cemu-idapython/pywraps.hpp

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#ifndef __PYWRAPS_HPP__
#define __PYWRAPS_HPP__
//------------------------------------------------------------------------
// Types
#ifndef PYUL_DEFINED
#define PYUL_DEFINED
typedef unsigned PY_LONG_LONG PY_ULONG_LONG;
#ifdef __EA64__
typedef unsigned PY_LONG_LONG pyul_t;
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typedef PY_LONG_LONG pyl_t;
#else
typedef unsigned long pyul_t;
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typedef long pyl_t;
#endif
#endif
#ifdef __EA64__
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#define PY_FMT64 "K"
#define PY_SFMT64 "L"
#else
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#define PY_FMT64 "k"
#define PY_SFMT64 "l"
#endif
//------------------------------------------------------------------------
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#define S_IDAAPI_MODNAME "idaapi"
#define S_IDC_MODNAME "idc"
#define S_IDAAPI_EXECSCRIPT "IDAPython_ExecScript"
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#define S_IDAAPI_COMPLETION "IDAPython_Completion"
#define S_IDAAPI_FORMATEXC "IDAPython_FormatExc"
#define S_IDAAPI_LOADPROCMOD "IDAPython_LoadProcMod"
#define S_IDAAPI_UNLOADPROCMOD "IDAPython_UnLoadProcMod"
//------------------------------------------------------------------------
// PyIdc conversion object IDs
#define PY_ICID_INT64 0
#define PY_ICID_BYREF 1
#define PY_ICID_OPAQUE 2
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//------------------------------------------------------------------------
// Constants used with the notify_when()
#define NW_OPENIDB 0x0001
#define NW_OPENIDB_SLOT 0
#define NW_CLOSEIDB 0x0002
#define NW_CLOSEIDB_SLOT 1
#define NW_INITIDA 0x0004
#define NW_INITIDA_SLOT 2
#define NW_TERMIDA 0x0008
#define NW_TERMIDA_SLOT 3
#define NW_REMOVE 0x0010 // Uninstall flag
#define NW_EVENTSCNT 4 // Count of notify_when codes
//------------------------------------------------------------------------
// Constants used by the pyvar_to_idcvar and idcvar_to_pyvar functions
#define CIP_FAILED -1 // Conversion error
#define CIP_IMMUTABLE 0 // Immutable object passed. Will not update the object but no error occured
#define CIP_OK 1 // Success
#define CIP_OK_OPAQUE 2 // Success, but the data pointed to by the PyObject* is an opaque object.
//---------------------------------------------------------------------------
class gil_lock_t
{
private:
PyGILState_STATE state;
public:
gil_lock_t()
{
state = PyGILState_Ensure();
}
~gil_lock_t()
{
PyGILState_Release(state);
}
};
// Declare a variable to acquire/release the GIL
#define PYW_GIL_GET gil_lock_t lock;
#define GIL_CHKCONDFAIL (((debug & IDA_DEBUG_PLUGIN) == IDA_DEBUG_PLUGIN) \
&& PyGILState_GetThisThreadState() != _PyThreadState_Current)
#define PYW_GIL_CHECK_LOCKED_SCOPE() \
do \
{ \
if ( GIL_CHKCONDFAIL ) \
{ \
msg("*** WARNING: Code at %s:%d should have the GIL, but apparently doesn't ***\n", \
__FILE__, __LINE__); \
if ( under_debugger ) \
BPT; \
} \
} while ( false )
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//-------------------------------------------------------------------------
struct exc_report_t
{
~exc_report_t()
{
if ( PyErr_Occurred() )
PyErr_Print();
}
};
#define PYW_GIL_GET_AND_REPORT_ERROR PYW_GIL_GET; exc_report_t exc;
//------------------------------------------------------------------------
// All the exported functions from PyWraps are forward declared here
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insn_t *insn_t_get_clink(PyObject *self);
op_t *op_t_get_clink(PyObject *self);
//-------------------------------------------------------------------------
// The base for a reference. Will automatically increase the reference
// counter for the object when it is assigned from another ref_t,
// and decrease the reference counter when destroyed.
// This is meant to be used whenever possible, in order to prevent
// situations where, e.g., a given code path is taken and we return from
// a function without first decreasing the reference counter.
//
// Note: You should never, ever have to Py_[INCREF|DECREF] the 'o' object yourself.
// Note: These simple ref_t cannot be created with a PyObject* directly
// (that would be the role of 'newref_t'/'borref_t' below.)
