#include "TKN154.h"
#include "TKN154_PHY.h"
+#include "TKN154_platform.h"
/****************************************************
* IEEE 802.15.4 PAN information base identifiers
IEEE154_macMaxFrameTotalWaitTime = 0x58,
IEEE154_macMaxFrameRetries = 0x59,
IEEE154_macMinBE = 0x4F,
-// no identifier defined in standard
IEEE154_macMinLIFSPeriod = 0xA0,
-// no identifier defined in standard
IEEE154_macMinSIFSPeriod = 0xA1,
IEEE154_macPANId = 0x50,
IEEE154_macPromiscuousMode = 0x51,
IEEE154_macTimestampSupported = 0x5C,
IEEE154_macTransactionPersistenceTime = 0x55,
-// attributes not present in the standard PIB:
+ // custom attributes (not present in the standard PIB)
IEEE154_macPanCoordinator = 0xF0,
};
FC2_FRAME_VERSION_MASK = 0x30,
};
+/** some unique strings */
#define SYNC_POLL_CLIENT unique("PollP.client")
#define ASSOCIATE_POLL_CLIENT unique("PollP.client")
#define CAP_TX_CLIENT "CapQueueP.FrameTx.client"
INCOMING_SUPERFRAME,
};
+/****************************************************
+ * Default time-related constants for beacon-enabled PANs,
+ * these may be overridden by platform-specific constants.
+ * */
+
+#ifndef IEEE154_MAX_BEACON_JITTER
+ // will start to listen for a beacon MAX_BEACON_JITTER_TIME(BO) symbols
+ // before its expected arrival, where BO is the current beacon order
+ // (here --by default-- BO is ignored)
+ #define IEEE154_MAX_BEACON_JITTER(BO) 20
+#endif
+
+#ifndef IEEE154_MAX_BEACON_LISTEN_TIME
+ // maximum time to listen for a beacon after its expected arrival,
+ // before it is declared as missed
+ #define IEEE154_MAX_BEACON_LISTEN_TIME(BO) (128 * IEEE154_SYMBOLS_PER_OCTET + IEEE154_MAX_BEACON_JITTER(BO))
+#endif
+
typedef struct {
uint8_t length; // top bit denotes -> promiscuous mode
uint8_t mhr[MHR_MAX_LEN];
ieee154_header_t header;
ieee154_metadata_t metadata;
} ieee154_txcontrol_t;
-
+
typedef struct ieee154_csma {
uint8_t BE; // initial backoff exponent
uint8_t macMaxBE; // maximum backoff exponent
typedef struct {
ieee154_txframe_t *frame;
- ieee154_csma_t csmaParams;
+ ieee154_csma_t csma;
uint32_t transactionTime;
} ieee154_cap_frame_backup_t;
// PHY sublayer constants
IEEE154_aTurnaroundTime = 12,
- FRAMECTL_LENGTH_MASK = 0x7F, // "length" member in ieee154_frame_t
- FRAMECTL_PROMISCUOUS = 0x80, // "length" member in ieee154_frame_t
+ FRAMECTL_LENGTH_MASK = 0x7F, // "length" member in ieee154_header_t
+ FRAMECTL_PROMISCUOUS = 0x80, // "length" member in ieee154_header_t
};
#define IEEE154_SUPPORTED_CHANNELPAGE (IEEE154_SUPPORTED_CHANNELS >> 27)
IEEE154_aUnitBackoffPeriod = 20,
};
+#ifdef TKN154_DEBUG
+
+ /******************************************************************
+ * ATTENTION! Debugging over serial is a lot of overhead. To
+ * keep it simple, here are the rules you have to follow when
+ * using the dbg_serial() command:
+ *
+ * - dbg_serial() is used like dbg(), i.e. you pass it at least
+ * two strings, the first one describing the component/file,
+ * the second is a format string (like in printf())
+ * - following the second string, there may be zero up to
+ * two parameters -- these must be (cast to) uint32_t!
+ * - both strings must be constants (pointers always valid)
+ * - no data is sent over serial, unless dbg_serial_flush() is
+ * called; try to call it when the system is idle or at least
+ * when no time-critical operations are pending
+ * - on the PC use the printf java client to display the text
+ * (see tinyos-2.x/apps/tests/TestPrintf/README.txt)
+ *
+ * The ASSERT(X) macro is used to test for errors. If X evaluates
+ * to zero, then 3 leds start blinking simulataneously (about 2Hz)
+ * and the node *continuously* outputs over serial the filename+line
+ * where the (first) ASSERT has failed. This means, even if your
+ * TelosB was not attached to your PC while the ASSERT failed you
+ * can still pull the information out later.
+ *
+ * All dbg_serial() and ASSERT() statements are removed, if
+ * TKN154_DEBUG is not defined (which is the default).
+ **/
+
+ /* -> functions are defined in DebugP.nc */
+ void tkn154_assert(bool val, const char *filename, uint16_t line, const char *func);
+ void tkn154_dbg_serial(const char *filename, uint16_t line, ...);
+ void tkn154_dbg_serial_flush();
+ #define ASSERT(X) tkn154_assert(X, __FILE__,__LINE__,__FUNCTION__)
+ #define dbg_serial(m, ...) tkn154_dbg_serial(m, __LINE__,__VA_ARGS__)
+ #define dbg_serial_flush() tkn154_dbg_serial_flush()
+#else
+ #define ASSERT(X) if ((X)==0){}
+ #define dbg_serial(m, ...) dbg(m, __VA_ARGS__)
+ #define dbg_serial_flush()
+#endif
#endif // __TKN154_MAC_H