-#ifdef HAVE_CONFIG_H
-# include "config.h"
-#endif
-
+/*******************************************************************************
+ Copyright (c) 2016, Michael Wallner <mike@php.net>.
+ All rights reserved.
+
+ Redistribution and use in source and binary forms, with or without
+ modification, are permitted provided that the following conditions are met:
+
+ * Redistributions of source code must retain the above copyright notice,
+ this list of conditions and the following disclaimer.
+ * Redistributions in binary form must reproduce the above copyright
+ notice, this list of conditions and the following disclaimer in the
+ documentation and/or other materials provided with the distribution.
+
+ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
+ FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+*******************************************************************************/
+
+#include "php_psi_stdinc.h"
+#include "context.h"
+#include "call.h"
#include "php.h"
#ifdef HAVE_LIBFFI
-#include "php_psi.h"
-#include "libffi.h"
-
#undef PACKAGE
#undef PACKAGE_BUGREPORT
#undef PACKAGE_NAME
}
return *code;
#else
- return NULL;
+# error "Neither ffi_closure_alloc() nor mmap() available"
+#endif
+}
+
+static ffi_status psi_ffi_prep_closure(ffi_closure **closure, void **code, ffi_cif *sig, void (*handler)(ffi_cif*,void*,void**,void*), void *data) {
+ *closure = psi_ffi_closure_alloc(sizeof(ffi_closure), code);
+ assert(*closure != NULL);
+
+#if PSI_HAVE_FFI_PREP_CLOSURE_LOC
+ return ffi_prep_closure_loc(*closure, sig, handler, data, *code);
+
+#elif PSI_HAVE_FFI_PREP_CLOSURE
+ return ffi_prep_closure(*code, sig, handler, data);
+#else
+# error "Neither ffi_prep_closure() nor ffi_prep_closure_loc() is available"
#endif
}
#endif
}
-static void psi_ffi_handler(ffi_cif *signature, void *_result, void **_args, void *_data);
-static inline ffi_type *psi_ffi_decl_arg_type(decl_arg *darg);
+static void psi_ffi_prep_va(ffi_cif *base, ffi_cif *signature, size_t argc, size_t va_count,
+ ffi_type **param_types) {
+ ffi_status rc;
+
+#ifdef PSI_HAVE_FFI_PREP_CIF_VAR
+ rc = ffi_prep_cif_var(signature, base->abi, argc, argc + va_count,
+ base->rtype, param_types);
+#else
+ /* FIXME: test in config.m4; assume we can just call anyway */
+ rc = ffi_prep_cif(signature, base->abi, argc + va_count, base->rtype, param_types);
+#endif
+
+ assert(FFI_OK == rc);
+}
+
+static inline ffi_type *psi_ffi_decl_arg_type(struct psi_decl_arg *darg);
+
+struct psi_ffi_context {
+ ffi_cif signature;
+ ffi_type *params[2];
+};
+
+struct psi_ffi_call {
+ struct psi_context *context;
+ union {
+ struct {
+ struct psi_impl *impl;
+ struct psi_call_frame *frame;
+ } fn;
+ struct {
+ struct psi_let_exp *let_exp;
+ struct psi_ffi_call *impl_call;
+ } cb;
+ } impl;
+ void *code;
+ ffi_closure *closure;
+ ffi_cif signature;
+ ffi_type *params[1]; /* [type1, type2, ... ] */
+};
+
+static void psi_ffi_handler(ffi_cif *sig, void *result, void **args, void *data)
