public void loadJobToRAM(PCB block) { int jobNo = block.getJobNumber(); int i = 0; int k; int m = PCBManager.getPCB(jobNo).getJobInstructionCount(); int dataCardSize = block.getInputBuffer() + block.getOutputBuffer() + block.getTemporaryBuffer(); int memory = PCBManager.getPCB(jobNo).getJobInstructionCount() + dataCardSize; int numPages = (int)Math.Ceiling((double)memory / (double)RAM.getPageSize()); int startAddress = block.getJobDiskAddress(); int currentDiskAddress = startAddress; int physPageNo; int virtualPageNo = RAM.getNextAvaliableVirtualPageNumber(); string[] chunk; List <int> virtualAllocatedPages = RAM.Allocate(numPages); if (virtualAllocatedPages.Capacity != 0) { Console.WriteLine(jobNo); PCBManager.getPCB(jobNo).setJobInMemory(true); PCBManager.getPCB(jobNo).setJobMemoryAddress(virtualPageNo * RAM.getPageSize()); PCBManager.getPCB(jobNo).setProcessStatus(PCB.PROCESS_STATUS.READY); PCBManager.getPCB(jobNo).setPagesNeeded(numPages); PCBManager.getPCB(jobNo).setAllocatedVirtualPages(virtualAllocatedPages); int n = RAM.getNextAvaliableVirtualPageNumber(); for (int j = 0; j < virtualAllocatedPages.Capacity; j++) { physPageNo = RAM.getPhysicalPageNumber(virtualAllocatedPages[j]); chunk = Disk.getChunk(currentDiskAddress, calculateChunkSize(block, currentDiskAddress)); try { RAM.fillPage(physPageNo, chunk); } catch (Exception e) { } currentDiskAddress += RAM.getPageSize(); } JobMetrics metrics = new JobMetrics(); metrics.setTimestamp(DateTimeOffset.Now.ToUnixTimeMilliseconds()); metrics.setJobNumber(jobNo); metrics.setStartWaitTime(metrics.getTimestamp()); metrics.setBlocksUsed(memory); Driver.jobMetricses[jobNo - 1].update(metrics); Driver.shortTermScheduler.addToReadyQueue(PCBManager.getPCB(jobNo)); } }
public static int getPhysicalPageNumber(int virtualPageNumber) { return(RAM.getPhysicalPageNumber(virtualPageNumber)); }