metaforce/hecl/lib/database/sqlite_hecl_memlba_vfs.c

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#include "sqlite_hecl_vfs.h"
#include "sqlite3.h"
#include <assert.h>
#include <string.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <stdint.h>
#include <zlib/zlib.h>
/*
* Modified test_onefile.c VFS for sqlite3
*
* This VFS gets registered with sqlite to access an in-memory,
* block-compressed LBA. It's designed for read-only access of
* a packed object-database.
*
* Journal and temp read/write is unsupported and will call abort
* if attempted.
*/
/*
* App-supplied pointer to head buffer (Header+TOC+DB)
*/
static void* HEAD_BUF = NULL;
#define BLOCK_SLOTS 4
typedef struct memlba_file memlba_file;
struct memlba_file
{
sqlite3_file base;
struct
{
char magic[4];
uint32_t blockSize;
uint32_t blockCount;
uint32_t headSz;
uint32_t blockTOC[];
}* headBuf;
void* cachedBlockBufs[BLOCK_SLOTS];
/* All initialized to -1 */
int cachedBlockIndices[BLOCK_SLOTS];
/* Ages start at 0, newly inserted block is 1.
* Non-0 blocks incremented on every insertion.
* If any slot is BLOCK_SLOTS upon insertion, surrounding blocks
* are incremented and that slot is reset to 1 (oldest-block caching)
*/
int cachedBlockAges[BLOCK_SLOTS];
z_stream zstrm;
};
static int newBlockSlot(memlba_file* file)
{
unsigned i;
for (i=0 ; i<BLOCK_SLOTS ; ++i)
if (file->cachedBlockAges[i] != 0)
++file->cachedBlockAges[i];
for (i=0 ; i<BLOCK_SLOTS ; ++i)
if (file->cachedBlockAges[i] == 0)
{
file->cachedBlockAges[i] = 1;
return i;
}
for (i=0 ; i<BLOCK_SLOTS ; ++i)
if (file->cachedBlockAges[i] == BLOCK_SLOTS+1)
{
file->cachedBlockAges[i] = 1;
return i;
}
/* Shouldn't happen (fallback) */
for (i=1 ; i<BLOCK_SLOTS ; ++i)
{
file->cachedBlockAges[i] = 0;
file->cachedBlockIndices[i] = -1;
}
file->cachedBlockAges[0] = 1;
return 0;
}
static void decompressBlock(memlba_file* file, unsigned blockIdx, int targetSlot)
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{
if (blockIdx >= file->headBuf->blockCount)
{
fprintf(stderr, "exceeded memlba block range");
abort();
}
void* dbBlock = ((void*)file->headBuf) + file->headBuf->blockTOC[blockIdx];
file->zstrm.next_in = dbBlock;
file->zstrm.avail_in = file->headBuf->blockTOC[blockIdx+1] - file->headBuf->blockTOC[blockIdx];
file->zstrm.next_out = file->cachedBlockBufs[targetSlot];
file->zstrm.avail_out = file->headBuf->blockSize;
inflate(&file->zstrm, Z_FINISH);
inflateReset(&file->zstrm);
}
static int getBlockSlot(memlba_file* file, int blockIdx)
{
unsigned i;
for (i=0 ; i<BLOCK_SLOTS ; ++i)
if (file->cachedBlockIndices[i] != blockIdx)
return i;
int newSlot = newBlockSlot(file);
file->cachedBlockIndices[newSlot] = blockIdx;
decompressBlock(file, blockIdx, newSlot);
return newSlot;