+{
+ struct psi_ffi_call *call = data;
+
+ psi_context_call(call->context, *(zend_execute_data **)args[0], *(zval **)args[1], call->impl.fn.impl);
+}
+
+static void psi_ffi_callback(ffi_cif *sig, void *result, void **args, void *data)
+{
+ struct psi_ffi_call *call = data, *impl_call = call->impl.cb.impl_call;
+
+ if (impl_call->impl.fn.frame) {
+ struct psi_call_frame_callback cbdata;
+
+ cbdata.cb = call->impl.cb.let_exp;
+ cbdata.argc = sig->nargs;
+ cbdata.argv = args;
+ cbdata.rval = result;
+
+ psi_call_frame_do_callback(impl_call->impl.fn.frame, &cbdata);
+ } else {
+ assert(0);
+ }
+}
static inline ffi_abi psi_ffi_abi(const char *convention) {
+ if (FFI_LAST_ABI - 2 != FFI_FIRST_ABI) {
+#ifdef HAVE_FFI_STDCALL
+ if (!strcasecmp(convention, "stdcall")) {
+ return FFI_STDCALL;
+ }
+#endif
+#ifdef HAVE_FFI_FASTCALL
+ if (!strcasecmp(convention, "fastcall")) {
+ return FFI_FASTCALL;
+ }
+#endif
+ }
return FFI_DEFAULT_ABI;
}
+
+static inline struct psi_ffi_call *psi_ffi_call_alloc(struct psi_context *C, struct psi_decl *decl) {
+ int rc;
+ size_t i, c = psi_plist_count(decl->args);
+ struct psi_ffi_call *call = calloc(1, sizeof(*call) + 2 * c * sizeof(void *));
+ struct psi_decl_arg *arg;
+
+ decl->info = call;
+ call->context = C;
+
+ for (i = 0; psi_plist_get(decl->args, i, &arg); ++i) {
+ call->params[i] = psi_ffi_decl_arg_type(arg);
+ }
+ call->params[c] = NULL;
+
+ rc = ffi_prep_cif(&call->signature, psi_ffi_abi(decl->abi->convention),
+ c, psi_ffi_decl_arg_type(decl->func), call->params);
+ assert(FFI_OK == rc);
+
+ return call;
+}
+
+static inline ffi_status psi_ffi_call_init_closure(struct psi_context *C, struct psi_ffi_call *call, struct psi_impl *impl) {
+ struct psi_ffi_context *context = C->context;
+
+ call->impl.fn.impl = impl;
+ return psi_ffi_prep_closure(&call->closure, &call->code, &context->signature, psi_ffi_handler, call);
+}
+
+static inline ffi_status psi_ffi_call_init_callback_closure(struct psi_context *C,
+ struct psi_ffi_call *call, struct psi_ffi_call *impl_call,
+ struct psi_let_exp *cb) {
+ call->impl.cb.let_exp = cb;
+ call->impl.cb.impl_call = impl_call;
+ return psi_ffi_prep_closure(&call->closure, &call->code, &call->signature, psi_ffi_callback, call);
+}
+
+static inline void psi_ffi_call_free(struct psi_ffi_call *call) {
+ if (call->closure) {
+ psi_ffi_closure_free(call->closure);
+ }
+ free(call);
+}
+
static inline ffi_type *psi_ffi_token_type(token_t t) {
switch (t) {
default:
- ZEND_ASSERT(0);
+ assert(0);
/* no break */
case PSI_T_VOID:
return &ffi_type_void;
case PSI_T_BOOL:
return &ffi_type_uchar;
case PSI_T_INT:
+ case PSI_T_ENUM:
return &ffi_type_sint;
case PSI_T_LONG:
return &ffi_type_slong;
return &ffi_type_float;
case PSI_T_DOUBLE:
return &ffi_type_double;
+#ifdef HAVE_LONG_DOUBLE
+ case PSI_T_LONG_DOUBLE:
+ return &ffi_type_longdouble;
+#endif
case PSI_T_POINTER:
+ case PSI_T_FUNCTION:
return &ffi_type_pointer;
}
}
free(strct);
}
