230 lines
7.5 KiB
Go
230 lines
7.5 KiB
Go
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// Copyright 2012 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package x509
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import (
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"errors"
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"syscall"
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"unsafe"
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)
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// Creates a new *syscall.CertContext representing the leaf certificate in an in-memory
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// certificate store containing itself and all of the intermediate certificates specified
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// in the opts.Intermediates CertPool.
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//
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// A pointer to the in-memory store is available in the returned CertContext's Store field.
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// The store is automatically freed when the CertContext is freed using
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// syscall.CertFreeCertificateContext.
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func createStoreContext(leaf *Certificate, opts *VerifyOptions) (*syscall.CertContext, error) {
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var storeCtx *syscall.CertContext
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leafCtx, err := syscall.CertCreateCertificateContext(syscall.X509_ASN_ENCODING|syscall.PKCS_7_ASN_ENCODING, &leaf.Raw[0], uint32(len(leaf.Raw)))
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if err != nil {
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return nil, err
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}
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defer syscall.CertFreeCertificateContext(leafCtx)
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handle, err := syscall.CertOpenStore(syscall.CERT_STORE_PROV_MEMORY, 0, 0, syscall.CERT_STORE_DEFER_CLOSE_UNTIL_LAST_FREE_FLAG, 0)
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if err != nil {
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return nil, err
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}
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defer syscall.CertCloseStore(handle, 0)
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err = syscall.CertAddCertificateContextToStore(handle, leafCtx, syscall.CERT_STORE_ADD_ALWAYS, &storeCtx)
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if err != nil {
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return nil, err
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}
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if opts.Intermediates != nil {
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for _, intermediate := range opts.Intermediates.certs {
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ctx, err := syscall.CertCreateCertificateContext(syscall.X509_ASN_ENCODING|syscall.PKCS_7_ASN_ENCODING, &intermediate.Raw[0], uint32(len(intermediate.Raw)))
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if err != nil {
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return nil, err
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}
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err = syscall.CertAddCertificateContextToStore(handle, ctx, syscall.CERT_STORE_ADD_ALWAYS, nil)
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syscall.CertFreeCertificateContext(ctx)
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if err != nil {
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return nil, err
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}
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}
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}
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return storeCtx, nil
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}
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// extractSimpleChain extracts the final certificate chain from a CertSimpleChain.
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func extractSimpleChain(simpleChain **syscall.CertSimpleChain, count int) (chain []*Certificate, err error) {
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if simpleChain == nil || count == 0 {
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return nil, errors.New("x509: invalid simple chain")
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}
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simpleChains := (*[1 << 20]*syscall.CertSimpleChain)(unsafe.Pointer(simpleChain))[:]
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lastChain := simpleChains[count-1]
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elements := (*[1 << 20]*syscall.CertChainElement)(unsafe.Pointer(lastChain.Elements))[:]
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for i := 0; i < int(lastChain.NumElements); i++ {
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// Copy the buf, since ParseCertificate does not create its own copy.
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cert := elements[i].CertContext
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encodedCert := (*[1 << 20]byte)(unsafe.Pointer(cert.EncodedCert))[:]
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buf := make([]byte, cert.Length)
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copy(buf, encodedCert[:])
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parsedCert, err := ParseCertificate(buf)
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if err != nil {
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return nil, err
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}
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chain = append(chain, parsedCert)
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}
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return chain, nil
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}
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// checkChainTrustStatus checks the trust status of the certificate chain, translating
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// any errors it finds into Go errors in the process.
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func checkChainTrustStatus(c *Certificate, chainCtx *syscall.CertChainContext) error {
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if chainCtx.TrustStatus.ErrorStatus != syscall.CERT_TRUST_NO_ERROR {
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status := chainCtx.TrustStatus.ErrorStatus
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switch status {
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case syscall.CERT_TRUST_IS_NOT_TIME_VALID:
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return CertificateInvalidError{c, Expired}
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default:
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return UnknownAuthorityError{c, nil, nil}
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}
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}
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return nil
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}
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// checkChainSSLServerPolicy checks that the certificate chain in chainCtx is valid for
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// use as a certificate chain for a SSL/TLS server.
