mirror of
https://github.com/ceph/ceph-csi.git
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f8faffac89
Signed-off-by: Marcel Lauhoff <marcel.lauhoff@suse.com>
294 lines
9.3 KiB
Go
294 lines
9.3 KiB
Go
/*
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* config.go - Actions for creating a new config file, which includes new
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* hashing costs and the config file's location.
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*
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* Copyright 2017 Google Inc.
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* Author: Joe Richey (joerichey@google.com)
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*
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* Licensed under the Apache License, Version 2.0 (the "License"); you may not
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* use this file except in compliance with the License. You may obtain a copy of
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* the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
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* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
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* License for the specific language governing permissions and limitations under
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* the License.
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*/
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package actions
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import (
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"bytes"
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"fmt"
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"log"
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"os"
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"runtime"
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"time"
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"golang.org/x/sys/unix"
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"github.com/google/fscrypt/crypto"
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"github.com/google/fscrypt/filesystem"
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"github.com/google/fscrypt/metadata"
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"github.com/google/fscrypt/util"
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)
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// ConfigFileLocation is the location of fscrypt's global settings. This can be
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// overridden by the user of this package.
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var ConfigFileLocation = "/etc/fscrypt.conf"
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// ErrBadConfig is an internal error that indicates that the config struct is invalid.
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type ErrBadConfig struct {
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Config *metadata.Config
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UnderlyingError error
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}
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func (err *ErrBadConfig) Error() string {
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return fmt.Sprintf(`internal error: config is invalid: %s
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The invalid config is %s`, err.UnderlyingError, err.Config)
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}
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// ErrBadConfigFile indicates that the config file is invalid.
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type ErrBadConfigFile struct {
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Path string
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UnderlyingError error
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}
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func (err *ErrBadConfigFile) Error() string {
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return fmt.Sprintf("%q is invalid: %s", err.Path, err.UnderlyingError)
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}
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// ErrConfigFileExists indicates that the config file already exists.
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type ErrConfigFileExists struct {
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Path string
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}
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func (err *ErrConfigFileExists) Error() string {
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return fmt.Sprintf("%q already exists", err.Path)
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}
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// ErrNoConfigFile indicates that the config file doesn't exist.
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type ErrNoConfigFile struct {
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Path string
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}
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func (err *ErrNoConfigFile) Error() string {
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return fmt.Sprintf("%q doesn't exist", err.Path)
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}
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const (
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// Permissions of the config file (global readable)
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configPermissions = 0644
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// Config file should be created for writing and not already exist
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createFlags = os.O_CREATE | os.O_WRONLY | os.O_EXCL
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// 128 MiB is a large enough amount of memory to make the password hash
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// very difficult to brute force on specialized hardware, but small
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// enough to work on most GNU/Linux systems.
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maxMemoryBytes = 128 * 1024 * 1024
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)
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var (
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timingPassphrase = []byte("I am a fake passphrase")
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timingSalt = bytes.Repeat([]byte{42}, metadata.SaltLen)
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)
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// CreateConfigFile creates a new config file at the appropriate location with
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// the appropriate hashing costs and encryption parameters. The hashing will be
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// configured to take as long as the specified time target. In addition, the
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// version of encryption policy to use may be overridden from the default of v1.
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func CreateConfigFile(target time.Duration, policyVersion int64) error {
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// Create the config file before computing the hashing costs, so we fail
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// immediately if the program has insufficient permissions.
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configFile, err := filesystem.OpenFileOverridingUmask(ConfigFileLocation,
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createFlags, configPermissions)
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switch {
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case os.IsExist(err):
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return &ErrConfigFileExists{ConfigFileLocation}
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case err != nil:
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return err
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}
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defer configFile.Close()
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config := &metadata.Config{
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Source: metadata.DefaultSource,
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Options: metadata.DefaultOptions,
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}
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if policyVersion != 0 {
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config.Options.PolicyVersion = policyVersion
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}
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if config.HashCosts, err = getHashingCosts(target); err != nil {
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return err
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}
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log.Printf("Creating config at %q with %v\n", ConfigFileLocation, config)
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return metadata.WriteConfig(config, configFile)
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}
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// getConfig returns the current configuration struct. Any fields not specified
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// in the config file use the system defaults. An error is returned if the
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// config file hasn't been setup with CreateConfigFile yet or the config
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// contains invalid data.
