/** * Licensed to the Apache Software Foundation (ASF) under one * or more contributor license agreements. See the NOTICE file * distributed with this work for additional information * regarding copyright ownership. The ASF licenses this file * to you under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "hdfs.h" void permission_disp(short permissions, char *rtr) { rtr[9] = '\0'; int i; for(i=2;i>=0;i--) { short permissionsId = permissions >> (i * 3) & (short)7; char* perm; switch(permissionsId) { case 7: perm = "rwx"; break; case 6: perm = "rw-"; break; case 5: perm = "r-x"; break; case 4: perm = "r--"; break; case 3: perm = "-wx"; break; case 2: perm = "-w-"; break; case 1: perm = "--x"; break; case 0: perm = "---"; break; default: perm = "???"; } strncpy(rtr, perm, 3); rtr+=3; } } int main(int argc, char **argv) { hdfsFS fs = hdfsConnectNewInstance("default", 0); if(!fs) { fprintf(stderr, "Oops! Failed to connect to hdfs!\n"); exit(-1); } hdfsFS lfs = hdfsConnectNewInstance(NULL, 0); if(!lfs) { fprintf(stderr, "Oops! Failed to connect to 'local' hdfs!\n"); exit(-1); } const char* writePath = "/tmp/testfile.txt"; { //Write tests hdfsFile writeFile = hdfsOpenFile(fs, writePath, O_WRONLY|O_CREAT, 0, 0, 0); if(!writeFile) { fprintf(stderr, "Failed to open %s for writing!\n", writePath); exit(-1); } fprintf(stderr, "Opened %s for writing successfully...\n", writePath); char* buffer = "Hello, World!"; tSize num_written_bytes = hdfsWrite(fs, writeFile, (void*)buffer, strlen(buffer)+1); fprintf(stderr, "Wrote %d bytes\n", num_written_bytes); tOffset currentPos = -1; if ((currentPos = hdfsTell(fs, writeFile)) == -1) { fprintf(stderr, "Failed to get current file position correctly! Got %ld!\n", currentPos); exit(-1); } fprintf(stderr, "Current position: %ld\n", currentPos); if (hdfsFlush(fs, writeFile)) { fprintf(stderr, "Failed to 'flush' %s\n", writePath); exit(-1); } fprintf(stderr, "Flushed %s successfully!\n", writePath); hdfsCloseFile(fs, writeFile); } { //Read tests const char* readPath = "/tmp/testfile.txt"; int exists = hdfsExists(fs, readPath); if (exists) { fprintf(stderr, "Failed to validate existence of %s\n", readPath); exit(-1); } hdfsFile readFile = hdfsOpenFile(fs, readPath, O_RDONLY, 0, 0, 0); if (!readFile) { fprintf(stderr, "Failed to open %s for reading!\n", readPath); exit(-1); } fprintf(stderr, "hdfsAvailable: %d\n", hdfsAvailable(fs, readFile)); tOffset seekPos = 1; if(hdfsSeek(fs, readFile, seekPos)) { fprintf(stderr, "Failed to seek %s for reading!\n", readPath); exit(-1); } tOffset currentPos = -1; if((currentPos = hdfsTell(fs, readFile)) != seekPos) { fprintf(stderr, "Failed to get current file position correctly! Got %ld!\n", currentPos); exit(-1); } fprintf(stderr, "Current position: %ld\n", currentPos); static char buffer[32]; tSize num_read_bytes = hdfsRead(fs, readFile, (void*)buffer, sizeof(buffer)); fprintf(stderr, "Read following %d bytes:\n%s\n", num_read_bytes, buffer); num_read_bytes = hdfsPread(fs, readFile, 0, (void*)buffer, sizeof(buffer)); fprintf(stderr, "Read following %d bytes:\n%s\n", num_read_bytes, buffer); hdfsCloseFile(fs, readFile); } int totalResult = 0; int result = 0; { //Generic file-system operations const char* srcPath = "/tmp/testfile.txt"; const char* dstPath = "/tmp/testfile2.txt"; fprintf(stderr, "hdfsCopy(remote-local): %s\n", ((result = hdfsCopy(fs, srcPath, lfs, srcPath)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsCopy(remote-remote): %s\n", ((result = hdfsCopy(fs, srcPath, fs, dstPath)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsMove(local-local): %s\n", ((result = hdfsMove(lfs, srcPath, lfs, dstPath)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsMove(remote-local): %s\n", ((result = hdfsMove(fs, srcPath, lfs, srcPath)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsRename: %s\n", ((result = hdfsRename(fs, dstPath, srcPath)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsCopy(remote-remote): %s\n", ((result = hdfsCopy(fs, srcPath, fs, dstPath)) ? "Failed!" : "Success!")); totalResult += result; const char* slashTmp = "/tmp"; const char* newDirectory = "/tmp/newdir"; fprintf(stderr, "hdfsCreateDirectory: %s\n", ((result = hdfsCreateDirectory(fs, newDirectory)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsSetReplication: %s\n", ((result = hdfsSetReplication(fs, srcPath, 2)) ? "Failed!" : "Success!")); totalResult += result; char buffer[256]; const char *resp; fprintf(stderr, "hdfsGetWorkingDirectory: %s\n", ((resp = hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer))) ? buffer : "Failed!")); totalResult += (resp ? 0 : 1); fprintf(stderr, "hdfsSetWorkingDirectory: %s\n", ((result = hdfsSetWorkingDirectory(fs, slashTmp)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsGetWorkingDirectory: %s\n", ((resp = hdfsGetWorkingDirectory(fs, buffer, sizeof(buffer))) ? buffer : "Failed!")); totalResult += (resp ? 0 : 1); fprintf(stderr, "hdfsGetDefaultBlockSize: %ld\n", hdfsGetDefaultBlockSize(fs)); fprintf(stderr, "hdfsGetCapacity: %ld\n", hdfsGetCapacity(fs)); fprintf(stderr, "hdfsGetUsed: %ld\n", hdfsGetUsed(fs)); hdfsFileInfo *fileInfo = NULL; if((fileInfo = hdfsGetPathInfo(fs, slashTmp)) != NULL) { fprintf(stderr, "hdfsGetPathInfo - SUCCESS!\n"); fprintf(stderr, "Name: %s, ", fileInfo->mName); fprintf(stderr, "Type: %c, ", (char)(fileInfo->mKind)); fprintf(stderr, "Replication: %d, ", fileInfo->mReplication); fprintf(stderr, "BlockSize: %ld, ", fileInfo->mBlockSize); fprintf(stderr, "Size: %ld, ", fileInfo->mSize); fprintf(stderr, "LastMod: %s", ctime(&fileInfo->mLastMod)); fprintf(stderr, "Owner: %s, ", fileInfo->mOwner); fprintf(stderr, "Group: %s, ", fileInfo->mGroup); char permissions[10]; permission_disp(fileInfo->mPermissions, permissions); fprintf(stderr, "Permissions: %d (%s)\n", fileInfo->mPermissions, permissions); hdfsFreeFileInfo(fileInfo, 1); } else { totalResult++; fprintf(stderr, "waah! hdfsGetPathInfo for %s - FAILED!\n", slashTmp); } hdfsFileInfo *fileList = 0; int numEntries = 0; if((fileList = hdfsListDirectory(fs, slashTmp, &numEntries)) != NULL) { int i = 0; for(i=0; i < numEntries; ++i) { fprintf(stderr, "Name: %s, ", fileList[i].mName); fprintf(stderr, "Type: %c, ", (char)fileList[i].mKind); fprintf(stderr, "Replication: %d, ", fileList[i].mReplication); fprintf(stderr, "BlockSize: %ld, ", fileList[i].mBlockSize); fprintf(stderr, "Size: %ld, ", fileList[i].mSize); fprintf(stderr, "LastMod: %s", ctime(&fileList[i].mLastMod)); fprintf(stderr, "Owner: %s, ", fileList[i].mOwner); fprintf(stderr, "Group: %s, ", fileList[i].mGroup); char permissions[10]; permission_disp(fileList[i].mPermissions, permissions); fprintf(stderr, "Permissions: %d (%s)\n", fileList[i].mPermissions, permissions); } hdfsFreeFileInfo(fileList, numEntries); } else { if (errno) { totalResult++; fprintf(stderr, "waah! hdfsListDirectory - FAILED!