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gh-121404: enforce that codegen doesn't access compiler, and compiler doesn't use codegen macros (#123575)

This commit is contained in:
Irit Katriel 2024-09-02 18:23:39 +01:00 committed by GitHub
parent 57c471a688
commit fbb26f067a
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GPG Key ID: B5690EEEBB952194
1 changed files with 129 additions and 85 deletions
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214
Python/compile.c
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@ -95,6 +95,7 @@ static PySTEntryObject *compiler_symtable_entry(struct compiler *c);
#define SCOPE_TYPE(C) compiler_scope_type(C)
#define QUALNAME(C) compiler_qualname(C)
#define METADATA(C) compiler_unit_metadata(C)
#define ARENA(C) compiler_arena(C)
typedef _Py_SourceLocation location;
typedef struct _PyCfgBuilder cfg_builder;
@ -131,6 +132,7 @@ static void compiler_exit_scope(struct compiler *c);
static Py_ssize_t compiler_add_const(struct compiler *c, PyObject *o);
static int compiler_maybe_add_static_attribute_to_class(struct compiler *c, expr_ty e);
static _PyCompile_CodeUnitMetadata *compiler_unit_metadata(struct compiler *c);
static PyArena *compiler_arena(struct compiler *c);
#define LOCATION(LNO, END_LNO, COL, END_COL) \
((const _Py_SourceLocation){(LNO), (END_LNO), (COL), (END_COL)})
@ -250,60 +252,6 @@ _PyCompile_EnsureArrayLargeEnough(int idx, void **array, int *alloc,
}
/* The following items change on entry and exit of code blocks.
They must be saved and restored when returning to a block.
*/
struct compiler_unit {
PySTEntryObject *u_ste;
int u_scope_type;
PyObject *u_private; /* for private name mangling */
PyObject *u_static_attributes; /* for class: attributes accessed via self.X */
PyObject *u_deferred_annotations; /* AnnAssign nodes deferred to the end of compilation */
instr_sequence *u_instr_sequence; /* codegen output */
int u_nfblocks;
int u_in_inlined_comp;
struct fblockinfo u_fblock[CO_MAXBLOCKS];
_PyCompile_CodeUnitMetadata u_metadata;
};
/* This struct captures the global state of a compilation.
The u pointer points to the current compilation unit, while units
for enclosing blocks are stored in c_stack. The u and c_stack are
managed by compiler_enter_scope() and compiler_exit_scope().
Note that we don't track recursion levels during compilation - the
task of detecting and rejecting excessive levels of nesting is
handled by the symbol analysis pass.
*/
struct compiler {
PyObject *c_filename;
struct symtable *c_st;
_PyFutureFeatures c_future; /* module's __future__ */
PyCompilerFlags c_flags;
int c_optimize; /* optimization level */
int c_interactive; /* true if in interactive mode */
PyObject *c_const_cache; /* Python dict holding all constants,
including names tuple */
struct compiler_unit *u; /* compiler state for current block */
PyObject *c_stack; /* Python list holding compiler_unit ptrs */
PyArena *c_arena; /* pointer to memory allocation arena */
bool c_save_nested_seqs; /* if true, construct recursive instruction sequences
* (including instructions for nested code objects)
*/
};
typedef struct {
// A list of strings corresponding to name captures. It is used to track:
// - Repeated name assignments in the same pattern.
