1 /* SPDX-License-Identifier: GPL-2.0-or-later */
3 /***************************************************************************
4 * Copyright (C) 2005 by Dominic Rath *
5 * Dominic.Rath@gmx.de *
7 * Copyright (C) 2007,2008 Øyvind Harboe *
8 * oyvind.harboe@zylin.com *
10 * Copyright (C) 2009 Zachary T Welch *
11 * zw@superlucidity.net *
12 ***************************************************************************/
14 #ifndef OPENOCD_JTAG_INTERFACE_H
15 #define OPENOCD_JTAG_INTERFACE_H
17 #include <jtag/jtag.h>
18 #include <jtag/swim.h>
19 #include <target/arm_tpiu_swo.h>
22 * The "Cable Helper API" is what the cable drivers can use to help
23 * implement their "Cable API". So a Cable Helper API is a set of
24 * helper functions used by cable drivers, and this is different from a
25 * Cable API. A "Cable API" is what higher level code used to talk to a
30 /** implementation of wrapper function tap_set_state() */
31 void tap_set_state_impl(tap_state_t new_state
);
34 * This function sets the state of a "state follower" which tracks the
35 * state of the TAPs connected to the cable. The state follower is
36 * hopefully always in the same state as the actual TAPs in the jtag
37 * chain, and will be so if there are no bugs in the tracking logic
38 * within that cable driver.
40 * All the cable drivers call this function to indicate the state they
41 * think the TAPs attached to their cables are in. Because this
42 * function can also log transitions, it will be helpful to call this
43 * function with every transition that the TAPs being manipulated are
44 * expected to traverse, not just end points of a multi-step state path.
46 * @param new_state The state we think the TAPs are currently in (or
47 * are about to enter).
49 #define tap_set_state(new_state) \
51 LOG_DEBUG_IO("tap_set_state(%s)", tap_state_name(new_state)); \
52 tap_set_state_impl(new_state); \
56 * This function gets the state of the "state follower" which tracks the
57 * state of the TAPs connected to the cable. @see tap_set_state @return
58 * tap_state_t The state the TAPs are in now.
60 tap_state_t
tap_get_state(void);
63 * This function sets the state of an "end state follower" which tracks
64 * the state that any cable driver thinks will be the end (resultant)
65 * state of the current TAP SIR or SDR operation.
67 * At completion of that TAP operation this value is copied into the
68 * state follower via tap_set_state().
70 * @param new_end_state The state the TAPs should enter at completion of
71 * a pending TAP operation.
73 void tap_set_end_state(tap_state_t new_end_state
);
76 * For more information, @see tap_set_end_state
77 * @return tap_state_t - The state the TAPs should be in at completion of the current TAP operation.
79 tap_state_t
tap_get_end_state(void);
82 * This function provides a "bit sequence" indicating what has to be
83 * done with TMS during a sequence of seven TAP clock cycles in order to
84 * get from state \a "from" to state \a "to".
86 * The length of the sequence must be determined with a parallel call to
87 * tap_get_tms_path_len().
89 * @param from The starting state.
90 * @param to The desired final state.
91 * @return int The required TMS bit sequence, with the first bit in the
94 int tap_get_tms_path(tap_state_t from
, tap_state_t to
);
97 * Function int tap_get_tms_path_len
98 * returns the total number of bits that represents a TMS path
99 * transition as given by the function tap_get_tms_path().
101 * For at least one interface (JLink) it's not OK to simply "pad" TMS
102 * sequences to fit a whole byte. (I suspect this is a general TAP
103 * problem within OOCD.) Padding TMS causes all manner of instability
104 * that's not easily discovered. Using this routine we can apply
105 * EXACTLY the state transitions required to make something work - no
108 * @param from is the starting state
109 * @param to is the resultant or final state
110 * @return int - the total number of bits in a transition.
112 int tap_get_tms_path_len(tap_state_t from
, tap_state_t to
);
116 * Function tap_move_ndx
117 * when given a stable state, returns an index from 0-5. The index corresponds to a
118 * sequence of stable states which are given in this order: <p>
119 * { TAP_RESET, TAP_IDLE, TAP_DRSHIFT, TAP_DRPAUSE, TAP_IRSHIFT, TAP_IRPAUSE }
121 * This sequence corresponds to look up tables which are used in some of the
123 * @param astate is the stable state to find in the sequence. If a non stable
124 * state is passed, this may cause the program to output an error message
126 * @return int - the array (or sequence) index as described above
128 int tap_move_ndx(tap_state_t astate
);
131 * Function tap_is_state_stable
132 * returns true if the \a astate is stable.
