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b775a3799e
Updates #cleanup Change-Id: I7dbf8a02de22fc6b317ab5e29cc97792dd75352c Signed-off-by: Brad Fitzpatrick <bradfitz@tailscale.com>
487 lines
15 KiB
Go
487 lines
15 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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// Package distsign implements signature and validation of arbitrary
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// distributable files.
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//
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// There are 3 parties in this exchange:
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// - builder, which creates files, signs them with signing keys and publishes
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// to server
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// - server, which distributes public signing keys, files and signatures
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// - client, which downloads files and signatures from server, and validates
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// the signatures
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//
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// There are 2 types of keys:
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// - signing keys, that sign individual distributable files on the builder
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// - root keys, that sign signing keys and are kept offline
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//
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// root keys -(sign)-> signing keys -(sign)-> files
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//
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// All keys are asymmetric Ed25519 key pairs.
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//
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// The server serves static files under some known prefix. The kinds of files are:
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// - distsign.pub - bundle of PEM-encoded public signing keys
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// - distsign.pub.sig - signature of distsign.pub using one of the root keys
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// - $file - any distributable file
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// - $file.sig - signature of $file using any of the signing keys
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//
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// The root public keys are baked into the client software at compile time.
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// These keys are long-lived and prove the validity of current signing keys
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// from distsign.pub. To rotate root keys, a new client release must be
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// published, they are not rotated dynamically. There are multiple root keys in
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// different locations specifically to allow this rotation without using the
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// discarded root key for any new signatures.
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//
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// The signing public keys are fetched by the client dynamically before every
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// download and can be rotated more readily, assuming that most deployed
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// clients trust the root keys used to issue fresh signing keys.
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package distsign
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import (
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"context"
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"crypto/ed25519"
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"crypto/rand"
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"encoding/binary"
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"encoding/pem"
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"errors"
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"fmt"
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"hash"
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"io"
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"log"
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"net/http"
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"net/url"
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"os"
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"time"
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"github.com/hdevalence/ed25519consensus"
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"golang.org/x/crypto/blake2s"
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"tailscale.com/net/tshttpproxy"
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"tailscale.com/types/logger"
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"tailscale.com/util/httpm"
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"tailscale.com/util/must"
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)
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const (
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pemTypeRootPrivate = "ROOT PRIVATE KEY"
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pemTypeRootPublic = "ROOT PUBLIC KEY"
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pemTypeSigningPrivate = "SIGNING PRIVATE KEY"
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pemTypeSigningPublic = "SIGNING PUBLIC KEY"
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downloadSizeLimit = 1 << 29 // 512MB
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signingKeysSizeLimit = 1 << 20 // 1MB
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signatureSizeLimit = ed25519.SignatureSize
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)
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// RootKey is a root key used to sign signing keys.
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type RootKey struct {
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k ed25519.PrivateKey
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}
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// GenerateRootKey generates a new root key pair and encodes it as PEM.
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func GenerateRootKey() (priv, pub []byte, err error) {
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pub, priv, err = ed25519.GenerateKey(rand.Reader)
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if err != nil {
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return nil, nil, err
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}
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return pem.EncodeToMemory(&pem.Block{
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Type: pemTypeRootPrivate,
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Bytes: []byte(priv),
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}), pem.EncodeToMemory(&pem.Block{
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Type: pemTypeRootPublic,
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Bytes: []byte(pub),
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}), nil
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}
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// ParseRootKey parses the PEM-encoded private root key. The key must be in the
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// same format as returned by GenerateRootKey.
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func ParseRootKey(privKey []byte) (*RootKey, error) {
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k, err := parsePrivateKey(privKey, pemTypeRootPrivate)
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if err != nil {
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return nil, fmt.Errorf("failed to parse root key: %w", err)
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}
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return &RootKey{k: k}, nil
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}
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// SignSigningKeys signs the bundle of public signing keys. The bundle must be
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// a sequence of PEM blocks joined with newlines.
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func (r *RootKey) SignSigningKeys(pubBundle []byte) ([]byte, error) {
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if _, err := ParseSigningKeyBundle(pubBundle); err != nil {
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return nil, err
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}
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return ed25519.Sign(r.k, pubBundle), nil
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}
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// SigningKey is a signing key used to sign packages.
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type SigningKey struct {
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k ed25519.PrivateKey
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}
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// GenerateSigningKey generates a new signing key pair and encodes it as PEM.
