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/*
* Copyright 2015, Mozilla Foundation and contributors
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "ClearKeyUtils.h"
#include <assert.h>
#include <ctype.h>
#include <memory.h>
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <algorithm>
#include <cctype>
#include <memory>
#include <sstream>
#include <vector>
#include "pk11pub.h"
#include "prerror.h"
#include "secmodt.h"
#include "ArrayUtils.h"
#include "BigEndian.h"
#include "ClearKeyBase64.h"
#include "mozilla/Sprintf.h"
#include "psshparser/PsshParser.h"
using namespace cdm;
using std::string;
using std::stringstream;
using std::vector;
struct DeleteHelper {
void operator()(PK11Context* value) { PK11_DestroyContext(value, true); }
void operator()(PK11SlotInfo* value) { PK11_FreeSlot(value); }
void operator()(PK11SymKey* value) { PK11_FreeSymKey(value); }
};
template <class T>
struct MaybeDeleteHelper {
void operator()(T* ptr) {
if (ptr) {
DeleteHelper del;
del(ptr);
}
}
};
void CK_Log(const char* aFmt, ...) {
FILE* out = stdout;
if (getenv("CLEARKEY_LOG_FILE")) {
out = fopen(getenv("CLEARKEY_LOG_FILE"), "a");
}
va_list ap;
va_start(ap, aFmt);
const size_t len = 1024;
char buf[len];
VsprintfLiteral(buf, aFmt, ap);
va_end(ap);
fprintf(out, "%s\n", buf);
fflush(out);
if (out != stdout) {
fclose(out);
}
}
static bool PrintableAsString(const uint8_t* aBytes, uint32_t aLength) {
return std::all_of(aBytes, aBytes + aLength,
[](uint8_t c) { return isprint(c) == 1; });
}
void CK_LogArray(const char* prepend, const uint8_t* aData,
const uint32_t aDataSize) {
// If the data is valid ascii, use that. Otherwise print the hex
string data = PrintableAsString(aData, aDataSize)
? string(aData, aData + aDataSize)
: ClearKeyUtils::ToHexString(aData, aDataSize);
CK_LOGD("%s%s", prepend, data.c_str());
}
/* static */
bool ClearKeyUtils::DecryptCbcs(const vector<uint8_t>& aKey,
const vector<uint8_t>& aIV,
mozilla::Span<uint8_t> aSubsample,
uint32_t aCryptByteBlock,
uint32_t aSkipByteBlock) {
assert(aKey.size() == CENC_KEY_LEN);
assert(aIV.size() == CENC_KEY_LEN);
assert(aCryptByteBlock <= 0xFF);
assert(aSkipByteBlock <= 0xFF);
std::unique_ptr<PK11SlotInfo, MaybeDeleteHelper<PK11SlotInfo>> slot(
PK11_GetInternalKeySlot());
if (!slot.get()) {
CK_LOGE("Failed to get internal PK11 slot");
return false;
}
SECItem keyItem = {siBuffer, (unsigned char*)&aKey[0], CENC_KEY_LEN};
SECItem ivItem = {siBuffer, (unsigned char*)&aIV[0], CENC_KEY_LEN};
std::unique_ptr<PK11SymKey, MaybeDeleteHelper<PK11SymKey>> key(
PK11_ImportSymKey(slot.get(), CKM_AES_CBC, PK11_OriginUnwrap, CKA_DECRYPT,
&keyItem, nullptr));
if (!key.get()) {
CK_LOGE("Failed to import sym key");
return false;
}
std::unique_ptr<PK11Context, MaybeDeleteHelper<PK11Context>> ctx(
PK11_CreateContextBySymKey(CKM_AES_CBC, CKA_DECRYPT, key.get(), &ivItem));
uint8_t* encryptedSubsample = &aSubsample[0];
const uint32_t BLOCK_SIZE = 16;
const uint32_t skipBytes = aSkipByteBlock * BLOCK_SIZE;
const uint32_t totalBlocks = aSubsample.Length() / BLOCK_SIZE;
uint32_t blocksProcessed = 0;
if (aSkipByteBlock == 0) {
// ISO/IEC 23001 - 7 Section 9.6.1
// 'When the fields default_crypt_byte_block and default_skip_byte_block in
// a version 1 Track Encryption Box('tenc') are non - zero numbers, pattern
// encryption SHALL be applied.'
// So if both are 0, then everything is encrypted. Similarly, if skip is 0
// and crypt is non-0, everything is encrypted.
// In this case we can just decrypt all the blocks in one call. This is the
// same outcome as decrypting them using smaller steps, as either way the
// CBC result should be the same.