// In other words: simple 'ref_t' instances are never created from the
// result of calling the CPython API. They are only used when in
// idapython land.
// In yet other words: the CPython API only deals in terms of
// 'New references' and 'Borrowed references'. Those are implemented,
// respectively, by the 'newref_t' and 'borref_t' classes below.
// This 'ref_t' is only used for internal handling.
struct ref_t
{
PyObject *o;
ref_t() : o(NULL) {}
ref_t(const ref_t &other) : o(other.o) { incref(); }
~ref_t() { decref(); }
ref_t &operator=(const ref_t &other)
{
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// We *must* first (possibly) set & incref the other object,
// because decref() might call the Python's deallocator, which
// might have side-effects, that might affect this ref_t
// instance.
// If that's too many 'might' to your taste, let me illustrate.
//
// py_plgform.hpp's 'plgform_t' holds a 'ref_t' instance, named 'py_obj'.
// If the actual, Qt widget wrapped by that plgform_t gets destroyed,
// plgform_t::unhook() will be called, which will assign an
// empty ref_t instance to its 'py_obj'.
// That will decrement the refcount, and might call the deallocator:
// the plgform_t::destroy static function.
// That function will 'delete' the plgform_t object.
// But, in the ~plgform_t() destructor, the 'py_obj' object will be
// destroyed too: decreasing once again the refcnt (which now falls to -1).
// At this point, all hell breaks loose (or is allowed to).
PyObject *was = o;
o = other.o;
incref();
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if ( was != NULL )
Py_DECREF(was);
return *this;
}
void incref() const { if ( o != NULL ) Py_INCREF(o); }
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void decref() const { if ( o != NULL ) { QASSERT(30469, o->ob_refcnt > 0); Py_DECREF(o); } }
bool operator==(PyObject *other) const { return o == other; }
bool operator!=(PyObject *other) const { return ! ((*this) == other); }
bool operator==(const ref_t &other) const { return o == other.o; }
bool operator!=(const ref_t &other) const { return ! ((*this) == other); }
};
//-------------------------------------------------------------------------
// A 'new' reference. Typically used when the CPython implementation returns
// a PyObject* whose refcnt was already increased, and that the caller is
// responsible for releasing.
//
// This implements the 'New reference' idea at http://docs.python.org/2/c-api/intro.html:
// ---
// "When a function passes ownership of a reference on to its caller,
// the caller is said to receive a new reference"
// ---
// E.g., from "PyObject_GetAttrString"'s doc:
// ---
// "Return value: New reference.
// Retrieve an attribute named attr_name from object o[...]"
// ---
struct newref_t : public ref_t
{
newref_t(); // No.
newref_t(const newref_t &other); // No.
newref_t &operator=(const newref_t &other); // No.
newref_t(PyObject *_o)
{
#ifdef _DEBUG
QASSERT(30409, _o == NULL || _o->ob_refcnt >= 1);
#endif
o = _o;
}
};
//-------------------------------------------------------------------------
// A 'borrowed' reference. Typically used when the CPython implementation returns
// a PyObject* whose ownership is _not_ transferred to the caller.
// Therefore, and since the caller wants to make sure the object is not
// released while it is using it, it must first increase the reference count,
// and then decrease it.
//
// This is similar to the simpler 'ref_t' in that it first increases, and then
// decreases the reference count. The difference is that 'borref_t' instances
// can be created with a PyObject*, while 'ref_t' instances cannot (by design).
//
// This implements the 'Borrowed reference' idea at http://docs.python.org/2/c-api/intro.html:
// ---
// "When no ownership is transferred, the caller is said to borrow the reference.
// Nothing needs to be done for a borrowed reference."
// ---
struct borref_t : public ref_t
{
borref_t(); // No.
borref_t(const newref_t &other); // No.
borref_t &operator=(const newref_t &other); // No.
borref_t(PyObject *_o)
{
o = _o;
incref(); // ~ref_t() will decref(), so we need to incref.
