/*
* Copyright (C) 2012 The Android Open Source Project
*
* 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.
*/
#ifndef HDCP_API_H_
#define HDCP_API_H_
#include <utils/Errors.h>
#include <cutils/native_handle.h>
namespace android {
// Two different kinds of modules are covered under the same HDCPModule
// structure below, a module either implements decryption or encryption.
struct HDCPModule {
typedef void (*ObserverFunc)(void *cookie, int msg, int ext1, int ext2);
// The msg argument in calls to the observer notification function.
enum {
// Sent in response to a call to "HDCPModule::initAsync" once
// initialization has either been successfully completed,
// i.e. the HDCP session is now fully setup (AKE, Locality Check,
// SKE and any authentication with repeaters completed) or failed.
// ext1 should be a suitable error code (status_t), ext2 is
// unused for ENCRYPTION and in the case of HDCP_INITIALIZATION_COMPLETE
// holds the local TCP port the module is listening on.
HDCP_INITIALIZATION_COMPLETE,
HDCP_INITIALIZATION_FAILED,
// Sent upon completion of a call to "HDCPModule::shutdownAsync".
// ext1 should be a suitable error code, ext2 is unused.
HDCP_SHUTDOWN_COMPLETE,
HDCP_SHUTDOWN_FAILED,
HDCP_UNAUTHENTICATED_CONNECTION,
HDCP_UNAUTHORIZED_CONNECTION,
HDCP_REVOKED_CONNECTION,
HDCP_TOPOLOGY_EXECEEDED,
HDCP_UNKNOWN_ERROR,
// DECRYPTION only: Indicates that a client has successfully connected,
// a secure session established and the module is ready to accept
// future calls to "decrypt".
HDCP_SESSION_ESTABLISHED,
};
// HDCPModule capability bit masks
enum {
// HDCP_CAPS_ENCRYPT: mandatory, meaning the HDCP module can encrypt
// from an input byte-array buffer to an output byte-array buffer
HDCP_CAPS_ENCRYPT = (1 << 0),
// HDCP_CAPS_ENCRYPT_NATIVE: the HDCP module supports encryption from
// a native buffer to an output byte-array buffer. The format of the
// input native buffer is specific to vendor's encoder implementation.
// It is the same format as that used by the encoder when
// "storeMetaDataInBuffers" extension is enabled on its output port.
HDCP_CAPS_ENCRYPT_NATIVE = (1 << 1),
};
// Module can call the notification function to signal completion/failure
// of asynchronous operations (such as initialization) or out of band
// events.
HDCPModule(void * /*cookie*/, ObserverFunc /*observerNotify*/) {};
virtual ~HDCPModule() {};
// ENCRYPTION: Request to setup an HDCP session with the host specified
// by addr and listening on the specified port.
// DECRYPTION: Request to setup an HDCP session, addr is the interface
// address the module should bind its socket to. port will be 0.
// The module will pick the port to listen on itself and report its choice
// in the "ext2" argument of the HDCP_INITIALIZATION_COMPLETE callback.
virtual status_t initAsync(const char *addr, unsigned port) = 0;
// Request to shutdown the active HDCP session.
virtual status_t shutdownAsync() = 0;
// Returns the capability bitmask of this HDCP session.
virtual uint32_t getCaps() {
return HDCP_CAPS_ENCRYPT;
}
// ENCRYPTION only:
// Encrypt data according to the HDCP spec. "size" bytes of data are
// available at "inData" (virtual address), "size" may not be a multiple
// of 128 bits (16 bytes). An equal number of encrypted bytes should be
// written to the buffer at "outData" (virtual address).
// This operation is to be synchronous, i.e. this call does not return
// until outData contains size bytes of encrypted data.
// streamCTR will be assigned by the caller (to 0 for the first PES stream,
// 1 for the second and so on)
// inputCTR _will_be_maintained_by_the_callee_ for each PES stream.
virtual status_t encrypt(
const void * /*inData*/, size_t /*size*/, uint32_t /*streamCTR*/,
uint64_t * /*outInputCTR*/, void * /*outData*/) {
return INVALID_OPERATION;
}
// Encrypt data according to the HDCP spec. "size" bytes of data starting
// at location "offset" are available in "buffer" (buffer handle). "size"
// may not be a multiple of 128 bits (16 bytes). An equal number of
// encrypted bytes should be written to the buffer at "outData" (virtual
// address). This operation is to be synchronous, i.e. this call does not
// return until outData contains size bytes of encrypted data.
// streamCTR will be assigned by the caller (to 0 for the first PES stream,
// 1 for the second and so on)
// inputCTR _will_be_maintained_by_the_callee_ for each PES stream.
virtual status_t encryptNative(
buffer_handle_t /*buffer*/, size_t /*offset*/, size_t /*size*/,
uint32_t /*streamCTR*/, uint64_t * /*outInputCTR*/, void * /*outData*/) {
return INVALID_OPERATION;
}
// DECRYPTION only:
// Decrypt data according to the HDCP spec.
// "size" bytes of encrypted data are available at "inData"
// (virtual address), "size" may not be a multiple of 128 bits (16 bytes).
// An equal number of decrypted bytes should be written to the buffer
// at "outData" (virtual address).
// This operation is to be synchronous, i.e. this call does not return
// until outData contains size bytes of decrypted data.
// Both streamCTR and inputCTR will be provided by the caller.
virtual status_t decrypt(
const void * /*inData*/, size_t /*size*/,
uint32_t /*streamCTR*/, uint64_t /*inputCTR*/,
void * /*outData*/) {
return INVALID_OPERATION;
}
private:
HDCPModule(const HDCPModule &);
HDCPModule &operator=(const HDCPModule &);
};
} // namespace android
// A shared library exporting the following methods should be included to
// support HDCP functionality. The shared library must be called
// "libstagefright_hdcp.so", it will be dynamically loaded into the
// mediaserver process.
extern "C" {
// Create a module for ENCRYPTION.
extern android::HDCPModule *createHDCPModule(
void *cookie, android::HDCPModule::ObserverFunc);
// Create a module for DECRYPTION.
extern android::HDCPModule *createHDCPModuleForDecryption(
void *cookie, android::HDCPModule::ObserverFunc);
}
#endif // HDCP_API_H_