MOZ_ASSERT(skipBytes == 0);
aCryptByteBlock = totalBlocks;
}
while (blocksProcessed < totalBlocks) {
uint32_t blocksToDecrypt = aCryptByteBlock <= totalBlocks - blocksProcessed
? aCryptByteBlock
: totalBlocks - blocksProcessed;
uint32_t bytesToDecrypt = blocksToDecrypt * BLOCK_SIZE;
int outLen;
SECStatus rv;
rv = PK11_CipherOp(ctx.get(), encryptedSubsample, &outLen, bytesToDecrypt,
encryptedSubsample, bytesToDecrypt);
if (rv != SECSuccess) {
CK_LOGE("PK11_CipherOp() failed");
return false;
}
encryptedSubsample += skipBytes + bytesToDecrypt;
blocksProcessed += aSkipByteBlock + blocksToDecrypt;
}
return true;
}
/* static */
bool ClearKeyUtils::DecryptAES(const vector<uint8_t>& aKey,
vector<uint8_t>& aData, vector<uint8_t>& aIV) {
assert(aIV.size() == CENC_KEY_LEN);
assert(aKey.size() == CENC_KEY_LEN);
PK11SlotInfo* slot = PK11_GetInternalKeySlot();
if (!slot) {
CK_LOGE("Failed to get internal PK11 slot");
return false;
}
SECItem keyItem = {siBuffer, (unsigned char*)&aKey[0], CENC_KEY_LEN};
PK11SymKey* key = PK11_ImportSymKey(slot, CKM_AES_CTR, PK11_OriginUnwrap,
CKA_ENCRYPT, &keyItem, nullptr);
PK11_FreeSlot(slot);
if (!key) {
CK_LOGE("Failed to import sym key");
return false;
}
CK_AES_CTR_PARAMS params;
params.ulCounterBits = 32;
memcpy(¶ms.cb, &aIV[0], CENC_KEY_LEN);
SECItem paramItem = {siBuffer, (unsigned char*)¶ms,
sizeof(CK_AES_CTR_PARAMS)};
unsigned int outLen = 0;
auto rv = PK11_Decrypt(key, CKM_AES_CTR, ¶mItem, &aData[0], &outLen,
aData.size(), &aData[0], aData.size());
aData.resize(outLen);
PK11_FreeSymKey(key);
if (rv != SECSuccess) {
CK_LOGE("PK11_Decrypt() failed");
return false;
}
return true;
}
/**
* ClearKey expects all Key IDs to be base64 encoded with non-standard alphabet
* and padding.
*/
static bool EncodeBase64Web(vector<uint8_t> aBinary, string& aEncoded) {
const char sAlphabet[] =
"ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_";
const uint8_t sMask = 0x3f;
aEncoded.resize((aBinary.size() * 8 + 5) / 6);
// Pad binary data in case there's rubbish past the last byte.
aBinary.push_back(0);
// Number of bytes not consumed in the previous character
uint32_t shift = 0;
auto out = aEncoded.begin();
auto data = aBinary.begin();
for (string::size_type i = 0; i < aEncoded.length(); i++) {
if (shift) {
out[i] = (*data << (6 - shift)) & sMask;
data++;
} else {
out[i] = 0;
}
out[i] += (*data >> (shift + 2)) & sMask;
shift = (shift + 2) % 8;
// Cast idx to size_t before using it as an array-index,
// to pacify clang 'Wchar-subscripts' warning:
size_t idx = static_cast<size_t>(out[i]);
// out of bounds index for 'sAlphabet'
assert(idx < MOZ_ARRAY_LENGTH(sAlphabet));
out[i] = sAlphabet[idx];
}
return true;
}
/* static */
void ClearKeyUtils::MakeKeyRequest(const vector<KeyId>& aKeyIDs,
string& aOutRequest,
SessionType aSessionType) {
assert(!aKeyIDs.empty() && aOutRequest.empty());
aOutRequest.append("{\"kids\":[");
for (size_t i = 0; i < aKeyIDs.size(); i++) {
if (i) {
aOutRequest.append(",");
}
aOutRequest.append("\"");
string base64key;
EncodeBase64Web(aKeyIDs[i], base64key);
aOutRequest.append(base64key);
aOutRequest.append("\"");
}
aOutRequest.append("],\"type\":");
aOutRequest.append("\"");
aOutRequest.append(SessionTypeToString(aSessionType));
aOutRequest.append("\"}");
}
#define EXPECT_SYMBOL(CTX, X) \
do { \
if (GetNextSymbol(CTX) != (X)) { \
CK_LOGE("Unexpected symbol in JWK parser"); \
return false; \
} \
} while (false)
struct ParserContext {
const uint8_t* mIter;
const uint8_t* mEnd;
};
static uint8_t PeekSymbol(ParserContext& aCtx) {
for (; aCtx.mIter < aCtx.mEnd; (aCtx.mIter)++) {
if (!isspace(*aCtx.mIter)) {
return *aCtx.mIter;
}
}
return 0;
}
static uint8_t GetNextSymbol(ParserContext& aCtx) {
uint8_t sym = PeekSymbol(aCtx);
aCtx.mIter++;
return sym;
}
static bool SkipToken(ParserContext& aCtx);
static bool SkipString(ParserContext& aCtx) {
EXPECT_SYMBOL(aCtx, '"');
for (uint8_t sym = GetNextSymbol(aCtx); sym; sym = GetNextSymbol(aCtx)) {
if (sym == '\\') {
sym = GetNextSymbol(aCtx);
if (!sym) {
return false;
}
} else if (sym == '"') {
return true;
}
}
return false;
}
/**
* Skip whole object and values it contains.