@ -917,6 +865,21 @@ codegen_unwind_fblock_stack(struct compiler *c, location *ploc,
return SUCCESS;
}
static int
codegen_enter_scope(struct compiler *c, identifier name, int scope_type,
void *key, int lineno, PyObject *private,
_PyCompile_CodeUnitMetadata *umd)
{
RETURN_IF_ERROR(
compiler_enter_scope(c, name, scope_type, key, lineno, private, umd));
location loc = LOCATION(lineno, lineno, 0, 0);
if (scope_type == COMPILER_SCOPE_MODULE) {
loc.lineno = 0;
}
ADDOP_I(c, loc, RESUME, RESUME_AT_FUNC_START);
return SUCCESS;
}
static int
codegen_setup_annotations_scope(struct compiler *c, location loc,
void *key, PyObject *name)
@ -925,8 +888,8 @@ codegen_setup_annotations_scope(struct compiler *c, location loc,
.u_posonlyargcount = 1,
};
RETURN_IF_ERROR(
compiler_enter_scope(c, name, COMPILER_SCOPE_ANNOTATIONS,
key, loc.lineno, NULL, &umd));
codegen_enter_scope(c, name, COMPILER_SCOPE_ANNOTATIONS,
key, loc.lineno, NULL, &umd));
// if .format != 1: raise NotImplementedError
_Py_DECLARE_STR(format, ".format");
@ -1006,6 +969,14 @@ codegen_process_deferred_annotations(struct compiler *c, location loc)
return SUCCESS;
}
/* Compile an expression */
static int
codegen_expression(struct compiler *c, expr_ty e)
{
VISIT(c, expr, e);
return SUCCESS;
}
/* Compile a sequence of statements, checking for a docstring
and for annotations. */
@ -1073,8 +1044,8 @@ codegen_enter_anonymous_scope(struct compiler* c, mod_ty mod)
{
_Py_DECLARE_STR(anon_module, "<module>");
RETURN_IF_ERROR(
compiler_enter_scope(c, &_Py_STR(anon_module), COMPILER_SCOPE_MODULE,
mod, 1, NULL, NULL));
codegen_enter_scope(c, &_Py_STR(anon_module), COMPILER_SCOPE_MODULE,
mod, 1, NULL, NULL));
return SUCCESS;
}
@ -1504,7 +1475,7 @@ codegen_function_body(struct compiler *c, stmt_ty s, int is_async, Py_ssize_t fu
.u_kwonlyargcount = asdl_seq_LEN(args->kwonlyargs),
};
RETURN_IF_ERROR(
compiler_enter_scope(c, name, scope_type, (void *)s, firstlineno, NULL, &umd));
codegen_enter_scope(c, name, scope_type, (void *)s, firstlineno, NULL, &umd));
Py_ssize_t first_instr = 0;
PyObject *docstring = _PyAST_GetDocString(body);
@ -1617,8 +1588,8 @@ codegen_function(struct compiler *c, stmt_ty s, int is_async)
_PyCompile_CodeUnitMetadata umd = {
.u_argcount = num_typeparam_args,
};
int ret = compiler_enter_scope(c, type_params_name, COMPILER_SCOPE_ANNOTATIONS,
(void *)type_params, firstlineno, NULL, &umd);
int ret = codegen_enter_scope(c, type_params_name, COMPILER_SCOPE_ANNOTATIONS,
(void *)type_params, firstlineno, NULL, &umd);
Py_DECREF(type_params_name);
RETURN_IF_ERROR(ret);
RETURN_IF_ERROR_IN_SCOPE(c, codegen_type_params(c, type_params));
@ -1696,8 +1667,8 @@ codegen_class_body(struct compiler *c, stmt_ty s, int firstlineno)
/* 1. compile the class body into a code object */
RETURN_IF_ERROR(
compiler_enter_scope(c, s->v.ClassDef.name, COMPILER_SCOPE_CLASS,
(void *)s, firstlineno, s->v.ClassDef.name, NULL));
codegen_enter_scope(c, s->v.ClassDef.name, COMPILER_SCOPE_CLASS,
(void *)s, firstlineno, s->v.ClassDef.name, NULL));
location loc = LOCATION(firstlineno, firstlineno, 0, 0);
/* load (global) __name__ ... */
@ -1805,8 +1776,8 @@ codegen_class(struct compiler *c, stmt_ty s)
if (!type_params_name) {
return ERROR;
}