\n"); } else { fprintf(stderr, "Empty directory!\n"); } } char*** hosts = hdfsGetHosts(fs, srcPath, 0, 1); if(hosts) { fprintf(stderr, "hdfsGetHosts - SUCCESS! ... \n"); int i=0; while(hosts[i]) { int j = 0; while(hosts[i][j]) { fprintf(stderr, "\thosts[%d][%d] - %s\n", i, j, hosts[i][j]); ++j; } ++i; } } else { totalResult++; fprintf(stderr, "waah! hdfsGetHosts - FAILED!\n"); } char *newOwner = "root"; // setting tmp dir to 777 so later when connectAsUser nobody, we can write to it short newPerm = 0666; // chown write fprintf(stderr, "hdfsChown: %s\n", ((result = hdfsChown(fs, writePath, NULL, "users")) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsChown: %s\n", ((result = hdfsChown(fs, writePath, newOwner, NULL)) ? "Failed!" : "Success!")); totalResult += result; // chmod write fprintf(stderr, "hdfsChmod: %s\n", ((result = hdfsChmod(fs, writePath, newPerm)) ? "Failed!" : "Success!")); totalResult += result; sleep(2); tTime newMtime = time(NULL); tTime newAtime = time(NULL); // utime write fprintf(stderr, "hdfsUtime: %s\n", ((result = hdfsUtime(fs, writePath, newMtime, newAtime)) ? "Failed!" : "Success!")); totalResult += result; // chown/chmod/utime read hdfsFileInfo *finfo = hdfsGetPathInfo(fs, writePath); fprintf(stderr, "hdfsChown read: %s\n", ((result = (strcmp(finfo->mOwner, newOwner) != 0)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsChmod read: %s\n", ((result = (finfo->mPermissions != newPerm)) ? "Failed!" : "Success!")); totalResult += result; // will later use /tmp/ as a different user so enable it fprintf(stderr, "hdfsChmod: %s\n", ((result = hdfsChmod(fs, "/tmp/", 0777)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr,"newMTime=%ld\n",newMtime); fprintf(stderr,"curMTime=%ld\n",finfo->mLastMod); fprintf(stderr, "hdfsUtime read (mtime): %s\n", ((result = (finfo->mLastMod != newMtime)) ? "Failed!" : "Success!")); totalResult += result; // No easy way to turn on access times from hdfs_test right now // fprintf(stderr, "hdfsUtime read (atime): %s\n", ((result = (finfo->mLastAccess != newAtime)) ? "Failed!" : "Success!")); // totalResult += result; hdfsFreeFileInfo(finfo, 1); // Clean up fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(fs, newDirectory, 1)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(fs, srcPath, 1)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(lfs, srcPath, 1)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsDelete: %s\n", ((result = hdfsDelete(lfs, dstPath, 1)) ? "Failed!" : "Success!")); totalResult += result; fprintf(stderr, "hdfsExists: %s\n", ((result = hdfsExists(fs, newDirectory)) ? "Success!" : "Failed!")); totalResult += (result ? 0 : 1); } { // TEST APPENDS const char *writePath = "/tmp/appends"; // CREATE hdfsFile writeFile = hdfsOpenFile(fs, writePath, O_WRONLY, 0, 0, 0); if(!writeFile) { fprintf(stderr, "Failed to open %s for writing!