}
/*
** Method declarations for memlba_file.
*/
static int memlbaClose(sqlite3_file*);
static int memlbaRead(sqlite3_file*, void*, int iAmt, sqlite3_int64 iOfst);
static int memlbaWrite(sqlite3_file*, const void*, int iAmt, sqlite3_int64 iOfst);
static int memlbaTruncate(sqlite3_file*, sqlite3_int64 size);
static int memlbaSync(sqlite3_file*, int flags);
static int memlbaFileSize(sqlite3_file*, sqlite3_int64* pSize);
static int memlbaLock(sqlite3_file*, int);
static int memlbaUnlock(sqlite3_file*, int);
static int memlbaCheckReservedLock(sqlite3_file*, int* pResOut);
static int memlbaFileControl(sqlite3_file*, int op, void* pArg);
static int memlbaSectorSize(sqlite3_file*);
static int memlbaDeviceCharacteristics(sqlite3_file*);
/*
** Method declarations for fs_vfs.
*/
static int memlbaOpen(sqlite3_vfs*, const char*, sqlite3_file*, int , int*);
static int memlbaDelete(sqlite3_vfs*, const char* zName, int syncDir);
static int memlbaAccess(sqlite3_vfs*, const char* zName, int flags, int*);
static int memlbaFullPathname(sqlite3_vfs*, const char* zName, int nOut, char* zOut);
static void* memlbaDlOpen(sqlite3_vfs*, const char* zFilename);
static void memlbaDlError(sqlite3_vfs*, int nByte, char* zErrMsg);
static void (*memlbaDlSym(sqlite3_vfs*, void*, const char* zSymbol))(void);
static void memlbaDlClose(sqlite3_vfs*, void*);
static int memlbaRandomness(sqlite3_vfs*, int nByte, char* zOut);
static int memlbaSleep(sqlite3_vfs*, int microseconds);
static int memlbaCurrentTime(sqlite3_vfs*, double*);
static sqlite3_vfs memlba_vfs =
{
1, /* iVersion */
0, /* szOsFile */
0, /* mxPathname */
0, /* pNext */
"hecl_memlba", /* zName */
0, /* pAppData */
memlbaOpen, /* xOpen */
memlbaDelete, /* xDelete */
memlbaAccess, /* xAccess */
memlbaFullPathname, /* xFullPathname */
memlbaDlOpen, /* xDlOpen */
memlbaDlError, /* xDlError */
memlbaDlSym, /* xDlSym */
memlbaDlClose, /* xDlClose */
memlbaRandomness, /* xRandomness */
memlbaSleep, /* xSleep */
memlbaCurrentTime, /* xCurrentTime */
0, 0, 0, 0, 0
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};
static sqlite3_io_methods memlba_io_methods =
{
1, /* iVersion */
memlbaClose, /* xClose */
memlbaRead, /* xRead */
memlbaWrite, /* xWrite */
memlbaTruncate, /* xTruncate */
memlbaSync, /* xSync */
memlbaFileSize, /* xFileSize */
memlbaLock, /* xLock */
memlbaUnlock, /* xUnlock */
memlbaCheckReservedLock, /* xCheckReservedLock */
memlbaFileControl, /* xFileControl */
memlbaSectorSize, /* xSectorSize */
memlbaDeviceCharacteristics, /* xDeviceCharacteristics */
0, /* xShmMap */
0, /* xShmLock */
0, /* xShmBarrier */
0, /* xShmUnmap */
0,
0
};
/* Useful macros used in several places */
#define MIN(x,y) ((x)<(y)?(x):(y))
#define MAX(x,y) ((x)>(y)?(x):(y))
/*
** Close a memlba-file.
*/
static int memlbaClose(sqlite3_file* pFile)
{
memlba_file* pTmp = (memlba_file*)pFile;
free(pTmp->headBuf);
free(pTmp->cachedBlockBufs[0]);
inflateEnd(&pTmp->zstrm);
return SQLITE_OK;