int ret = compiler_enter_scope(c, type_params_name, COMPILER_SCOPE_ANNOTATIONS,
(void *)type_params, firstlineno, s->v.ClassDef.name, NULL);
int ret = codegen_enter_scope(c, type_params_name, COMPILER_SCOPE_ANNOTATIONS,
(void *)type_params, firstlineno, s->v.ClassDef.name, NULL);
Py_DECREF(type_params_name);
RETURN_IF_ERROR(ret);
RETURN_IF_ERROR_IN_SCOPE(c, codegen_type_params(c, type_params));
@ -1833,7 +1804,7 @@ codegen_class(struct compiler *c, stmt_ty s)
Py_ssize_t original_len = asdl_seq_LEN(s->v.ClassDef.bases);
asdl_expr_seq *bases = _Py_asdl_expr_seq_new(
original_len + 1, c->c_arena);
original_len + 1, ARENA(c));
if (bases == NULL) {
compiler_exit_scope(c);
return ERROR;
@ -1843,7 +1814,7 @@ codegen_class(struct compiler *c, stmt_ty s)
}
expr_ty name_node = _PyAST_Name(
&_Py_STR(generic_base), Load,
loc.lineno, loc.col_offset, loc.end_lineno, loc.end_col_offset, c->c_arena
loc.lineno, loc.col_offset, loc.end_lineno, loc.end_col_offset, ARENA(c)
);
if (name_node == NULL) {
compiler_exit_scope(c);
@ -1920,8 +1891,8 @@ codegen_typealias(struct compiler *c, stmt_ty s)
if (!type_params_name) {
return ERROR;
}
int ret = compiler_enter_scope(c, type_params_name, COMPILER_SCOPE_ANNOTATIONS,
(void *)type_params, loc.lineno, NULL, NULL);
int ret = codegen_enter_scope(c, type_params_name, COMPILER_SCOPE_ANNOTATIONS,
(void *)type_params, loc.lineno, NULL, NULL);
Py_DECREF(type_params_name);
RETURN_IF_ERROR(ret);
ADDOP_LOAD_CONST_IN_SCOPE(c, loc, name);
@ -2183,8 +2154,8 @@ codegen_lambda(struct compiler *c, expr_ty e)
};
_Py_DECLARE_STR(anon_lambda, "<lambda>");
RETURN_IF_ERROR(
compiler_enter_scope(c, &_Py_STR(anon_lambda), COMPILER_SCOPE_LAMBDA,
(void *)e, e->lineno, NULL, &umd));
codegen_enter_scope(c, &_Py_STR(anon_lambda), COMPILER_SCOPE_LAMBDA,
(void *)e, e->lineno, NULL, &umd));
/* Make None the first constant, so the lambda can't have a
docstring. */
@ -4765,7 +4736,6 @@ static int
pop_inlined_comprehension_state(struct compiler *c, location loc,
inlined_comprehension_state *state)
{
c->u->u_in_inlined_comp--;
RETURN_IF_ERROR(codegen_pop_inlined_comprehension_locals(c, loc, state));
RETURN_IF_ERROR(compiler_revert_inlined_comprehension_scopes(c, loc, state));
return SUCCESS;
@ -4819,8 +4789,8 @@ codegen_comprehension(struct compiler *c, expr_ty e, int type,
_PyCompile_CodeUnitMetadata umd = {
.u_argcount = 1,
};
if (compiler_enter_scope(c, name, COMPILER_SCOPE_COMPREHENSION,
(void *)e, e->lineno, NULL, &umd) < 0) {
if (codegen_enter_scope(c, name, COMPILER_SCOPE_COMPREHENSION,
(void *)e, e->lineno, NULL, &umd) < 0) {
goto error;
}
}
@ -6442,8 +6412,84 @@ codegen_add_return_at_end(struct compiler *c, int addNone)
return SUCCESS;
}
#undef ADDOP_I
#undef ADDOP_I_IN_SCOPE
#undef ADDOP
#undef ADDOP_IN_SCOPE
#undef ADDOP_LOAD_CONST
#undef ADDOP_LOAD_CONST_IN_SCOPE
#undef ADDOP_LOAD_CONST_NEW
#undef ADDOP_N
#undef ADDOP_N_IN_SCOPE
#undef ADDOP_NAME
#undef ADDOP_JUMP
#undef ADDOP_COMPARE
#undef ADDOP_BINARY
#undef ADDOP_INPLACE
#undef ADD_YIELD_FROM
#undef POP_EXCEPT_AND_RERAISE
#undef ADDOP_YIELD
#undef VISIT
#undef VISIT_IN_SCOPE
#undef VISIT_SEQ
#undef VISIT_SEQ_IN_SCOPE
/*** end of CODEGEN, start of compiler implementation ***/
/* The following items change on entry and exit of code blocks.