-static ffi_type **psi_ffi_struct_type_elements(decl_struct *strct) {
- size_t i, j, argc = strct->args->count << 2, nels = 0, offset = 0, align, padding;
- ffi_type **els = calloc(argc + 1, sizeof(*els));
+static size_t psi_ffi_struct_type_pad(ffi_type **els, size_t padding) {
+ size_t i;
- for (i = 0; i < strct->args->count; ++i) {
- decl_arg *darg = strct->args->args[i];
- ffi_type *type = malloc(sizeof(*type));
+ for (i = 0; i < padding; ++i) {
+ ffi_type *pad = malloc(sizeof(*pad));
- memcpy(type, psi_ffi_decl_arg_type(darg), sizeof(*type));
+ memcpy(pad, &ffi_type_schar, sizeof(*pad));
+ *els++ = pad;
+ }
- if (darg->layout->pos > offset) {
- padding = darg->layout->pos - offset;
- align = ((padding - 1) | (type->alignment - 1)) + 1;
- if (align >= padding) {
- padding = 0;
- }
- } else {
- align = 0;
- padding = 0;
+ return padding;
+}
+
+static ffi_type **psi_ffi_struct_type_elements(struct psi_decl_struct *strct) {
+ size_t i = 0, argc, nels = 0, offset = 0, maxalign = 0, last_arg_pos = -1;
+ ffi_type **tmp, **els;
+ struct psi_decl_arg *darg;
+
+ argc = psi_plist_count(strct->args);
+ els = calloc(argc + 1, sizeof(*els));
+
+ while (psi_plist_get(strct->args, i++, &darg)) {
+ ffi_type *type;
+ size_t padding;
+
+ if (darg->layout->pos == last_arg_pos) {
+ /* skip bit fields */
+ continue;
}
+ last_arg_pos = darg->layout->pos;
- if (padding) {
- for (j = 0; j < padding; ++j) {
- ffi_type *pad = malloc(sizeof(*pad));
+ type = malloc(sizeof(*type));
+ *type = *psi_ffi_decl_arg_type(darg);
- ZEND_ASSERT(nels + 1 < argc);
- memcpy(pad, &ffi_type_schar, sizeof(*pad));
- els[nels++] = pad;
+ if (type->alignment > maxalign) {
+ maxalign = type->alignment;
+ }
+
+ assert(type->size == darg->layout->len);
+ if ((padding = psi_offset_padding(darg->layout->pos - offset, type->alignment))) {
+ if (nels + padding + 1 > argc) {
+ argc += padding;
+ tmp = realloc(els, (argc + 1) * sizeof(*els));
+ if (tmp) {
+ els = tmp;
+ } else {
+ free(els);
+ return NULL;
+ }
+ els[argc] = NULL;
}
+ psi_ffi_struct_type_pad(&els[nels], padding);
+ nels += padding;
+ offset += padding;
}
+ assert(offset == darg->layout->pos);
- ZEND_ASSERT(nels + 1 < argc);
+ offset = (offset + darg->layout->len + type->alignment - 1) & ~(type->alignment - 1);
els[nels++] = type;
-
- offset += MAX(align, padding) + darg->layout->len;
}
- ZEND_ASSERT(offset <= strct->size);
+ /* apply struct alignment padding */
+ offset = (offset + maxalign - 1) & ~(maxalign - 1);
+
+ assert(offset <= strct->size);
if (offset < strct->size) {
- padding = strct->size - offset;
- for (j = 0; j < padding; ++j) {
- ffi_type *pad = malloc(sizeof(*pad));
+ size_t padding = strct->size - offset;
- ZEND_ASSERT(nels + 1 < argc);
- memcpy(pad, &ffi_type_schar, sizeof(*pad));
- els[nels++] = pad;
+ tmp = realloc(els, (padding + argc + 1) * sizeof(*els));
+ if (tmp) {
+ els = tmp;
+ } else {
+ free(els);
+ return NULL;
}
+ psi_ffi_struct_type_pad(&els[nels], padding);