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func GenerateSigningKey() (priv, pub []byte, err error) {
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pub, priv, err = ed25519.GenerateKey(rand.Reader)
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if err != nil {
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return nil, nil, err
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}
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return pem.EncodeToMemory(&pem.Block{
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Type: pemTypeSigningPrivate,
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Bytes: []byte(priv),
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}), pem.EncodeToMemory(&pem.Block{
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Type: pemTypeSigningPublic,
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Bytes: []byte(pub),
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}), nil
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}
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// ParseSigningKey parses the PEM-encoded private signing key. The key must be
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// in the same format as returned by GenerateSigningKey.
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func ParseSigningKey(privKey []byte) (*SigningKey, error) {
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k, err := parsePrivateKey(privKey, pemTypeSigningPrivate)
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if err != nil {
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return nil, fmt.Errorf("failed to parse root key: %w", err)
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}
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return &SigningKey{k: k}, nil
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}
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// SignPackageHash signs the hash and the length of a package. Use PackageHash
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// to compute the inputs.
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func (s *SigningKey) SignPackageHash(hash []byte, len int64) ([]byte, error) {
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if len <= 0 {
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return nil, fmt.Errorf("package length must be positive, got %d", len)
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}
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msg := binary.LittleEndian.AppendUint64(hash, uint64(len))
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return ed25519.Sign(s.k, msg), nil
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}
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// PackageHash is a hash.Hash that counts the number of bytes written. Use it
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// to get the hash and length inputs to SigningKey.SignPackageHash.
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type PackageHash struct {
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hash.Hash
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len int64
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}
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// NewPackageHash returns an initialized PackageHash using BLAKE2s.
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func NewPackageHash() *PackageHash {
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h, err := blake2s.New256(nil)
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if err != nil {
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// Should never happen with a nil key passed to blake2s.
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panic(err)
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}
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return &PackageHash{Hash: h}
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}
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func (ph *PackageHash) Write(b []byte) (int, error) {
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ph.len += int64(len(b))
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return ph.Hash.Write(b)
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}
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// Reset the PackageHash to its initial state.
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func (ph *PackageHash) Reset() {
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ph.len = 0
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ph.Hash.Reset()
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}
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// Len returns the total number of bytes written.
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func (ph *PackageHash) Len() int64 { return ph.len }
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// Client downloads and validates files from a distribution server.
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type Client struct {
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logf logger.Logf
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roots []ed25519.PublicKey
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pkgsAddr *url.URL
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}
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// NewClient returns a new client for distribution server located at pkgsAddr,
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// and uses embedded root keys from the roots/ subdirectory of this package.
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func NewClient(logf logger.Logf, pkgsAddr string) (*Client, error) {
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if logf == nil {
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logf = log.Printf
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}
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u, err := url.Parse(pkgsAddr)
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if err != nil {
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return nil, fmt.Errorf("invalid pkgsAddr %q: %w", pkgsAddr, err)
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}
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return &Client{logf: logf, roots: roots(), pkgsAddr: u}, nil
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}
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func (c *Client) url(path string) string {
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return c.pkgsAddr.JoinPath(path).String()
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}
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// Download fetches a file at path srcPath from pkgsAddr passed in NewClient.
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// The file is downloaded to dstPath and its signature is validated using the
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// embedded root keys. Download returns an error if anything goes wrong with
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// the actual file download or with signature validation.
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func (c *Client) Download(ctx context.Context, srcPath, dstPath string) error {
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// Always fetch a fresh signing key.
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sigPub, err := c.signingKeys()
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if err != nil {
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return err
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}
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srcURL := c.url(srcPath)
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sigURL := srcURL + ".sig"
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c.logf("Downloading %q", srcURL)
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dstPathUnverified := dstPath + ".unverified"
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hash, len, err := c.download(ctx, srcURL, dstPathUnverified, downloadSizeLimit)
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if err != nil {
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return err
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}
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c.logf("Downloading %q", sigURL)
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sig, err := fetch(sigURL, signatureSizeLimit)
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if err != nil {
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// Best-effort clean up of downloaded package.
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os.Remove(dstPathUnverified)
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return err
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}
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msg := binary.LittleEndian.AppendUint64(hash, uint64(len))
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if !VerifyAny(sigPub, msg, sig) {
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// Best-effort clean up of downloaded package.