*/
static bool SkipObject(ParserContext& aCtx) {
EXPECT_SYMBOL(aCtx, '{');
if (PeekSymbol(aCtx) == '}') {
GetNextSymbol(aCtx);
return true;
}
while (true) {
if (!SkipString(aCtx)) return false;
EXPECT_SYMBOL(aCtx, ':');
if (!SkipToken(aCtx)) return false;
if (PeekSymbol(aCtx) == '}') {
GetNextSymbol(aCtx);
return true;
}
EXPECT_SYMBOL(aCtx, ',');
}
}
/**
* Skip array value and the values it contains.
*/
static bool SkipArray(ParserContext& aCtx) {
EXPECT_SYMBOL(aCtx, '[');
if (PeekSymbol(aCtx) == ']') {
GetNextSymbol(aCtx);
return true;
}
while (SkipToken(aCtx)) {
if (PeekSymbol(aCtx) == ']') {
GetNextSymbol(aCtx);
return true;
}
EXPECT_SYMBOL(aCtx, ',');
}
return false;
}
/**
* Skip unquoted literals like numbers, |true|, and |null|.
* (XXX and anything else that matches /([:alnum:]|[+-.])+/)
*/
static bool SkipLiteral(ParserContext& aCtx) {
for (; aCtx.mIter < aCtx.mEnd; aCtx.mIter++) {
if (!isalnum(*aCtx.mIter) && *aCtx.mIter != '.' && *aCtx.mIter != '-' &&
*aCtx.mIter != '+') {
return true;
}
}
return false;
}
static bool SkipToken(ParserContext& aCtx) {
uint8_t startSym = PeekSymbol(aCtx);
if (startSym == '"') {
CK_LOGD("JWK parser skipping string");
return SkipString(aCtx);
} else if (startSym == '{') {
CK_LOGD("JWK parser skipping object");
return SkipObject(aCtx);
} else if (startSym == '[') {
CK_LOGD("JWK parser skipping array");
return SkipArray(aCtx);
} else {
CK_LOGD("JWK parser skipping literal");
return SkipLiteral(aCtx);
}
}
static bool GetNextLabel(ParserContext& aCtx, string& aOutLabel) {
EXPECT_SYMBOL(aCtx, '"');
const uint8_t* start = aCtx.mIter;
for (uint8_t sym = GetNextSymbol(aCtx); sym; sym = GetNextSymbol(aCtx)) {
if (sym == '\\') {
GetNextSymbol(aCtx);
continue;
}
if (sym == '"') {
aOutLabel.assign(start, aCtx.mIter - 1);
return true;
}
}
return false;
}
static bool ParseKeyObject(ParserContext& aCtx, KeyIdPair& aOutKey) {
EXPECT_SYMBOL(aCtx, '{');
// Reject empty objects as invalid licenses.
if (PeekSymbol(aCtx) == '}') {
GetNextSymbol(aCtx);
return false;
}
string keyId;
string key;
while (true) {
string label;
string value;
if (!GetNextLabel(aCtx, label)) {
return false;
}
EXPECT_SYMBOL(aCtx, ':');
if (label == "kty") {
if (!GetNextLabel(aCtx, value)) return false;
// By spec, type must be "oct".
if (value != "oct") return false;
} else if (label == "k" && PeekSymbol(aCtx) == '"') {
// if this isn't a string we will fall through to the SkipToken() path.
if (!GetNextLabel(aCtx, key)) return false;
} else if (label == "kid" && PeekSymbol(aCtx) == '"') {
if (!GetNextLabel(aCtx, keyId)) return false;
} else {
if (!SkipToken(aCtx)) return false;
}
uint8_t sym = PeekSymbol(aCtx);
if (!sym || sym == '}') {
break;
}
EXPECT_SYMBOL(aCtx, ',');
}
return !key.empty() && !keyId.empty() &&
DecodeBase64(keyId, aOutKey.mKeyId) &&
DecodeBase64(key, aOutKey.mKey) && GetNextSymbol(aCtx) == '}';
}
static bool ParseKeys(ParserContext& aCtx, vector<KeyIdPair>& aOutKeys) {
// Consume start of array.