\n", writePath); exit(-1); } fprintf(stderr, "Opened %s for writing successfully...\n", writePath); char* buffer = "Hello,"; tSize num_written_bytes = hdfsWrite(fs, writeFile, (void*)buffer, strlen(buffer)); fprintf(stderr, "Wrote %d bytes\n", num_written_bytes); if (hdfsFlush(fs, writeFile)) { fprintf(stderr, "Failed to 'flush' %s\n", writePath); exit(-1); } fprintf(stderr, "Flushed %s successfully!\n", writePath); hdfsCloseFile(fs, writeFile); // RE-OPEN writeFile = hdfsOpenFile(fs, writePath, O_WRONLY|O_APPEND, 0, 0, 0); if(!writeFile) { fprintf(stderr, "Failed to open %s for writing!\n", writePath); exit(-1); } fprintf(stderr, "Opened %s for writing successfully...\n", writePath); buffer = " World"; num_written_bytes = hdfsWrite(fs, writeFile, (void*)buffer, strlen(buffer) + 1); fprintf(stderr, "Wrote %d bytes\n", num_written_bytes); if (hdfsFlush(fs, writeFile)) { fprintf(stderr, "Failed to 'flush' %s\n", writePath); exit(-1); } fprintf(stderr, "Flushed %s successfully!\n", writePath); hdfsCloseFile(fs, writeFile); // CHECK size hdfsFileInfo *finfo = hdfsGetPathInfo(fs, writePath); fprintf(stderr, "fileinfo->mSize: == total %s\n", ((result = (finfo->mSize == strlen("Hello, World") + 1)) ? "Success!" : "Failed!")); totalResult += (result ? 0 : 1); // READ and check data hdfsFile readFile = hdfsOpenFile(fs, writePath, O_RDONLY, 0, 0, 0); if (!readFile) { fprintf(stderr, "Failed to open %s for reading!\n", writePath); exit(-1); } char rdbuffer[32]; tSize num_read_bytes = hdfsRead(fs, readFile, (void*)rdbuffer, sizeof(rdbuffer)); fprintf(stderr, "Read following %d bytes:\n%s\n", num_read_bytes, rdbuffer); fprintf(stderr, "read == Hello, World %s\n", (result = (strcmp(rdbuffer, "Hello, World") == 0)) ? "Success!" : "Failed!"); hdfsCloseFile(fs, readFile); // DONE test appends } totalResult += (hdfsDisconnect(fs) != 0); { // // Now test as connecting as a specific user // This is only meant to test that we connected as that user, not to test // the actual fs user capabilities. Thus just create a file and read // the owner is correct. const char *tuser = "nobody"; const char* writePath = "/tmp/usertestfile.txt"; fs = hdfsConnectAsUserNewInstance("default", 0, tuser); if(!fs) { fprintf(stderr, "Oops! Failed to connect to hdfs as user %s!\n",tuser); exit(-1); } hdfsFile writeFile = hdfsOpenFile(fs, writePath, O_WRONLY|O_CREAT, 0, 0, 0); if(!writeFile) { fprintf(stderr, "Failed to open %s for writing!\n", writePath); exit(-1); } fprintf(stderr, "Opened %s for writing successfully...\n", writePath); char* buffer = "Hello, World!"; tSize num_written_bytes = hdfsWrite(fs, writeFile, (void*)buffer, strlen(buffer)+1); fprintf(stderr, "Wrote %d bytes\n", num_written_bytes); if (hdfsFlush(fs, writeFile)) { fprintf(stderr, "Failed to 'flush' %s\n", writePath); exit(-1); } fprintf(stderr, "Flushed %s successfully!\n", writePath); hdfsCloseFile(fs, writeFile); hdfsFileInfo *finfo = hdfsGetPathInfo(fs, writePath); fprintf(stderr, "hdfs new file user is correct: %s\n", ((result = (strcmp(finfo->mOwner, tuser) != 0)) ? "Failed!" : "Success!")); totalResult += result; } totalResult += (hdfsDisconnect(fs) != 0); if (totalResult != 0) { return -1; } else { return 0; } } /** * vim: ts=4: sw=4: et: */