containing nsIMdbPort instance).
**| Because a row cannot have more than one cell with the same column,
**| something must give if one calls SetColumn() with an existing column
**| in the same row. When this happens, the other cell is replaced with
**| this cell (and the old cell is closed if it has outstanding refs).
**|
**|| row: every cell instance is a part of some row, and every cell knows
**| which row is the parent row. (Note this should be represented by a
**| weak backpointer, so that outstanding cell references cannot keep a
**| row open that should be closed. Otherwise we'd have ref graph cycles.)
**|
**|| text: a cell can either be text, or it can have a child row or table,
**| but not both at once. If text is read from a cell with a child, the text
**| content should be empty (for AliasYarn()) or a description of the type
**| of child (perhaps "mdb:cell:child:row" or "mdb:cell:child:table").
**|
**|| child: a cell might reference another row or a table, rather than text.
**| The interface for putting and getting children rows and tables was first
**| defined in the nsIMdbTable interface, but then this was moved to this cell
**| interface as more natural.
|*/
#define NS_IMDBCELL_IID \
{0xa3b62f71, 0xa181, 0x4a91, \
{0xb6, 0x6b, 0x27, 0x10, 0x9b, 0x88, 0x98, 0x35}}
#define NS_IMDBCELL_IID_STR = "a3b62f71-a181-4a91-b66b-27109b889835"
class nsIMdbCell : public nsIMdbBlob { // text attribute in row with column scope
public:
NS_DECLARE_STATIC_IID_ACCESSOR(NS_IMDBTABLEROWCURSOR_IID)
// { ===== begin nsIMdbCell methods =====
// { ----- begin attribute methods -----
NS_IMETHOD SetColumn(nsIMdbEnv* ev, mdb_column inColumn) = 0;
NS_IMETHOD GetColumn(nsIMdbEnv* ev, mdb_column* outColumn) = 0;
NS_IMETHOD GetCellInfo( // all cell metainfo except actual content
nsIMdbEnv* ev,
mdb_column* outColumn, // the column in the containing row
mdb_fill* outBlobFill, // the size of text content in bytes
mdbOid* outChildOid, // oid of possible row or table child
mdb_bool* outIsRowChild) = 0; // nonzero if child, and a row child
// Checking all cell metainfo is a good way to avoid forcing a large cell
// in to memory when you don't actually want to use the content.
NS_IMETHOD GetRow(nsIMdbEnv* ev, // parent row for this cell
nsIMdbRow** acqRow) = 0;
NS_IMETHOD GetPort(nsIMdbEnv* ev, // port containing cell
nsIMdbPort** acqPort) = 0;
// } ----- end attribute methods -----
// { ----- begin children methods -----
NS_IMETHOD HasAnyChild( // does cell have a child instead of text?
nsIMdbEnv* ev,
mdbOid* outOid, // out id of row or table (or unbound if no child)
mdb_bool* outIsRow) = 0; // nonzero if child is a row (rather than a table)
NS_IMETHOD GetAnyChild( // access table of specific attribute
nsIMdbEnv* ev, // context
nsIMdbRow** acqRow, // child row (or null)
nsIMdbTable** acqTable) = 0; // child table (or null)
NS_IMETHOD SetChildRow( // access table of specific attribute
nsIMdbEnv* ev, // context
nsIMdbRow* ioRow) = 0; // inRow must be bound inside this same db port
NS_IMETHOD GetChildRow( // access row of specific attribute
nsIMdbEnv* ev, // context
nsIMdbRow** acqRow) = 0; // acquire child row (or nil if no child)
NS_IMETHOD SetChildTable( // access table of specific attribute
nsIMdbEnv* ev, // context
nsIMdbTable* inTable) = 0; // table must be bound inside this same db port
NS_IMETHOD GetChildTable( // access table of specific attribute
nsIMdbEnv* ev, // context
nsIMdbTable** acqTable) = 0; // acquire child table (or nil if no child)
// } ----- end children methods -----
// } ===== end nsIMdbCell methods =====
};
NS_DEFINE_STATIC_IID_ACCESSOR(nsIMdbCell, NS_IMDBTABLEROWCURSOR_IID)
// } %%%%% end C++ abstract class interfaces %%%%%
//3456789_123456789_123456789_123456789_123456789_123456789_123456789_123456789
#endif /* _MDB_ */
|