EXPECT_SYMBOL(aCtx, '[');
while (true) {
KeyIdPair key;
if (!ParseKeyObject(aCtx, key)) {
CK_LOGE("Failed to parse key object");
return false;
}
assert(!key.mKey.empty() && !key.mKeyId.empty());
aOutKeys.push_back(key);
uint8_t sym = PeekSymbol(aCtx);
if (!sym || sym == ']') {
break;
}
EXPECT_SYMBOL(aCtx, ',');
}
return GetNextSymbol(aCtx) == ']';
}
/* static */
bool ClearKeyUtils::ParseJWK(const uint8_t* aKeyData, uint32_t aKeyDataSize,
vector<KeyIdPair>& aOutKeys,
SessionType aSessionType) {
ParserContext ctx;
ctx.mIter = aKeyData;
ctx.mEnd = aKeyData + aKeyDataSize;
// Consume '{' from start of object.
EXPECT_SYMBOL(ctx, '{');
while (true) {
string label;
// Consume member key.
if (!GetNextLabel(ctx, label)) return false;
EXPECT_SYMBOL(ctx, ':');
if (label == "keys") {
// Parse "keys" array.
if (!ParseKeys(ctx, aOutKeys)) return false;
} else if (label == "type") {
// Consume type string.
string type;
if (!GetNextLabel(ctx, type)) return false;
if (type != SessionTypeToString(aSessionType)) {
return false;
}
} else {
SkipToken(ctx);
}
// Check for end of object.
if (PeekSymbol(ctx) == '}') {
break;
}
// Consume ',' between object members.
EXPECT_SYMBOL(ctx, ',');
}
// Consume '}' from end of object.
EXPECT_SYMBOL(ctx, '}');
return true;
}
static bool ParseKeyIds(ParserContext& aCtx, vector<KeyId>& aOutKeyIds) {
// Consume start of array.
EXPECT_SYMBOL(aCtx, '[');
while (true) {
string label;
vector<uint8_t> keyId;
if (!GetNextLabel(aCtx, label) || !DecodeBase64(label, keyId)) {
return false;
}
if (!keyId.empty() && keyId.size() <= kMaxKeyIdsLength) {
aOutKeyIds.push_back(keyId);
}
uint8_t sym = PeekSymbol(aCtx);
if (!sym || sym == ']') {
break;
}
EXPECT_SYMBOL(aCtx, ',');
}
return GetNextSymbol(aCtx) == ']';
}
/* static */
bool ClearKeyUtils::ParseKeyIdsInitData(const uint8_t* aInitData,
uint32_t aInitDataSize,
vector<KeyId>& aOutKeyIds) {
ParserContext ctx;
ctx.mIter = aInitData;
ctx.mEnd = aInitData + aInitDataSize;
// Consume '{' from start of object.
EXPECT_SYMBOL(ctx, '{');
while (true) {
string label;
// Consume member kids.
if (!GetNextLabel(ctx, label)) return false;
EXPECT_SYMBOL(ctx, ':');
if (label == "kids") {
// Parse "kids" array.
if (!ParseKeyIds(ctx, aOutKeyIds) || aOutKeyIds.empty()) {
return false;
}
} else {
SkipToken(ctx);
}
// Check for end of object.
if (PeekSymbol(ctx) == '}') {
break;
}
// Consume ',' between object members.
EXPECT_SYMBOL(ctx, ',');
}
// Consume '}' from end of object.
EXPECT_SYMBOL(ctx, '}');
return true;
}
/* static */ const char* ClearKeyUtils::SessionTypeToString(
SessionType aSessionType) {
switch (aSessionType) {
case SessionType::kTemporary:
return "temporary";
case SessionType::kPersistentLicense:
return "persistent-license";
default: {
// We don't support any other license types.
assert(false);
return "invalid";
}
}
}
/* static */
bool ClearKeyUtils::IsValidSessionId(const char* aBuff, uint32_t aLength) {
if (aLength > 10) {
// 10 is the max number of characters in UINT32_MAX when
// represented as a string; ClearKey session ids are integers.
return false;
}
for (uint32_t i = 0; i < aLength; i++) {
if (!isdigit(aBuff[i])) {
return false;
}
}
return true;
}
string ClearKeyUtils::ToHexString(const uint8_t* aBytes, uint32_t aLength) {
stringstream ss;
ss << std::showbase << std::uppercase << std::hex;
for (uint32_t i = 0; i < aLength; ++i) {
ss << std::hex << static_cast<uint32_t>(aBytes[i]);
ss << " ";
}
return ss.str();
}
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