} etmv1_tracemode_t;
/* forward-declare ETM context */
-struct etm_context_s;
+struct etm;
typedef struct etm_capture_driver_s
{
char *name;
int (*register_commands)(struct command_context_s *cmd_ctx);
- int (*init)(struct etm_context_s *etm_ctx);
- trace_status_t (*status)(struct etm_context_s *etm_ctx);
- int (*read_trace)(struct etm_context_s *etm_ctx);
- int (*start_capture)(struct etm_context_s *etm_ctx);
- int (*stop_capture)(struct etm_context_s *etm_ctx);
+ int (*init)(struct etm *etm_ctx);
+ trace_status_t (*status)(struct etm *etm_ctx);
+ int (*read_trace)(struct etm *etm_ctx);
+ int (*start_capture)(struct etm *etm_ctx);
+ int (*stop_capture)(struct etm *etm_ctx);
} etm_capture_driver_t;
enum
* this will have to be split into version independent elements
* and a version specific part
*/
-typedef struct etm_context_s
+typedef struct etm
{
target_t *target; /* target this ETM is connected to */
reg_cache_t *reg_cache; /* ETM register cache */
bool data_half; /* port half on a 16 bit port */
bool pc_ok; /* full PC has been acquired */
bool ptr_ok; /* whether last_ptr is valid */
+ uint8_t bcd_vers; /* e.g. 0x13 == ETMv1.3 */
+ uint32_t config; /* cache of ETM_CONFIG value */
uint32_t current_pc; /* current program counter */
uint32_t last_branch; /* last branch address output */
uint32_t last_branch_reason; /* type of last branch encountered */
BR_RSVD7 = 0x7, /* reserved */
} etmv1_branch_reason_t;
-extern reg_cache_t* etm_build_reg_cache(target_t *target, arm_jtag_t *jtag_info, etm_context_t *etm_ctx);
-extern int etm_setup(target_t *target);
+reg_cache_t* etm_build_reg_cache(target_t *target,
+ arm_jtag_t *jtag_info, etm_context_t *etm_ctx);
+
+int etm_setup(target_t *target);
int etm_register_commands(struct command_context_s *cmd_ctx);