#pragma once
#include <mach/thread_status.h>
#include <sys/cdefs.h>
__BEGIN_DECLS
#if defined(__arm64__)
typedef arm_thread_state64_t __attribute__((aligned(16))) dbgwrap_thread_state_t;
#else
typedef arm_thread_state32_t dbgwrap_thread_state_t;
#endif
typedef enum {
DBGWRAP_ERR_SELF_HALT = -6,
DBGWRAP_ERR_UNSUPPORTED = -5,
DBGWRAP_ERR_INPROGRESS = -4,
DBGWRAP_ERR_INSTR_ERROR = -3,
DBGWRAP_ERR_INSTR_TIMEOUT = -2,
DBGWRAP_ERR_HALT_TIMEOUT = -1,
DBGWRAP_SUCCESS = 0,
DBGWRAP_WARN_ALREADY_HALTED,
DBGWRAP_WARN_CPU_OFFLINE
} dbgwrap_status_t;
static inline const char*
ml_dbgwrap_strerror(dbgwrap_status_t status)
{
switch (status) {
case DBGWRAP_ERR_SELF_HALT: return "CPU attempted to halt itself";
case DBGWRAP_ERR_UNSUPPORTED: return "halt not supported for this configuration";
case DBGWRAP_ERR_INPROGRESS: return "halt in progress on another CPU";
case DBGWRAP_ERR_INSTR_ERROR: return "instruction-stuffing failure";
case DBGWRAP_ERR_INSTR_TIMEOUT: return "instruction-stuffing timeout";
case DBGWRAP_ERR_HALT_TIMEOUT: return "halt ack timeout, CPU likely wedged";
case DBGWRAP_SUCCESS: return "halt succeeded";
case DBGWRAP_WARN_ALREADY_HALTED: return "CPU already halted";
case DBGWRAP_WARN_CPU_OFFLINE: return "CPU offline";
default: return "unrecognized status";
}
}
boolean_t ml_dbgwrap_cpu_is_halted(int cpu_index);
dbgwrap_status_t ml_dbgwrap_wait_cpu_halted(int cpu_index, uint64_t timeout_ns);
dbgwrap_status_t ml_dbgwrap_halt_cpu(int cpu_index, uint64_t timeout_ns);
dbgwrap_status_t ml_dbgwrap_halt_cpu_with_state(int cpu_index, uint64_t timeout_ns, dbgwrap_thread_state_t *state);
__END_DECLS