#include <cectypes.h>
#include "platform/threads.h"
#include "util/buffer.h"
+#include "util/StdString.h"
#include <string>
namespace CEC
{
- class CCECAdapterMessage
+ typedef enum cec_adapter_message_state
{
- public:
- CCECAdapterMessage(void) {}
- CCECAdapterMessage(const cec_command &command)
- {
- clear();
-
- //set ack polarity to high when transmitting to the broadcast address
- //set ack polarity low when transmitting to any other address
- push_back(MSGSTART);
- push_escaped(MSGCODE_TRANSMIT_ACK_POLARITY);
- if (command.destination == CECDEVICE_BROADCAST)
- push_escaped(CEC_TRUE);
- else
- push_escaped(CEC_FALSE);
- push_back(MSGEND);
-
- // add source and destination
- push_back(MSGSTART);
- push_escaped(MSGCODE_TRANSMIT);
- push_back(((uint8_t)command.initiator << 4) + (uint8_t)command.destination);
- push_back(MSGEND);
-
- // add opcode
- push_back(MSGSTART);
- push_escaped(command.parameters.empty() ? (uint8_t)MSGCODE_TRANSMIT_EOM : (uint8_t)MSGCODE_TRANSMIT);
- push_back((uint8_t) command.opcode);
- push_back(MSGEND);
-
- // add parameters
- for (int8_t iPtr = 0; iPtr < command.parameters.size; iPtr++)
- {
- push_back(MSGSTART);
+ ADAPTER_MESSAGE_STATE_UNKNOWN = 0,
+ ADAPTER_MESSAGE_STATE_WAITING,
+ ADAPTER_MESSAGE_STATE_SENT,
+ ADAPTER_MESSAGE_STATE_RECEIVED,
+ ADAPTER_MESSAGE_STATE_ERROR
+ } cec_adapter_message_state;
- if (iPtr == command.parameters.size - 1)
- push_escaped( MSGCODE_TRANSMIT_EOM);
- else
- push_escaped(MSGCODE_TRANSMIT);
- push_escaped(command.parameters[iPtr]);
-
- push_back(MSGEND);
- }
- }
-
- CCECAdapterMessage &operator =(const CCECAdapterMessage &msg)
- {
- packet = msg.packet;
- return *this;
- }
+ class CCECAdapterMessage
+ {
+ public:
+ CCECAdapterMessage(void) { clear(); }
+ CCECAdapterMessage(const cec_command &command);
+ CCECAdapterMessage &operator =(const CCECAdapterMessage &msg);
+ CStdString ToString(void) const;
+ CStdString MessageCodeAsString(void) const;
bool empty(void) const { return packet.empty(); }
uint8_t operator[](uint8_t pos) const { return packet[pos]; }
uint8_t at(uint8_t pos) const { return packet[pos]; }
uint8_t size(void) const { return packet.size; }
- void clear(void) { packet.clear(); }
+ void clear(void) { state = ADAPTER_MESSAGE_STATE_UNKNOWN; transmit_timeout = 0; packet.clear(); }
void shift(uint8_t iShiftBy) { packet.shift(iShiftBy); }
void push_back(uint8_t add) { packet.push_back(add); }
cec_adapter_messagecode message(void) const { return packet.size >= 1 ? (cec_adapter_messagecode) (packet.at(0) & ~(MSGCODE_FRAME_EOM | MSGCODE_FRAME_ACK)) : MSGCODE_NOTHING; }
bool ack(void) const { return packet.size >= 1 ? (packet.at(0) & MSGCODE_FRAME_ACK) != 0 : false; }
cec_logical_address initiator(void) const { return packet.size >= 2 ? (cec_logical_address) (packet.at(1) >> 4) : CECDEVICE_UNKNOWN; };
cec_logical_address destination(void) const { return packet.size >= 2 ? (cec_logical_address) (packet.at(1) & 0xF) : CECDEVICE_UNKNOWN; };
- void push_escaped(int16_t byte)
- {
- if (byte >= MSGESC && byte != MSGSTART)
- {
- push_back(MSGESC);
- push_back(byte - ESCOFFSET);
- }
- else
- push_back(byte);
- }
-
- cec_datapacket packet;
+ bool is_error(void) const;
+ void push_escaped(int16_t byte);
+
+ cec_datapacket packet;
+ cec_adapter_message_state state;
+ int32_t transmit_timeout;
+ CMutex mutex;
+ CCondition condition;
};
class CSerialPort;
bool Open(const char *strPort, uint16_t iBaudRate = 38400, uint32_t iTimeoutMs = 10000);
bool Read(CCECAdapterMessage &msg, uint32_t iTimeout = 1000);
- bool Write(const CCECAdapterMessage &frame);
+ bool Write(CCECAdapterMessage *data);
bool PingAdapter(void);
void Close(void);
bool IsOpen(void) const;
void *Process(void);
bool StartBootloader(void);
- bool SetAckMask(uint16_t iMask);
private:
void WriteNextCommand(void);
void AddData(uint8_t *data, uint8_t iLen);
bool ReadFromDevice(uint32_t iTimeout);
- CSerialPort * m_port;
- CLibCEC * m_controller;
- CecBuffer<uint8_t> m_inBuffer;
- CecBuffer<CCECAdapterMessage> m_outBuffer;
- CMutex m_bufferMutex;
- CCondition m_rcvCondition;
+ CSerialPort * m_port;
+ CLibCEC * m_controller;
+ CecBuffer<uint8_t> m_inBuffer;
+ CecBuffer<CCECAdapterMessage *> m_outBuffer;
+ CMutex m_mutex;
+ CCondition m_rcvCondition;
+ CCondition m_startCondition;
};
};