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os.Remove(dstPathUnverified)
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return fmt.Errorf("signature %q for file %q does not validate with the current release signing key; either you are under attack, or attempting to download an old version of Tailscale which was signed with an older signing key", sigURL, srcURL)
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}
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c.logf("Signature OK")
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if err := os.Rename(dstPathUnverified, dstPath); err != nil {
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return fmt.Errorf("failed to move %q to %q after signature validation", dstPathUnverified, dstPath)
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}
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return nil
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}
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// ValidateLocalBinary fetches the latest signature associated with the binary
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// at srcURLPath and uses it to validate the file located on disk via
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// localFilePath. ValidateLocalBinary returns an error if anything goes wrong
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// with the signature download or with signature validation.
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func (c *Client) ValidateLocalBinary(srcURLPath, localFilePath string) error {
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// Always fetch a fresh signing key.
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sigPub, err := c.signingKeys()
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if err != nil {
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return err
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}
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srcURL := c.url(srcURLPath)
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sigURL := srcURL + ".sig"
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localFile, err := os.Open(localFilePath)
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if err != nil {
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return err
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}
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defer localFile.Close()
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h := NewPackageHash()
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_, err = io.Copy(h, localFile)
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if err != nil {
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return err
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}
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hash, hashLen := h.Sum(nil), h.Len()
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c.logf("Downloading %q", sigURL)
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sig, err := fetch(sigURL, signatureSizeLimit)
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if err != nil {
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return err
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}
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msg := binary.LittleEndian.AppendUint64(hash, uint64(hashLen))
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if !VerifyAny(sigPub, msg, sig) {
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return fmt.Errorf("signature %q for file %q does not validate with the current release signing key; either you are under attack, or attempting to download an old version of Tailscale which was signed with an older signing key", sigURL, localFilePath)
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}
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c.logf("Signature OK")
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return nil
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}
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// signingKeys fetches current signing keys from the server and validates them
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// against the roots. Should be called before validation of any downloaded file
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// to get the fresh keys.
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func (c *Client) signingKeys() ([]ed25519.PublicKey, error) {
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keyURL := c.url("distsign.pub")
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sigURL := keyURL + ".sig"
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raw, err := fetch(keyURL, signingKeysSizeLimit)
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if err != nil {
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return nil, err
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}
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sig, err := fetch(sigURL, signatureSizeLimit)
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if err != nil {
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return nil, err
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}
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if !VerifyAny(c.roots, raw, sig) {
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return nil, fmt.Errorf("signature %q for key %q does not validate with any known root key; either you are under attack, or running a very old version of Tailscale with outdated root keys", sigURL, keyURL)
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}
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keys, err := ParseSigningKeyBundle(raw)
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if err != nil {
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return nil, fmt.Errorf("cannot parse signing key bundle from %q: %w", keyURL, err)
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}
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return keys, nil
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}
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// fetch reads the response body from url into memory, up to limit bytes.
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func fetch(url string, limit int64) ([]byte, error) {
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resp, err := http.Get(url)
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if err != nil {
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return nil, err
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}
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defer resp.Body.Close()
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return io.ReadAll(io.LimitReader(resp.Body, limit))
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}
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// download writes the response body of url into a local file at dst, up to
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// limit bytes. On success, the returned value is a BLAKE2s hash of the file.
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func (c *Client) download(ctx context.Context, url, dst string, limit int64) ([]byte, int64, error) {
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tr := http.DefaultTransport.(*http.Transport).Clone()
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tr.Proxy = tshttpproxy.ProxyFromEnvironment
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defer tr.CloseIdleConnections()
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hc := &http.Client{Transport: tr}
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quickCtx, cancel := context.WithTimeout(ctx, 30*time.Second)
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defer cancel()
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headReq := must.Get(http.NewRequestWithContext(quickCtx, httpm.HEAD, url, nil))
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res, err := hc.Do(headReq)
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if err != nil {
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return nil, 0, err
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}
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if res.StatusCode != http.StatusOK {
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return nil, 0, fmt.Errorf("HEAD %q: %v", url, res.Status)
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}
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if res.ContentLength <= 0 {
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return nil, 0, fmt.Errorf("HEAD %q: unexpected Content-Length %v", url, res.ContentLength)
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}
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c.logf("Download size: %v", res.ContentLength)
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dlReq := must.Get(http.NewRequestWithContext(ctx, httpm.GET, url, nil))
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dlRes, err := hc.Do(dlReq)
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if err != nil {
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return nil, 0, err
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}
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defer dlRes.Body.Close()
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// TODO(bradfitz): resume from existing partial file on disk
