public ResourceLimit getResourceLimit() throws SigarException {return _sigar.getResourceLimit();}
private boolean hasAcceptableProcNumber() { try { long fileMax = sigar.getResourceLimit().getProcessesMax(); if (fileMax >= EXPECTED_NPROC || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max processes was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableFileLimits() { try { long fileMax = sigar.getResourceLimit().getOpenFilesMax(); if (fileMax >= EXPECTED_MIN_NOFILE || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max open file handle limit is correctly configured. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableProcNumber() { try { long fileMax = sigar.getResourceLimit().getProcessesMax(); if (fileMax >= EXPECTED_NPROC || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max processes was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableFileLimits() { try { long fileMax = sigar.getResourceLimit().getOpenFilesMax(); if (fileMax >= EXPECTED_MIN_NOFILE || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max open file handle limit is correctly configured. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableProcNumber() { try { long fileMax = sigar.getResourceLimit().getProcessesMax(); if (fileMax >= EXPECTED_NPROC || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max processes was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableProcNumber() { try { long fileMax = sigar.getResourceLimit().getProcessesMax(); if (fileMax >= EXPECTED_NPROC || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max processes was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableAddressSpace() { // Check is invalid on Windows if (FBUtilities.isWindows) return true; try { long fileMax = sigar.getResourceLimit().getVirtualMemoryMax(); if (fileMax == EXPECTED_AS) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if VirtualMemoryMax was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableFileLimits() { try { long fileMax = sigar.getResourceLimit().getOpenFilesMax(); if (fileMax >= EXPECTED_MIN_NOFILE || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max open file handle limit is correctly configured. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableFileLimits() { try { long fileMax = sigar.getResourceLimit().getOpenFilesMax(); if (fileMax >= EXPECTED_MIN_NOFILE || fileMax == INFINITY) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if max open file handle limit is correctly configured. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableAddressSpace() { // Check is invalid on Windows if (FBUtilities.isWindows) return true; try { long fileMax = sigar.getResourceLimit().getVirtualMemoryMax(); if (fileMax == EXPECTED_AS) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if VirtualMemoryMax was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableAddressSpace() { // Check is invalid on Windows if (FBUtilities.isWindows) return true; try { long fileMax = sigar.getResourceLimit().getVirtualMemoryMax(); if (fileMax == EXPECTED_AS) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if VirtualMemoryMax was acceptable. Error message: {}", sigarException); return false; } }
private boolean hasAcceptableAddressSpace() { // Check is invalid on Windows if (FBUtilities.isWindows) return true; try { long fileMax = sigar.getResourceLimit().getVirtualMemoryMax(); if (fileMax == EXPECTED_AS) { return true; } else { return false; } } catch (SigarException sigarException) { logger.warn("Could not determine if VirtualMemoryMax was acceptable. Error message: {}", sigarException); return false; } }
public Ulimit ulimit() { try { return Ulimit.fromSigarBean(sigar.getResourceLimit(), infinity); } catch (SigarException e) { return Ulimit.undef(); } }
sb.append("\nResource limits:" + format(sigar.getResourceLimit().toString(), "max", 1)); return sb;
sb.append( "\nResource limits:" + format( sigar.getResourceLimit().toString(), "max", 1 ) ); return sb;