They must be saved and restored when returning to a block.
*/
struct compiler_unit {
PySTEntryObject *u_ste;
int u_scope_type;
PyObject *u_private; /* for private name mangling */
PyObject *u_static_attributes; /* for class: attributes accessed via self.X */
PyObject *u_deferred_annotations; /* AnnAssign nodes deferred to the end of compilation */
instr_sequence *u_instr_sequence; /* codegen output */
int u_nfblocks;
int u_in_inlined_comp;
struct fblockinfo u_fblock[CO_MAXBLOCKS];
_PyCompile_CodeUnitMetadata u_metadata;
};
/* This struct captures the global state of a compilation.
The u pointer points to the current compilation unit, while units
for enclosing blocks are stored in c_stack. The u and c_stack are
managed by compiler_enter_scope() and compiler_exit_scope().
Note that we don't track recursion levels during compilation - the
task of detecting and rejecting excessive levels of nesting is
handled by the symbol analysis pass.
*/
struct compiler {
PyObject *c_filename;
struct symtable *c_st;
_PyFutureFeatures c_future; /* module's __future__ */
PyCompilerFlags c_flags;
int c_optimize; /* optimization level */
int c_interactive; /* true if in interactive mode */
PyObject *c_const_cache; /* Python dict holding all constants,
including names tuple */
struct compiler_unit *u; /* compiler state for current block */
PyObject *c_stack; /* Python list holding compiler_unit ptrs */
PyArena *c_arena; /* pointer to memory allocation arena */
bool c_save_nested_seqs; /* if true, construct recursive instruction sequences
* (including instructions for nested code objects)
*/
};
static int
compiler_setup(struct compiler *c, mod_ty mod, PyObject *filename,
PyCompilerFlags *flags, int optimize, PyArena *arena)
@ -6801,10 +6847,7 @@ compiler_enter_scope(struct compiler *c, identifier name, int scope_type,
void *key, int lineno, PyObject *private,
_PyCompile_CodeUnitMetadata *umd)
{
location loc = LOCATION(lineno, lineno, 0, 0);
struct compiler_unit *u;
u = (struct compiler_unit *)PyMem_Calloc(1, sizeof(struct compiler_unit));
if (!u) {
PyErr_NoMemory();
@ -6918,15 +6961,9 @@ compiler_enter_scope(struct compiler *c, identifier name, int scope_type,
u->u_private = Py_XNewRef(private);
c->u = u;
if (u->u_scope_type == COMPILER_SCOPE_MODULE) {
loc.lineno = 0;
}
else {
if (scope_type != COMPILER_SCOPE_MODULE) {
RETURN_IF_ERROR(compiler_set_qualname(c));
}
ADDOP_I(c, loc, RESUME, RESUME_AT_FUNC_START);
return SUCCESS;
}
@ -7032,7 +7069,7 @@ compiler_codegen(struct compiler *c, mod_ty mod)
break;
}
case Expression_kind: {
VISIT(c, expr, mod->v.Expression.body);
RETURN_IF_ERROR(codegen_expression(c, mod->v.Expression.body));
break;
}
default: {
@ -7283,6 +7320,7 @@ static int
compiler_revert_inlined_comprehension_scopes(struct compiler *c, location loc,
inlined_comprehension_state *state)
{
c->u->u_in_inlined_comp--;
if (state->temp_symbols) {
PyObject *k, *v;
Py_ssize_t pos = 0;
@ -7478,6 +7516,12 @@ compiler_unit_metadata(struct compiler *c)
return &c->u->u_metadata;
}
static PyArena *
compiler_arena(struct compiler *c)
{
return c->c_arena;
}
#ifndef NDEBUG
static int
compiler_is_top_level_await(struct compiler *c)