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if dlRes.StatusCode != http.StatusOK {
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return nil, 0, fmt.Errorf("GET %q: %v", url, dlRes.Status)
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}
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of, err := os.Create(dst)
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if err != nil {
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return nil, 0, err
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}
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defer of.Close()
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pw := &progressWriter{total: res.ContentLength, logf: c.logf}
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h := NewPackageHash()
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n, err := io.Copy(io.MultiWriter(of, h, pw), io.LimitReader(dlRes.Body, limit))
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if err != nil {
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return nil, n, err
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}
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if n != res.ContentLength {
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return nil, n, fmt.Errorf("GET %q: downloaded %v, want %v", url, n, res.ContentLength)
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}
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if err := dlRes.Body.Close(); err != nil {
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return nil, n, err
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}
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if err := of.Close(); err != nil {
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return nil, n, err
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}
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pw.print()
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return h.Sum(nil), h.Len(), nil
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}
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type progressWriter struct {
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done int64
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total int64
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lastPrint time.Time
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logf logger.Logf
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}
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func (pw *progressWriter) Write(p []byte) (n int, err error) {
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pw.done += int64(len(p))
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if time.Since(pw.lastPrint) > 2*time.Second {
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pw.print()
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}
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return len(p), nil
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}
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func (pw *progressWriter) print() {
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pw.lastPrint = time.Now()
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pw.logf("Downloaded %v/%v (%.1f%%)", pw.done, pw.total, float64(pw.done)/float64(pw.total)*100)
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}
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func parsePrivateKey(data []byte, typeTag string) (ed25519.PrivateKey, error) {
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b, rest := pem.Decode(data)
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if b == nil {
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return nil, errors.New("failed to decode PEM data")
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}
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if len(rest) > 0 {
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return nil, errors.New("trailing PEM data")
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}
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if b.Type != typeTag {
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return nil, fmt.Errorf("PEM type is %q, want %q", b.Type, typeTag)
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}
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if len(b.Bytes) != ed25519.PrivateKeySize {
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return nil, errors.New("private key has incorrect length for an Ed25519 private key")
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}
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return ed25519.PrivateKey(b.Bytes), nil
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}
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// ParseSigningKeyBundle parses the bundle of PEM-encoded public signing keys.
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func ParseSigningKeyBundle(bundle []byte) ([]ed25519.PublicKey, error) {
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return parsePublicKeyBundle(bundle, pemTypeSigningPublic)
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}
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// ParseRootKeyBundle parses the bundle of PEM-encoded public root keys.
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func ParseRootKeyBundle(bundle []byte) ([]ed25519.PublicKey, error) {
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return parsePublicKeyBundle(bundle, pemTypeRootPublic)
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}
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func parsePublicKeyBundle(bundle []byte, typeTag string) ([]ed25519.PublicKey, error) {
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var keys []ed25519.PublicKey
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for len(bundle) > 0 {
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pub, rest, err := parsePublicKey(bundle, typeTag)
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if err != nil {
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return nil, err
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}
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keys = append(keys, pub)
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bundle = rest
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}
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if len(keys) == 0 {
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return nil, errors.New("no signing keys found in the bundle")
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}
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return keys, nil
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}
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func parseSinglePublicKey(data []byte, typeTag string) (ed25519.PublicKey, error) {
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pub, rest, err := parsePublicKey(data, typeTag)
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if err != nil {
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return nil, err
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}
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if len(rest) > 0 {
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return nil, errors.New("trailing PEM data")
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}
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return pub, err
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}
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func parsePublicKey(data []byte, typeTag string) (pub ed25519.PublicKey, rest []byte, retErr error) {
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b, rest := pem.Decode(data)
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if b == nil {
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return nil, nil, errors.New("failed to decode PEM data")
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}
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if b.Type != typeTag {
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return nil, nil, fmt.Errorf("PEM type is %q, want %q", b.Type, typeTag)
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}
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if len(b.Bytes) != ed25519.PublicKeySize {
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return nil, nil, errors.New("public key has incorrect length for an Ed25519 public key")
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}
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return ed25519.PublicKey(b.Bytes), rest, nil
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}
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// VerifyAny verifies whether sig is valid for msg using any of the keys.
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// VerifyAny will panic if any of the keys have the wrong size for Ed25519.
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func VerifyAny(keys []ed25519.PublicKey, msg, sig []byte) bool {
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for _, k := range keys {
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if ed25519consensus.Verify(k, msg, sig) {
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return true
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}
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}
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return false
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}
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