}
/*
** Read data from a memlba-file.
*/
static int memlbaRead(
sqlite3_file* pFile,
void* zBuf,
int iAmt,
sqlite_int64 iOfst
)
{
memlba_file* pTmp = (memlba_file*)pFile;
unsigned blockIdx = iOfst / pTmp->headBuf->blockSize;
unsigned firstOff = iOfst % pTmp->headBuf->blockSize;
unsigned firstRemBytes = pTmp->headBuf->blockSize - firstOff;
int slot = getBlockSlot(pTmp, blockIdx);
unsigned toRead = MIN((unsigned)iAmt, firstRemBytes);
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memcpy(zBuf, pTmp->cachedBlockBufs[slot] + firstOff, toRead);
iAmt -= toRead;
zBuf += toRead;
while (iAmt > 0)
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{
slot = getBlockSlot(pTmp, ++blockIdx);
toRead = MIN((unsigned)iAmt, pTmp->headBuf->blockSize);
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memcpy(zBuf, pTmp->cachedBlockBufs[slot], toRead);
iAmt -= toRead;
zBuf += toRead;
}
return SQLITE_OK;
}
/*
** Write data to a memlba-file.
*/
static int memlbaWrite(
sqlite3_file* pFile,
const void* zBuf,
int iAmt,
sqlite_int64 iOfst
)
{
(void)pFile; (void)zBuf; (void)iAmt; (void)iOfst;
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return SQLITE_OK;
}
/*
** Truncate a memlba-file.
*/
static int memlbaTruncate(sqlite3_file* pFile, sqlite_int64 size)
{
(void)pFile; (void)size;
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return SQLITE_OK;
}
/*
** Sync a memlba-file.
*/
static int memlbaSync(sqlite3_file* pFile, int flags)
{
(void)pFile; (void)flags;
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return SQLITE_OK;
}
/*
** Return the current file-size of a memlba-file.
*/
static int memlbaFileSize(sqlite3_file* pFile, sqlite_int64* pSize)
{
memlba_file* pTmp = (memlba_file*)pFile;
*pSize = pTmp->headBuf->headSz - pTmp->headBuf->blockTOC[0];
return SQLITE_OK;
}
/*
** Lock a memlba-file.
*/
static int memlbaLock(sqlite3_file* pFile, int eLock)
{
(void)pFile; (void)eLock;
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return SQLITE_OK;
}
/*
** Unlock a memlba-file.
*/
static int memlbaUnlock(sqlite3_file* pFile, int eLock)
{
(void)pFile; (void)eLock;
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return SQLITE_OK;
}
/*
** Check if another file-handle holds a RESERVED lock on a memlba-file.
*/
static int memlbaCheckReservedLock(sqlite3_file* pFile, int* pResOut)
{
(void)pFile;
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*pResOut = 0;
return SQLITE_OK;
}
/*
** File control method. For custom operations on a memlba-file.
*/
static int memlbaFileControl(sqlite3_file* pFile, int op, void* pArg)
{
(void)pFile; (void)op; (void)pArg;
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return SQLITE_OK;
}
/*
** Return the sector-size in bytes for a memlba-file.
*/
static int memlbaSectorSize(sqlite3_file* pFile)
{
(void)pFile;
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return 0;
}
/*
** Return the device characteristic flags supported by a memlba-file.
*/
static int memlbaDeviceCharacteristics(sqlite3_file* pFile)
{
(void)pFile;
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return 0;
}
/*
** Open an memlba file handle.
*/
static int memlbaOpen(
sqlite3_vfs* pVfs,
const char* zName,
sqlite3_file* pFile,
int flags,
int* pOutFlags
)
{
(void)pVfs; (void)zName; (void)pOutFlags;
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if ((flags & SQLITE_OPEN_MAIN_DB) != SQLITE_OPEN_MAIN_DB ||
(flags & SQLITE_OPEN_READONLY) != SQLITE_OPEN_READONLY)
{
fprintf(stderr, "the sqlite hecl memlba VFS only supports main-db reading\n");
return SQLITE_CANTOPEN;
}
memlba_file* p2 = (memlba_file*)pFile;
memset(p2, 0, sizeof(*p2));
p2->base.pMethods = &memlba_io_methods;
inflateInit(&p2->zstrm);
p2->headBuf = HEAD_BUF;
unsigned i;
void* blockBufs = calloc(BLOCK_SLOTS, p2->headBuf->blockSize);
for (i=0 ; i<BLOCK_SLOTS ; ++i)
{
p2->cachedBlockBufs[i] = blockBufs + p2->headBuf->blockSize * i;
p2->cachedBlockIndices[i] = -1;
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}
return SQLITE_OK;