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func checkChainSSLServerPolicy(c *Certificate, chainCtx *syscall.CertChainContext, opts *VerifyOptions) error {
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servernamep, err := syscall.UTF16PtrFromString(opts.DNSName)
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if err != nil {
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return err
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}
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sslPara := &syscall.SSLExtraCertChainPolicyPara{
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AuthType: syscall.AUTHTYPE_SERVER,
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ServerName: servernamep,
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}
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sslPara.Size = uint32(unsafe.Sizeof(*sslPara))
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para := &syscall.CertChainPolicyPara{
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ExtraPolicyPara: uintptr(unsafe.Pointer(sslPara)),
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}
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para.Size = uint32(unsafe.Sizeof(*para))
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status := syscall.CertChainPolicyStatus{}
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err = syscall.CertVerifyCertificateChainPolicy(syscall.CERT_CHAIN_POLICY_SSL, chainCtx, para, &status)
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if err != nil {
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return err
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}
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// TODO(mkrautz): use the lChainIndex and lElementIndex fields
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// of the CertChainPolicyStatus to provide proper context, instead
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// using c.
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if status.Error != 0 {
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switch status.Error {
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case syscall.CERT_E_EXPIRED:
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return CertificateInvalidError{c, Expired}
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case syscall.CERT_E_CN_NO_MATCH:
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return HostnameError{c, opts.DNSName}
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case syscall.CERT_E_UNTRUSTEDROOT:
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return UnknownAuthorityError{c, nil, nil}
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default:
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return UnknownAuthorityError{c, nil, nil}
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}
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}
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return nil
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}
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// systemVerify is like Verify, except that it uses CryptoAPI calls
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// to build certificate chains and verify them.
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func (c *Certificate) systemVerify(opts *VerifyOptions) (chains [][]*Certificate, err error) {
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hasDNSName := opts != nil && len(opts.DNSName) > 0
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storeCtx, err := createStoreContext(c, opts)
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if err != nil {
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return nil, err
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}
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defer syscall.CertFreeCertificateContext(storeCtx)
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para := new(syscall.CertChainPara)
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para.Size = uint32(unsafe.Sizeof(*para))
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// If there's a DNSName set in opts, assume we're verifying
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// a certificate from a TLS server.
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if hasDNSName {
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oids := []*byte{
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&syscall.OID_PKIX_KP_SERVER_AUTH[0],
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// Both IE and Chrome allow certificates with
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// Server Gated Crypto as well. Some certificates
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// in the wild require them.
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&syscall.OID_SERVER_GATED_CRYPTO[0],
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&syscall.OID_SGC_NETSCAPE[0],
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}
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para.RequestedUsage.Type = syscall.USAGE_MATCH_TYPE_OR
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para.RequestedUsage.Usage.Length = uint32(len(oids))
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para.RequestedUsage.Usage.UsageIdentifiers = &oids[0]
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} else {
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para.RequestedUsage.Type = syscall.USAGE_MATCH_TYPE_AND
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para.RequestedUsage.Usage.Length = 0
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para.RequestedUsage.Usage.UsageIdentifiers = nil
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}
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var verifyTime *syscall.Filetime
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if opts != nil && !opts.CurrentTime.IsZero() {
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ft := syscall.NsecToFiletime(opts.CurrentTime.UnixNano())
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verifyTime = &ft
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}
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// CertGetCertificateChain will traverse Windows's root stores
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// in an attempt to build a verified certificate chain. Once
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// it has found a verified chain, it stops. MSDN docs on
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// CERT_CHAIN_CONTEXT:
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//
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// When a CERT_CHAIN_CONTEXT is built, the first simple chain
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// begins with an end certificate and ends with a self-signed
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// certificate. If that self-signed certificate is not a root
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// or otherwise trusted certificate, an attempt is made to
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// build a new chain. CTLs are used to create the new chain
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// beginning with the self-signed certificate from the original
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// chain as the end certificate of the new chain. This process
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// continues building additional simple chains until the first
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// self-signed certificate is a trusted certificate or until
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// an additional simple chain cannot be built.
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//
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// The result is that we'll only get a single trusted chain to
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// return to our caller.
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var chainCtx *syscall.CertChainContext
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err = syscall.CertGetCertificateChain(syscall.Handle(0), storeCtx, verifyTime, storeCtx.Store, para, 0, 0, &chainCtx)
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if err != nil {
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return nil, err
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}
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defer syscall.CertFreeCertificateChain(chainCtx)
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err = checkChainTrustStatus(c, chainCtx)
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if err != nil {
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return nil, err
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}
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if hasDNSName {
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err = checkChainSSLServerPolicy(c, chainCtx, opts)
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if err != nil {
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return nil, err
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}
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}
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chain, err := extractSimpleChain(chainCtx.Chains, int(chainCtx.ChainCount))
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if err != nil {
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return nil, err
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}
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chains = append(chains, chain)
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return chains, nil
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}
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func initSystemRoots() {
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}
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