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#ifndef GDBSTUB_H
#define GDBSTUB_H
#define DEFAULT_GDBSTUB_PORT "1234"
/* GDB breakpoint/watchpoint types */
#define GDB_BREAKPOINT_SW 0
#define GDB_BREAKPOINT_HW 1
#define GDB_WATCHPOINT_WRITE 2
#define GDB_WATCHPOINT_READ 3
#define GDB_WATCHPOINT_ACCESS 4
#ifdef NEED_CPU_H
#include "cpu.h"
typedef void (*gdb_syscall_complete_cb)(CPUState *cpu,
target_ulong ret, target_ulong err);
/**
* gdb_do_syscall:
* @cb: function to call when the system call has completed
* @fmt: gdb syscall format string
* ...: list of arguments to interpolate into @fmt
*
* Send a GDB syscall request. This function will return immediately;
* the callback function will be called later when the remote system
* call has completed.
*
* @fmt should be in the 'call-id,parameter,parameter...' format documented
* for the F request packet in the GDB remote protocol. A limited set of
* printf-style format specifiers is supported:
* %x - target_ulong argument printed in hex
* %lx - 64-bit argument printed in hex
* %s - string pointer (target_ulong) and length (int) pair
*/
void gdb_do_syscall(gdb_syscall_complete_cb cb, const char *fmt, ...);
/**
* gdb_do_syscallv:
* @cb: function to call when the system call has completed
* @fmt: gdb syscall format string
* @va: arguments to interpolate into @fmt
*
* As gdb_do_syscall, but taking a va_list rather than a variable
* argument list.
*/
void gdb_do_syscallv(gdb_syscall_complete_cb cb, const char *fmt, va_list va);
int use_gdb_syscalls(void);
void gdb_set_stop_cpu(CPUState *cpu);
void gdb_exit(int);
#ifdef CONFIG_USER_ONLY
/**
* gdb_handlesig: yield control to gdb
* @cpu: CPU
* @sig: if non-zero, the signal number which caused us to stop
*
* This function yields control to gdb, when a user-mode-only target
* needs to stop execution. If @sig is non-zero, then we will send a
* stop packet to tell gdb that we have stopped because of this signal.
*
* This function will block (handling protocol requests from gdb)
* until gdb tells us to continue target execution. When it does
* return, the return value is a signal to deliver to the target,
* or 0 if no signal should be delivered, ie the signal that caused
* us to stop should be ignored.
*/
int gdb_handlesig(CPUState *, int);
void gdb_signalled(CPUArchState *, int);
void gdbserver_fork(CPUState *);
#endif
/* Get or set a register. Returns the size of the register. */
typedef int (*gdb_get_reg_cb)(CPUArchState *env, GByteArray *buf, int reg);
typedef int (*gdb_set_reg_cb)(CPUArchState *env, uint8_t *buf, int reg);
void gdb_register_coprocessor(CPUState *cpu,
gdb_get_reg_cb get_reg, gdb_set_reg_cb set_reg,
int num_regs, const char *xml, int g_pos);
/*
* The GDB remote protocol transfers values in target byte order. As
* the gdbstub may be batching up several register values we always
* append to the array.
*/
static inline int gdb_get_reg8(GByteArray *buf, uint8_t val)
{
g_byte_array_append(buf, &val, 1);
return 1;
}
static inline int gdb_get_reg16(GByteArray *buf, uint16_t val)
{
uint16_t to_word = tswap16(val);
g_byte_array_append(buf, (uint8_t *) &to_word, 2);
return 2;
}
static inline int gdb_get_reg32(GByteArray *buf, uint32_t val)
{
uint32_t to_long = tswap32(val);
g_byte_array_append(buf, (uint8_t *) &to_long, 4);
return 4;
}
static inline int gdb_get_reg64(GByteArray *buf, uint64_t val)
{
uint64_t to_quad = tswap64(val);
g_byte_array_append(buf, (uint8_t *) &to_quad, 8);
return 8;
}
static inline int gdb_get_reg128(GByteArray *buf, uint64_t val_hi,
uint64_t val_lo)
{
uint64_t to_quad;
#ifdef TARGET_WORDS_BIGENDIAN
to_quad = tswap64(val_hi);
g_byte_array_append(buf, (uint8_t *) &to_quad, 8);
to_quad = tswap64(val_lo);
g_byte_array_append(buf, (uint8_t *) &to_quad, 8);
#else
to_quad = tswap64(val_lo);
g_byte_array_append(buf, (uint8_t *) &to_quad, 8);
to_quad = tswap64(val_hi);
g_byte_array_append(buf, (uint8_t *) &to_quad, 8);
#endif
return 16;
}
static inline int gdb_get_float32(GByteArray *array, float32 val)
{
uint8_t buf[sizeof(CPU_FloatU)];
stfl_p(buf, val);
g_byte_array_append(array, buf, sizeof(buf));
return sizeof(buf);
}
static inline int gdb_get_float64(GByteArray *array, float64 val)
{
uint8_t buf[sizeof(CPU_DoubleU)];
stfq_p(buf, val);
g_byte_array_append(array, buf, sizeof(buf));
return sizeof(buf);
}
static inline int gdb_get_zeroes(GByteArray *array, size_t len)
{
guint oldlen = array->len;
g_byte_array_set_size(array, oldlen + len);
memset(array->data + oldlen, 0, len);
return len;
}
/**
* gdb_get_reg_ptr: get pointer to start of last element
* @len: length of element
*
* This is a helper function to extract the pointer to the last
* element for additional processing. Some front-ends do additional
* dynamic swapping of the elements based on CPU state.
*/
static inline uint8_t * gdb_get_reg_ptr(GByteArray *buf, int len)
{
return buf->data + buf->len - len;
}
#if TARGET_LONG_BITS == 64
#define gdb_get_regl(buf, val) gdb_get_reg64(buf, val)
#define ldtul_p(addr) ldq_p(addr)
#else
#define gdb_get_regl(buf, val) gdb_get_reg32(buf, val)
#define ldtul_p(addr) ldl_p(addr)
#endif
#endif
/**
* gdbserver_start: start the gdb server
* @port_or_device: connection spec for gdb
*
* For CONFIG_USER this is either a tcp port or a path to a fifo. For
* system emulation you can use a full chardev spec for your gdbserver
* port.
*/
int gdbserver_start(const char *port_or_device);
void gdbserver_cleanup(void);
/**
* gdb_has_xml:
* This is an ugly hack to cope with both new and old gdb.
* If gdb sends qXfer:features:read then assume we're talking to a newish
* gdb that understands target descriptions.
*/
extern bool gdb_has_xml;
/* in gdbstub-xml.c, generated by scripts/feature_to_c.sh */
extern const char *const xml_builtin[][2];
#endif
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