134 bool tap_is_state_stable(tap_state_t astate
);
137 * Function tap_state_transition
138 * takes a current TAP state and returns the next state according to the tms value.
139 * @param current_state is the state of a TAP currently.
140 * @param tms is either zero or non-zero, just like a real TMS line in a jtag interface.
141 * @return tap_state_t - the next state a TAP would enter.
143 tap_state_t
tap_state_transition(tap_state_t current_state
, bool tms
);
145 /** Allow switching between old and new TMS tables. @see tap_get_tms_path */
146 void tap_use_new_tms_table(bool use_new
);
147 /** @returns True if new TMS table is active; false otherwise. */
148 bool tap_uses_new_tms_table(void);
152 * @brief Prints verbose TAP state transitions for the given TMS/TDI buffers.
153 * @param tms_buf must points to a buffer containing the TMS bitstream.
154 * @param tdi_buf must points to a buffer containing the TDI bitstream.
155 * @param tap_len must specify the length of the TMS/TDI bitstreams.
156 * @param start_tap_state must specify the current TAP state.
157 * @returns the final TAP state; pass as @a start_tap_state in following call.
159 static inline tap_state_t
jtag_debug_state_machine(const void *tms_buf
,
160 const void *tdi_buf
, unsigned tap_len
, tap_state_t start_tap_state
)
162 /* Private declaration */
163 tap_state_t
jtag_debug_state_machine_(const void *tms_buf
, const void *tdi_buf
,
164 unsigned tap_len
, tap_state_t start_tap_state
);
166 if (LOG_LEVEL_IS(LOG_LVL_DEBUG_IO
))
167 return jtag_debug_state_machine_(tms_buf
, tdi_buf
, tap_len
, start_tap_state
);
169 return start_tap_state
;
173 * Represents a driver for a debugging interface.
175 * @todo Rename; perhaps "debug_driver". This isn't an interface,
176 * it's a driver! Also, not all drivers support JTAG.
178 * @todo We need a per-instance structure too, and changes to pass
179 * that structure to the driver. Instances can for example be in
180 * either SWD or JTAG modes. This will help remove globals, and
181 * eventually to cope with systems which have more than one such
182 * debugging interface.
184 struct jtag_interface
{
186 * Bit vector listing capabilities exposed by this driver.
189 #define DEBUG_CAP_TMS_SEQ (1 << 0)
192 * Execute queued commands.
193 * @returns ERROR_OK on success, or an error code on failure.
195 int (*execute_queue
)(void);
199 * Represents a driver for a debugging interface
201 * @todo We need a per-instance structure too, and changes to pass
202 * that structure to the driver. Instances can for example be in
203 * either SWD or JTAG modes. This will help remove globals, and
204 * eventually to cope with systems which have more than one such
205 * debugging interface.
207 struct adapter_driver
{
208 /** The name of the interface driver. */
209 const char * const name
;
211 /** transports supported in C code (NULL terminated vector) */
212 const char * const *transports
;
215 * The interface driver may register additional commands to expose
216 * additional features not covered by the standard command set.
218 const struct command_registration
*commands
;
221 * Interface driver must initialize any resources and connect to a
224 * quit() is invoked if and only if init() succeeds. quit() is always
225 * invoked if init() succeeds. Same as malloc() + free(). Always
226 * invoke free() if malloc() succeeds and do not invoke free()
229 * @returns ERROR_OK on success, or an error code on failure.
234 * Interface driver must tear down all resources and disconnect from
237 * @returns ERROR_OK on success, or an error code on failure.
242 * Control (assert/deassert) the signals SRST and TRST on the interface.
243 * This function is synchronous and should be called after the adapter
244 * queue has been properly flushed.
245 * This function is optional.
246 * Adapters that don't support resets can either not define this function
247 * or return an error code.
248 * Adapters that don't support one of the two reset should ignore the
249 * request to assert the missing signal and eventually log an error.
