⭐ 欢迎来到虫虫下载站! | 📦 资源下载 📁 资源专辑 ℹ️ 关于我们
⭐ 虫虫下载站
📤 上传资源

📄 file.cpp

📁 嵌入式数据库软件 嵌入式数据库软件 嵌入式数据库软件
💻 CPP
📖 第 1 页 / 共 3 页
字号:
🔍
123 
        char* cFileName = new char[strlen(fileName) + 5];        strcat(strcpy(cFileName, fileName), ".cnt");        #ifdef DISKLESS_CONFIGURATION        cfh = INVALID_HANDLE_VALUE;#else        cfh = CreateFile(cFileName, GENERIC_READ|GENERIC_WRITE,                          0, NULL, OPEN_ALWAYS,                         FILE_FLAG_RANDOM_ACCESS|FILE_FLAG_WRITE_THROUGH,                         NULL);        delete[] cFileName;        if (cfh == INVALID_HANDLE_VALUE) {            status = errno;            return status;        }#endif        cmh = CreateFileMapping(cfh, NULL, PAGE_READWRITE, 0,                                 nPages*sizeof(int), NULL);        status = GetLastError();        if (cmh == NULL) {             CloseHandle(cfh);            return status;        }        diskUpdateCount = (int*)MapViewOfFile(cmh, FILE_MAP_ALL_ACCESS,                                               0, 0, 0);        if (diskUpdateCount == NULL) {             status = GetLastError();            CloseHandle(cmh);            CloseHandle(cfh);            return status;        }         rootPage = dbMalloc(pageSize);        int maxCount = 0;        for (int i = 0; i < nPages; i++) {                  int count = diskUpdateCount[i];            currUpdateCount[i] = count;            if (count > maxCount) {                 maxCount = count;            }        }        updateCounter = maxCount;        nRecovered = 0;        recoveredEvent.open(true);        syncEvent.open();        startSync();    }#endif    return ok; }#if defined(REPLICATION_SUPPORT)void dbFile::syncToDisk(){    syncThread.setPriority(dbThread::THR_PRI_LOW);    dbCriticalSection cs(syncCS);    while (doSync) {         int i, j, k;         int maxUpdated = 0;        for (i = 0; i < int(mmapSize >> dbModMapBlockBits);) {             int updateCounters[dbMaxSyncSegmentSize];            for (j=i; j < int(mmapSize >> dbModMapBlockBits) && j-i < dbMaxSyncSegmentSize                      && currUpdateCount[j] > diskUpdateCount[j]; j++)            {                updateCounters[j-i] = currUpdateCount[j];            }            if (i != j) {                 size_t pos = (i << dbModMapBlockBits) & ~(pageSize-1);                size_t size = (((j-i) << dbModMapBlockBits) + pageSize - 1) & ~(pageSize-1);#ifdef NO_MMAP                DWORD written;                if (SetFilePointer(fh, pos, NULL, FILE_BEGIN) != pos ||                    !WriteFile(fh, mmapAddr + pos, size, &written, NULL)                     || written != (DWORD)size)                 {                     dbTrace("Failed to save page to the disk, position=%ld, size=%ld, error=%d\n",                            (long)pos, (long)size, GetLastError());                }#else                FlushViewOfFile(mmapAddr + pos, size);#endif                for (k = 0; i < j; k++, i++) {                      diskUpdateCount[i] = updateCounters[k];                }                maxUpdated = i;            } else {                 i += 1;            }            if (!doSync) {                 return;            }        }        if (maxUpdated != 0) {             FlushViewOfFile(diskUpdateCount, maxUpdated*sizeof(int));        }        if (closing && maxUpdated == 0) {             return;        } else {             syncEvent.wait(syncCS, dbSyncTimeout);        }    }}#endifint dbFile::create(const char* name, bool noBuffering){    fh = CreateFile(name, GENERIC_READ|GENERIC_WRITE, 0, FASTDB_SECURITY_ATTRIBUTES, CREATE_ALWAYS,                     (noBuffering ? FILE_FLAG_NO_BUFFERING : 0)|FILE_FLAG_SEQUENTIAL_SCAN, NULL);     if (fh == INVALID_HANDLE_VALUE) {        return GetLastError();    }    mh = NULL;    mmapAddr = NULL;    sharedName = NULL;    return ok;}int dbFile::read(void* buf, size_t& readBytes, size_t size){      DWORD count;    if (ReadFile(fh, buf, size, &count, NULL)) {         readBytes = count;        return