naiveproxy/net/cert/test_root_certs_win.cc

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2018-08-11 08:35:24 +03:00
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/cert/test_root_certs.h"
#include <stdint.h>
#include "base/lazy_instance.h"
#include "base/logging.h"
#include "base/numerics/safe_conversions.h"
#include "base/win/win_util.h"
#include "net/cert/x509_certificate.h"
#include "third_party/boringssl/src/include/openssl/pool.h"
namespace net {
namespace {
// Provides a CertDllOpenStoreProv callback provider function, to be called
// by CertOpenStore when the CERT_STORE_PROV_SYSTEM_W store is opened. See
// http://msdn.microsoft.com/en-us/library/aa376043(VS.85).aspx.
BOOL WINAPI InterceptedOpenStoreW(LPCSTR store_provider,
DWORD encoding,
HCRYPTPROV crypt_provider,
DWORD flags,
const void* extra,
HCERTSTORE memory_store,
PCERT_STORE_PROV_INFO store_info);
// CryptoAPIInjector is used to inject a store provider function for system
// certificate stores before the one provided internally by Crypt32.dll.
// Once injected, there is no way to remove, so every call to open a system
// store will be redirected to the injected function.
struct CryptoAPIInjector {
// The previous default function for opening system stores. For most
// configurations, this should point to Crypt32's internal
// I_CertDllOpenSystemStoreProvW function.
PFN_CERT_DLL_OPEN_STORE_PROV_FUNC original_function;
// The handle that CryptoAPI uses to ensure the DLL implementing
// |original_function| remains loaded in memory.
HCRYPTOIDFUNCADDR original_handle;
private:
friend struct base::LazyInstanceTraitsBase<CryptoAPIInjector>;
CryptoAPIInjector()
: original_function(NULL),
original_handle(NULL) {
HCRYPTOIDFUNCSET registered_functions =
CryptInitOIDFunctionSet(CRYPT_OID_OPEN_STORE_PROV_FUNC, 0);
// Preserve the original handler function in |original_function|. If other
// functions are overridden, they will also need to be preserved.
BOOL ok = CryptGetOIDFunctionAddress(
registered_functions, 0, CERT_STORE_PROV_SYSTEM_W, 0,
reinterpret_cast<void**>(&original_function), &original_handle);
DCHECK(ok);
// For now, intercept only the numeric form of the system store
// function, CERT_STORE_PROV_SYSTEM_W (0x0A), which is what Crypt32
// functionality uses exclusively. Depending on the machine that tests
// are being run on, it may prove necessary to also intercept
// sz_CERT_STORE_PROV_SYSTEM_[A/W] and CERT_STORE_PROV_SYSTEM_A, based
// on whether or not any third-party CryptoAPI modules have been
// installed.
const CRYPT_OID_FUNC_ENTRY kFunctionToIntercept = {
CERT_STORE_PROV_SYSTEM_W,
reinterpret_cast<void*>(&InterceptedOpenStoreW)};
// Inject kFunctionToIntercept at the front of the linked list that
// crypt32 uses when CertOpenStore is called, replacing the existing
// registered function.
ok = CryptInstallOIDFunctionAddress(NULL, 0,
CRYPT_OID_OPEN_STORE_PROV_FUNC, 1,
&kFunctionToIntercept,
CRYPT_INSTALL_OID_FUNC_BEFORE_FLAG);
DCHECK(ok);
}
// This is never called, because this object is intentionally leaked.
// Certificate verification happens on a non-joinable worker thread, which
// may still be running when ~AtExitManager is called, so the LazyInstance
// must be leaky.
~CryptoAPIInjector() {
original_function = NULL;
CryptFreeOIDFunctionAddress(original_handle, NULL);
}
};
base::LazyInstance<CryptoAPIInjector>::Leaky
g_capi_injector = LAZY_INSTANCE_INITIALIZER;
BOOL WINAPI InterceptedOpenStoreW(LPCSTR store_provider,
DWORD encoding,
HCRYPTPROV crypt_provider,
DWORD flags,
const void* store_name,
HCERTSTORE memory_store,
PCERT_STORE_PROV_INFO store_info) {
// If the high word is all zeroes, then |store_provider| is a numeric ID.