251 * @param srst 1 to assert SRST, 0 to deassert SRST.
252 * @param trst 1 to assert TRST, 0 to deassert TRST.
253 * @returns ERROR_OK on success, or an error code on failure.
255 int (*reset
)(int srst
, int trst
);
258 * Set the interface speed.
259 * @param speed The new interface speed setting.
260 * @returns ERROR_OK on success, or an error code on failure.
262 int (*speed
)(int speed
);
265 * Returns JTAG maximum speed for KHz. 0 = RTCK. The function returns
266 * a failure if it can't support the KHz/RTCK.
268 * WARNING!!!! if RTCK is *slow* then think carefully about
269 * whether you actually want to support this in the driver.
270 * Many target scripts are written to handle the absence of RTCK
271 * and use a fallback kHz TCK.
272 * @returns ERROR_OK on success, or an error code on failure.
274 int (*khz
)(int khz
, int *jtag_speed
);
277 * Calculate the clock frequency (in KHz) for the given @a speed.
278 * @param speed The desired interface speed setting.
279 * @param khz On return, contains the speed in KHz (0 for RTCK).
280 * @returns ERROR_OK on success, or an error code if the
281 * interface cannot support the specified speed (KHz or RTCK).
283 int (*speed_div
)(int speed
, int *khz
);
286 * Read and clear the power dropout flag. Note that a power dropout
287 * can be transitionary, easily much less than a ms.
289 * To find out if the power is *currently* on, one must invoke this
290 * method twice. Once to clear the power dropout flag and a second
291 * time to read the current state. The default implementation
292 * never reports power dropouts.
294 * @returns ERROR_OK on success, or an error code on failure.
296 int (*power_dropout
)(int *power_dropout
);
299 * Read and clear the srst asserted detection flag.
301 * Like power_dropout this does *not* read the current
302 * state. SRST assertion is transitionary and may be much
303 * less than 1ms, so the interface driver must watch for these
304 * events until this routine is called.
306 * @param srst_asserted On return, indicates whether SRST has
308 * @returns ERROR_OK on success, or an error code on failure.
310 int (*srst_asserted
)(int *srst_asserted
);
313 * Configure trace parameters for the adapter
315 * @param enabled Whether to enable trace
316 * @param pin_protocol Configured pin protocol
317 * @param port_size Trace port width for sync mode
318 * @param trace_freq A pointer to the configured trace
319 * frequency; if it points to 0, the adapter driver must write
320 * its maximum supported rate there
321 * @param traceclkin_freq TRACECLKIN frequency provided to the TPIU in Hz
322 * @param prescaler Pointer to the SWO prescaler calculated by the
324 * @returns ERROR_OK on success, an error code on failure.
326 int (*config_trace
)(bool enabled
, enum tpiu_pin_protocol pin_protocol
,
327 uint32_t port_size
, unsigned int *trace_freq
,
328 unsigned int traceclkin_freq
, uint16_t *prescaler
);
331 * Poll for new trace data
333 * @param buf A pointer to buffer to store received data
334 * @param size A pointer to buffer size; must be filled with
335 * the actual amount of bytes written
337 * @returns ERROR_OK on success, an error code on failure.
339 int (*poll_trace
)(uint8_t *buf
, size_t *size
);
341 /** Low-level JTAG APIs */
342 struct jtag_interface
*jtag_ops
;
344 /** Low-level SWD APIs */
345 const struct swd_driver
*swd_ops
;
347 /* DAP APIs over JTAG transport */
348 const struct dap_ops
*dap_jtag_ops
;
350 /* DAP APIs over SWD transport */
351 const struct dap_ops
*dap_swd_ops
;
354 const struct swim_driver
*swim_ops
;
357 extern const char * const jtag_only
[];
359 int adapter_resets(int assert_trst
, int assert_srst
);
360 int adapter_assert_reset(void);
361 int adapter_deassert_reset(void);
362 int adapter_config_trace(bool enabled
, enum tpiu_pin_protocol pin_protocol
,
363 uint32_t port_size
, unsigned int *trace_freq
,
364 unsigned int traceclkin_freq
, uint16_t *prescaler
);
365 int adapter_poll_trace(uint8_t *buf
, size_t *size
);
367 #endif /* OPENOCD_JTAG_INTERFACE_H */