ok;    } else {         readBytes = 0;        return GetLastError();    }}int dbFile::write(void const* buf, size_t& writtenBytes, size_t size){      DWORD count;    if (WriteFile(fh, buf, size, &count, NULL)) {         writtenBytes = count;        return ok;    } else {         writtenBytes = 0;        return GetLastError();    }}int dbFile::flush(bool physical){#if defined(REPLICATION_SUPPORT)    dbCriticalSection cs(replCS);    if (db == NULL) {         physical = true;    }    if (!physical) {        updateCounter += 1;     }#endif#if defined(REPLICATION_SUPPORT) || (defined(NO_MMAP) && !defined(DISKLESS_CONFIGURATION))    int* map = pageMap;    for (int i = 0, n = pageMapSize; i < n; i++) {         if (map[i] != 0) {             size_t pos = (size_t)i << (dbModMapBlockBits + 5);            unsigned mask = map[i];            int count = 0;            do {                 int size = 0;                while ((mask & 1) == 0) {                     pos += dbModMapBlockSize;                    mask >>= 1;                    count += 1;                }                  while (true) {                      do { #ifdef REPLICATION_SUPPORT                        if (!physical) {                            currUpdateCount[(pos + size) >> dbModMapBlockBits] = updateCounter;                        }#endif                        size += dbModMapBlockSize;                        mask >>= 1;                        count += 1;                    } while ((mask & 1) != 0);                    if (i+1 < n && count == 32 && size < dbMaxSyncSegmentSize*dbModMapBlockSize                         && (map[i+1] & 1) != 0)                     {                         map[i] = 0;                        mask = map[++i];                        count = 0;                    } else {                         break;                    }                }#if defined(REPLICATION_SUPPORT)                if (db != NULL) {                     if (!physical) {                         for (int j = db->nServers; --j >= 0;) {                             if (db->con[j].status == dbReplicatedDatabase::ST_STANDBY) {                                 ReplicationRequest rr;                                rr.op = ReplicationRequest::RR_UPDATE_PAGE;                                rr.nodeId = db->id;                                rr.page.updateCount = updateCounter;                                rr.page.offs = pos;                                rr.size = size;                                db->writeReq(j, rr, mmapAddr + pos, size);                            }                        }                    }                    pos += size;                    continue;                } #endif#ifndef DISKLESS_CONFIGURATION                DWORD written;                if (SetFilePointer(fh, pos, NULL, FILE_BEGIN) != pos ||                    !WriteFile(fh, mmapAddr + pos, size, &written, NULL)                     || written != (DWORD)size)                 {                     return GetLastError();                }#endif                pos += size;            } while (mask != 0);            map[i] = 0;        }    }#endif#if !defined(NO_MMAP) && !defined(DISKLESS_CONFIGURATION) && !defined(REPLICATION_SUPPORT)    if (!FlushViewOfFile(mmapAddr, mmapSize)) {         return GetLastError();    }#endif    return ok;}int dbFile::setSize(size_t size, char const* sharedName, bool initialize){#if defined(REPLICATION_SUPPORT)    dbCriticalSection cs1(syncCS);    dbCriticalSection cs2(replCS);#endif#ifdef DISKLESS_CONFIGURATION    assert(false);#else#ifdef NO_MMAP    char* newBuf = (char*)VirtualAlloc(NULL, size, MEM_COMMIT|MEM_RESERVE, PAGE_READWRITE);    if (newBuf == NULL) {         return GetLastError();    }    if (SetFilePointer(fh, size, NULL, FILE_BEGIN) != size || !SetEndOfFile(fh)) {        return GetLastError();    }    memcpy(newBuf, mmapAddr, mmapSize);    VirtualFree(mmapAddr, 0, MEM_RELEASE);    mmapAddr = newBuf;    mmapSize = size;#else    if (!UnmapViewOfFile(mmapAddr) || !CloseHandle(mh)) {         