// Otherwise, it's a pointer to a null-terminated ASCII string. See the
// documentation for CryptGetOIDFunctionAddress for more information.
uintptr_t store_as_uintptr = reinterpret_cast<uintptr_t>(store_provider);
if (store_as_uintptr > 0xFFFF || store_provider != CERT_STORE_PROV_SYSTEM_W ||
!g_capi_injector.Get().original_function)
return FALSE;
BOOL ok = g_capi_injector.Get().original_function(store_provider, encoding,
crypt_provider, flags,
store_name, memory_store,
store_info);
// Only the Root store should have certificates injected. If
// CERT_SYSTEM_STORE_RELOCATE_FLAG is set, then |store_name| points to a
// CERT_SYSTEM_STORE_RELOCATE_PARA structure, rather than a
// NULL-terminated wide string, so check before making a string
// comparison.
if (!ok || TestRootCerts::GetInstance()->IsEmpty() ||
(flags & CERT_SYSTEM_STORE_RELOCATE_FLAG) ||
lstrcmpiW(reinterpret_cast<LPCWSTR>(store_name), L"root"))
return ok;
// The result of CertOpenStore with CERT_STORE_PROV_SYSTEM_W is documented
// to be a collection store, and that appears to hold for |memory_store|.
// Attempting to add an individual certificate to |memory_store| causes
// the request to be forwarded to the first physical store in the
// collection that accepts modifications, which will cause a secure
// confirmation dialog to be displayed, confirming the user wishes to
// trust the certificate. However, appending a store to the collection
// will merely modify the temporary collection store, and will not persist
// any changes to the underlying physical store. When the |memory_store| is
// searched to see if a certificate is in the Root store, all the
// underlying stores in the collection will be searched, and any certificate
// in temporary_roots() will be found and seen as trusted.
return CertAddStoreToCollection(
memory_store, TestRootCerts::GetInstance()->temporary_roots(), 0, 0);
}
} // namespace
bool TestRootCerts::Add(X509Certificate* certificate) {
// Ensure that the default CryptoAPI functionality has been intercepted.
// If a test certificate is never added, then no interception should
// happen.
g_capi_injector.Get();
BOOL ok = CertAddEncodedCertificateToStore(
temporary_roots_, X509_ASN_ENCODING,
reinterpret_cast<const BYTE*>(
CRYPTO_BUFFER_data(certificate->cert_buffer())),
base::checked_cast<DWORD>(CRYPTO_BUFFER_len(certificate->cert_buffer())),
CERT_STORE_ADD_NEW, NULL);
if (!ok) {
// If the certificate is already added, return successfully.
return GetLastError() == static_cast<DWORD>(CRYPT_E_EXISTS);
}
empty_ = false;
return true;
}
void TestRootCerts::Clear() {
empty_ = true;
for (PCCERT_CONTEXT prev_cert =
CertEnumCertificatesInStore(temporary_roots_, NULL);
prev_cert;
prev_cert = CertEnumCertificatesInStore(temporary_roots_, NULL))
CertDeleteCertificateFromStore(prev_cert);
}
bool TestRootCerts::IsEmpty() const {
return empty_;
}
HCERTCHAINENGINE TestRootCerts::GetChainEngine() const {
if (IsEmpty())
return NULL; // Default chain engine will suffice.
// Windows versions before 8 don't accept the struct size for later versions.
// We report the size of the old struct since we don't need the new members.
static const DWORD kSizeofCertChainEngineConfig =
SIZEOF_STRUCT_WITH_SPECIFIED_LAST_MEMBER(CERT_CHAIN_ENGINE_CONFIG,
hExclusiveTrustedPeople);
// Each HCERTCHAINENGINE caches both the configured system stores and
// information about each chain that has been built. In order to ensure
// that changes to |temporary_roots_| are properly propagated and that the
// various caches are flushed, when at least one certificate is added,
// return a new chain engine for every call. Each chain engine creation
// should re-open the root store, ensuring the most recent changes are
// visible.
CERT_CHAIN_ENGINE_CONFIG engine_config = {
kSizeofCertChainEngineConfig
};
engine_config.dwFlags =
CERT_CHAIN_ENABLE_CACHE_AUTO_UPDATE |
CERT_CHAIN_ENABLE_SHARE_STORE;
HCERTCHAINENGINE chain_engine = NULL;
BOOL ok = CertCreateCertificateChainEngine(&engine_config, &chain_engine);
DCHECK(ok);
return chain_engine;
}
TestRootCerts::~TestRootCerts() {
CertCloseStore(temporary_roots_, 0);
}
void TestRootCerts::Init() {
empty_ = true;
temporary_roots_ = CertOpenStore(
CERT_STORE_PROV_MEMORY, 0, NULL,
CERT_STORE_DEFER_CLOSE_UNTIL_LAST_FREE_FLAG, NULL);
DCHECK(temporary_roots_);
}
} // namespace net