}
};
//------------------------------------------------------------------------
// Vector of ref_t
struct ref_vec_t : public qvector<ref_t>
{
void to_pyobject_pointers(qvector<PyObject*> *out)
{
size_t n = size();
out->resize(n);
for ( size_t i = 0; i < n; ++i )
out->at(i) = at(i).o;
}
};
// Returns a new reference to a class
// Return value: New reference.
ref_t get_idaapi_attr(const char *attr);
// Returns a new reference to a class by its ID
// Return value: New reference.
ref_t get_idaapi_attr_by_id(const int class_id);
// Tries to import a module and swallows the exception if it fails and returns NULL
// Return value: New reference.
ref_t PyW_TryImportModule(const char *name);
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// Tries to get an attribute and swallows the exception if it fails and returns NULL
ref_t PyW_TryGetAttrString(PyObject *py_var, const char *attr);
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// Returns the linked object (void *) from a PyObject
void *pyobj_get_clink(PyObject *pyobj);
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// Converts a Python number (LONGLONG or normal integer) to an IDC variable (VT_LONG or VT_INT64)
bool PyW_GetNumberAsIDC(PyObject *py_var, idc_value_t *idc_var);
// Returns a qstring from a Python attribute string
bool PyW_GetStringAttr(
PyObject *py_obj,
const char *attr_name,
qstring *str);
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// Converts a Python number to an uint64 and indicates whether the number was a long number
bool PyW_GetNumber(PyObject *py_var, uint64 *num, bool *is_64 = NULL);
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// Checks if an Python object can be treated like a sequence
bool PyW_IsSequenceType(PyObject *obj);
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// Returns an error string from the last exception (and clears it)
bool PyW_GetError(qstring *out = NULL, bool clear_err = true);
bool PyW_GetError(char *buf, size_t bufsz, bool clear_err = true);
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// If an error occured (it calls PyGetError) it displays it and return TRUE
// This function is used when calling callbacks
bool PyW_ShowCbErr(const char *cb_name);
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// Utility function to create a class instance whose constructor takes zero arguments
ref_t create_idaapi_class_instance0(const char *clsname);
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// Utility function to create linked class instances
ref_t create_idaapi_linked_class_instance(const char *clsname, void *lnk);
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// Returns the string representation of a PyObject
bool PyW_ObjectToString(PyObject *obj, qstring *out);
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// Utility function to convert a python object to an IDC object
// and sets a python exception on failure.
bool pyvar_to_idcvar_or_error(const ref_t &py_obj, idc_value_t *idc_obj);
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// Creates and initializes an IDC exception
error_t PyW_CreateIdcException(idc_value_t *res, const char *msg);
//
// Conversion functions
//
bool pyw_convert_idc_args(
const idc_value_t args[],
int nargs,
ref_vec_t &pargs,
bool as_tupple,
char *errbuf = NULL,
size_t errbufsize = 0);
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// Converts Python variable to IDC variable
// gvar_sn is used in case the Python object was a created from a call to idcvar_to_pyvar and the IDC object was a VT_REF
int pyvar_to_idcvar(
const ref_t &py_var,
idc_value_t *idc_var,
int *gvar_sn = NULL);
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// Converts from IDC to Python
// We support converting VT_REF IDC variable types
int idcvar_to_pyvar(
const idc_value_t &idc_var,
ref_t *py_var);
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// Walks a Python list or Sequence and calls the callback
Py_ssize_t pyvar_walk_list(
const ref_t &py_list,
int (idaapi *cb)(const ref_t &py_item, Py_ssize_t index, void *ud) = NULL,
void *ud = NULL);
Py_ssize_t pyvar_walk_list(
PyObject *py_list,
int (idaapi *cb)(const ref_t &py_item, Py_ssize_t index, void *ud) = NULL,
void *ud = NULL);
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// Converts an intvec_t to a Python list object
ref_t PyW_IntVecToPyList(const intvec_t &intvec);
// Converts an Python list to an intvec
bool PyW_PyListToIntVec(PyObject *py_list, intvec_t &intvec);
// Converts a Python list to a qstrvec
bool PyW_PyListToStrVec(PyObject *py_list, qstrvec_t &strvec);
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//-------------------------------------------------------------------------
PyObject *qstrvec2pylist(qstrvec_t &vec);
//-------------------------------------------------------------------------
inline bool PyWStringOrNone_Check(PyObject *tp)
{
return tp == Py_None || PyString_Check(tp);
}
//-------------------------------------------------------------------------
inline const p_list * PyW_Fields(PyObject *tp)
{
return tp == Py_None ? NULL : (const p_list *) PyString_AsString(tp);
}
//---------------------------------------------------------------------------
//
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// notify_when()
//
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bool pywraps_nw_term();
bool pywraps_nw_notify(int slot, ...);
bool pywraps_nw_init();
//---------------------------------------------------------------------------
bool pywraps_check_autoscripts(char *buf, size_t bufsize);
// [De]Initializes PyWraps
bool init_pywraps();
void deinit_pywraps();
void hexrays_clear_python_cfuncptr_t_references(void);
#endif