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func getConfig() (*metadata.Config, error) {
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configFile, err := os.Open(ConfigFileLocation)
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switch {
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case os.IsNotExist(err):
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return nil, &ErrNoConfigFile{ConfigFileLocation}
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case err != nil:
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return nil, err
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}
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defer configFile.Close()
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log.Printf("Reading config from %q\n", ConfigFileLocation)
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config, err := metadata.ReadConfig(configFile)
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if err != nil {
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return nil, &ErrBadConfigFile{ConfigFileLocation, err}
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}
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// Use system defaults if not specified
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if config.Source == metadata.SourceType_default {
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config.Source = metadata.DefaultSource
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log.Printf("Falling back to source of %q", config.Source.String())
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}
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if config.Options.Padding == 0 {
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config.Options.Padding = metadata.DefaultOptions.Padding
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log.Printf("Falling back to padding of %d", config.Options.Padding)
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}
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if config.Options.Contents == metadata.EncryptionOptions_default {
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config.Options.Contents = metadata.DefaultOptions.Contents
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log.Printf("Falling back to contents mode of %q", config.Options.Contents)
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}
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if config.Options.Filenames == metadata.EncryptionOptions_default {
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config.Options.Filenames = metadata.DefaultOptions.Filenames
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log.Printf("Falling back to filenames mode of %q", config.Options.Filenames)
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}
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if config.Options.PolicyVersion == 0 {
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config.Options.PolicyVersion = metadata.DefaultOptions.PolicyVersion
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log.Printf("Falling back to policy version of %d", config.Options.PolicyVersion)
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}
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if err := config.CheckValidity(); err != nil {
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return nil, &ErrBadConfigFile{ConfigFileLocation, err}
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}
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return config, nil
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}
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// getHashingCosts returns hashing costs so that hashing a password will take
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// approximately the target time. This is done using the total amount of RAM,
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// the number of CPUs present, and by running the passphrase hash many times.
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func getHashingCosts(target time.Duration) (*metadata.HashingCosts, error) {
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log.Printf("Finding hashing costs that take %v\n", target)
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// Start out with the minimal possible costs that use all the CPUs.
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nCPUs := int64(runtime.NumCPU())
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costs := &metadata.HashingCosts{
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Time: 1,
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Memory: 8 * nCPUs,
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Parallelism: nCPUs,
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}
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// If even the minimal costs are not fast enough, just return the
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// minimal costs and log a warning.
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t, err := timeHashingCosts(costs)
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if err != nil {
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return nil, err
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}
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log.Printf("Min Costs={%v}\t-> %v\n", costs, t)
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if t > target {
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log.Printf("time exceeded the target of %v.\n", target)
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return costs, nil
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}
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// Now we start doubling the costs until we reach the target.
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memoryKiBLimit := memoryBytesLimit() / 1024
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for {
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// Store a copy of the previous costs
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costsPrev := *costs
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tPrev := t
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// Double the memory up to the max, then double the time.
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if costs.Memory < memoryKiBLimit {
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costs.Memory = util.MinInt64(2*costs.Memory, memoryKiBLimit)
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} else {
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costs.Time *= 2
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}
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// If our hashing failed, return the last good set of costs.
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if t, err = timeHashingCosts(costs); err != nil {
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log.Printf("Hashing with costs={%v} failed: %v\n", costs, err)
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return &costsPrev, nil
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}
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log.Printf("Costs={%v}\t-> %v\n", costs, t)
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// If we have reached the target time, we return a set of costs
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// based on the linear interpolation between the last two times.
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if t >= target {
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f := float64(target-tPrev) / float64(t-tPrev)
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return &metadata.HashingCosts{
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Time: betweenCosts(costsPrev.Time, costs.Time, f),
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Memory: betweenCosts(costsPrev.Memory, costs.Memory, f),
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Parallelism: costs.Parallelism,
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}, nil
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}
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}
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}
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// memoryBytesLimit returns the maximum amount of memory we will use for
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// passphrase hashing. This will never be more than a reasonable maximum (for
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// compatibility) or an 8th the available system RAM.
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func memoryBytesLimit() int64 {
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// The sysinfo syscall only fails if given a bad address
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var info unix.Sysinfo_t
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err := unix.Sysinfo(&info)
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util.NeverError(err)
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totalRAMBytes := int64(info.Totalram)
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return util.MinInt64(totalRAMBytes/8, maxMemoryBytes)
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}
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// betweenCosts returns a cost between a and b. Specifically, it returns the
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// floor of a + f*(b-a). This way, f=0 returns a and f=1 returns b.
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func betweenCosts(a, b int64, f float64) int64 {
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return a + int64(f*float64(b-a))
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}
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// timeHashingCosts runs the passphrase hash with the specified costs and
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// returns the time it takes to hash the passphrase.
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func timeHashingCosts(costs *metadata.HashingCosts) (time.Duration, error) {
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passphrase, err := crypto.NewKeyFromReader(bytes.NewReader(timingPassphrase))
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if err != nil {
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return 0, err
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}
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defer passphrase.Wipe()
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// Be sure to measure CPU time, not wall time (time.Now)
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begin := cpuTimeInNanoseconds()
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hash, err := crypto.PassphraseHash(passphrase, timingSalt, costs)
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if err == nil {
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hash.Wipe()
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}
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end := cpuTimeInNanoseconds()
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// This uses a lot of memory, run the garbage collector
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runtime.GC()
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return time.Duration((end - begin) / costs.Parallelism), nil
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}
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// cpuTimeInNanoseconds returns the nanosecond count based on the process's CPU usage.
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// This number has no absolute meaning, only relative meaning to other calls.
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func cpuTimeInNanoseconds() int64 {
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var ts unix.Timespec
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err := unix.ClockGettime(unix.CLOCK_PROCESS_CPUTIME_ID, &ts)
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// ClockGettime fails if given a bad address or on a VERY old system.
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util.NeverError(err)
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return unix.TimespecToNsec(ts)
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}
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