return GetLastError();    }     mh = CreateFileMapping(fh, FASTDB_SECURITY_ATTRIBUTES, PAGE_READWRITE, 0, size, sharedName);    int status = GetLastError();    if (mh == NULL) {         printf("CreateFileMapping failed: %d\n", status);        return status;    }    mmapAddr = (char*)MapViewOfFile(mh, FILE_MAP_ALL_ACCESS, 0, 0, 0);    if (mmapAddr == NULL) {         return GetLastError();    }    if (initialize && status != ERROR_ALREADY_EXISTS)        //&& osinfo.dwPlatformId != VER_PLATFORM_WIN32_NT)     {        // Windows 95 doesn't initialize pages        memset(mmapAddr+mmapSize, 0, size - mmapSize);    }     mmapSize = size;#endif#if defined(NO_MMAP) || defined(REPLICATION_SUPPORT)     int newPageMapSize = (size + dbModMapBlockSize*32 - 1) >> (dbModMapBlockBits + 5);    int* newPageMap = new int[newPageMapSize];    memcpy(newPageMap, pageMap, pageMapSize*sizeof(int));    memset(newPageMap + pageMapSize, 0,            (newPageMapSize-pageMapSize)*sizeof(int));    delete[] pageMap;    pageMapSize = newPageMapSize;        pageMap = newPageMap;    #endif#endif    return ok;}int dbFile::close(){    delete[] sharedName;#if defined(REPLICATION_SUPPORT)    if (db != NULL) {         closing = true;        stopSync();        {             dbCriticalSection cs(replCS);            if (nRecovered != 0) {                 recoveredEvent.wait(replCS);            }        }        syncEvent.close();        recoveredEvent.close();        UnmapViewOfFile(diskUpdateCount);        CloseHandle(cmh);        CloseHandle(cfh);    }    delete[] currUpdateCount;    currUpdateCount = NULL;    dbFree(rootPage);    rootPage = NULL;#endif    if (mmapAddr != NULL) { #if defined(NO_MMAP)        int rc = flush();        if (rc != ok) {             return rc;        }        VirtualFree(mmapAddr, 0, MEM_RELEASE);            delete[] pageMap;#else        if (!UnmapViewOfFile(mmapAddr)) {             return GetLastError();        }#if defined(REPLICATION_SUPPORT)        delete[] pageMap;#endif#endif    }    if (mh != NULL) {         if (!CloseHandle(mh)) {            return GetLastError();        }    }    return fh == INVALID_HANDLE_VALUE || CloseHandle(fh) ? ok : GetLastError();}char* dbFile::errorText(int code, char* buf, size_t bufSize){#ifndef PHAR_LAP        int len = FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM,                            NULL,                            code,                            0,                            buf,                            bufSize-1,                            NULL);    if (len == 0) {         char errcode[64];        sprintf(errcode, "unknown error code %u", code);        strncpy(buf, errcode, bufSize-1);    }#else    char errcode[64];    sprintf(errcode, "unknown error code %u", code);    strncpy(buf, errcode, bufSize-1);#endif    buf[bufSize-1] = '\0';    return buf;}#else // Unix#include <unistd.h>#include <fcntl.h>#include <errno.h>#include <sys/stat.h>#ifndef NO_MMAP#include <sys/mman.h>#endif#ifndef O_SYNC#define O_SYNC  O_FSYNC#endif#ifndef O_DSYNC#define O_DSYNC O_SYNC#endifint dbFile::open(char const* name, char const*, bool readonly, size_t initSize, bool replicationSupport){#if defined(USE_SYSV_SHARED_MEMORY) && defined(DISKLESS_CONFIGURATION)    if (!shmem.open(name, initSize)) {         return errno;    }    mmapSize = initSize;               mmapAddr = shmem.get_base();    fd = -1;#else#ifndef NO_MMAP    int mmap_attr = MAP_SHARED;#endif    int status;#ifdef DISKLESS_CONFIGURATION#ifndef MAP_ANONYMOUS     fd = ::open("/dev/zero", O_RDWR, 0);#else    fd = -1;     mmap_attr |= MAP_ANONYMOUS;#endif // MAP_ANONYMOUS     mmapSize = initSize;#else // DISKLESS_CONFIGURATION    fd = ::open(name, readonly ? O_RDONLY : O_RDWR/*|O_DSYNC*/|O_CREAT, 0666);    if (fd < 0) {         return errno;    }    mmapSize = lseek(fd, 0, SEEK_END);     if (!readonly && mmapSize == 0) {
123

⌨️ 快捷键说明

复制代码 Ctrl + C
搜索代码 Ctrl + F
全屏模式 F11
切换主题 Ctrl + Shift + D
显示快捷键 ?
增大字号 Ctrl + =
减小字号 Ctrl + -