}
/*
** Delete the file located at zPath. If the dirSync argument is true,
** ensure the file-system modifications are synced to disk before
** returning.
*/
static int memlbaDelete(sqlite3_vfs* pVfs, const char* zPath, int dirSync)
{
(void)pVfs; (void)zPath; (void)dirSync;
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return SQLITE_OK;
}
/*
** Test for access permissions. Return true if the requested permission
** is available, or false otherwise.
*/
static int memlbaAccess(
sqlite3_vfs* pVfs,
const char* zPath,
int flags,
int* pResOut
)
{
(void)pVfs; (void)zPath; (void)pResOut;
if (flags & (SQLITE_ACCESS_READ | SQLITE_ACCESS_READWRITE))
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return 1;
return 0;
}
/*
** Populate buffer zOut with the full canonical pathname corresponding
** to the pathname in zPath. zOut is guaranteed to point to a buffer
** of at least (FS_MAX_PATHNAME+1) bytes.
*/
static int memlbaFullPathname(
sqlite3_vfs* pVfs, /* Pointer to vfs object */
const char* zPath, /* Possibly relative input path */
int nOut, /* Size of output buffer in bytes */
char* zOut) /* Output buffer */
{
(void)pVfs;
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strncpy(zOut, zPath, nOut);
return SQLITE_OK;
}
/*
** Open the dynamic library located at zPath and return a handle.
*/
static void* memlbaDlOpen(sqlite3_vfs* pVfs, const char* zPath)
{
(void)pVfs; (void)zPath;
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return NULL;
}
/*
** Populate the buffer zErrMsg (size nByte bytes) with a human readable
** utf-8 string describing the most recent error encountered associated
** with dynamic libraries.
*/
static void memlbaDlError(sqlite3_vfs* pVfs, int nByte, char* zErrMsg)
{
(void)pVfs; (void)nByte; (void)zErrMsg;
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}
/*
** Return a pointer to the symbol zSymbol in the dynamic library pHandle.
*/
static void (*memlbaDlSym(sqlite3_vfs* pVfs, void* pH, const char* zSym))(void)
{
(void)pVfs; (void)pH; (void)zSym;
return NULL;
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}
/*
** Close the dynamic library handle pHandle.
*/
static void memlbaDlClose(sqlite3_vfs* pVfs, void* pHandle)
{
(void)pVfs; (void)pHandle;
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}
/*
** Populate the buffer pointed to by zBufOut with nByte bytes of
** random data.
*/
static int memlbaRandomness(sqlite3_vfs* pVfs, int nByte, char* zBufOut)
{
(void)pVfs;
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for(int i = 0 ; i < nByte ; ++i)
zBufOut[i] = rand();
return nByte;
}
/*
** Sleep for nMicro microseconds. Return the number of microseconds
** actually slept.
*/
static int memlbaSleep(sqlite3_vfs* pVfs, int nMicro)
{
(void)pVfs;
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int seconds = (nMicro + 999999) / 1000000;
sleep(seconds);
return seconds * 1000000;
}
/*
** Return the current time as a Julian Day number in *pTimeOut.
*/
static int memlbaCurrentTime(sqlite3_vfs* pVfs, double* pTimeOut)
{
(void)pVfs;
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*pTimeOut = 0.0;
return 0;
}
/*
** This procedure registers the memlba vfs with SQLite. If the argument is
** true, the memlba vfs becomes the new default vfs. It is the only publicly
** available function in this file.
*/
int sqlite_hecl_memlba_vfs_register(void* headBuf)
{
HEAD_BUF = headBuf;
if(memlba_vfs.szOsFile) return SQLITE_OK;
memlba_vfs.szOsFile = sizeof(memlba_file);
return sqlite3_vfs_register(&memlba_vfs, 0);
}