+ els[argc + padding] = NULL;
}
return els;
}
-static inline ffi_type *psi_ffi_decl_type(decl_type *type) {
- decl_type *real = real_decl_type(type);
+static inline ffi_type *psi_ffi_decl_type(struct psi_decl_type *type) {
+ struct psi_decl_type *real = psi_decl_type_get_real(type);
- if (real->type == PSI_T_STRUCT) {
- if (!real->strct->engine.type) {
+ switch (real->type) {
+ case PSI_T_STRUCT:
+ if (!real->real.strct->engine.type) {
ffi_type *strct = calloc(1, sizeof(ffi_type));
strct->type = FFI_TYPE_STRUCT;
- strct->size = real->strct->size;
- strct->elements = psi_ffi_struct_type_elements(real->strct);
+ strct->size = 0;
+ strct->elements = psi_ffi_struct_type_elements(real->real.strct);
+
+ real->real.strct->engine.type = strct;
+ real->real.strct->engine.dtor = psi_ffi_struct_type_dtor;
+ }
+
+ return real->real.strct->engine.type;
- real->strct->engine.type = strct;
- real->strct->engine.dtor = psi_ffi_struct_type_dtor;
+ case PSI_T_UNION:
+ {
+ struct psi_decl_arg *arg;
+ psi_plist_get(real->real.unn->args, 0, &arg);
+ return psi_ffi_decl_arg_type(arg);
}
- return real->strct->engine.type;
+ default:
+ return psi_ffi_token_type(real->type);
}
- return psi_ffi_token_type(real->type);
}
-static inline ffi_type *psi_ffi_decl_arg_type(decl_arg *darg) {
+static inline ffi_type *psi_ffi_decl_arg_type(struct psi_decl_arg *darg) {
if (darg->var->pointer_level) {
return &ffi_type_pointer;
} else {
}
}
-typedef struct PSI_LibffiContext {
- ffi_cif signature;
- ffi_type *params[2];
-} PSI_LibffiContext;
-
-typedef struct PSI_LibffiCall {
- void *code;
- ffi_closure *closure;
- ffi_cif signature;
- void *params[1]; /* [type1, type2, NULL, arg1, arg2] ... */
-} PSI_LibffiCall;
-
-static inline PSI_LibffiCall *PSI_LibffiCallAlloc(PSI_Context *C, decl *decl) {
- int rc;
- size_t i, c = decl->args ? decl->args->count : 0;
- PSI_LibffiCall *call = calloc(1, sizeof(*call) + 2 * c * sizeof(void *));
-
- for (i = 0; i < c; ++i) {
- call->params[i] = psi_ffi_decl_arg_type(decl->args->args[i]);
- }
- call->params[c] = NULL;
-
- decl->call.info = call;
- decl->call.rval = &decl->func->ptr;
- decl->call.argc = c;
- decl->call.args = (void **) &call->params[c+1];
-
- rc = ffi_prep_cif(&call->signature, psi_ffi_abi(decl->abi->convention),
- c, psi_ffi_decl_arg_type(decl->func), (ffi_type **) call->params);
- ZEND_ASSERT(FFI_OK == rc);
-
- return call;
-}
-
-static inline void PSI_LibffiCallInitClosure(PSI_Context *C, PSI_LibffiCall *call, impl *impl) {
- PSI_LibffiContext *context = C->context;
- int rc;
- call->closure = psi_ffi_closure_alloc(sizeof(ffi_closure), &call->code);
- ZEND_ASSERT(call->closure != NULL);
-
-#if PSI_HAVE_FFI_PREP_CLOSURE_LOC
- rc = ffi_prep_closure_loc(
- call->closure,
- &context->signature,
- psi_ffi_handler,
- impl,
- call->code);
-
-#elif PSI_HAVE_FFI_PREP_CLOSURE
- rc = ffi_prep_closure(call->code, &context->signature, psi_ffi_handler, impl);
-#else
-# error "Neither ffi_prep_closure() nor ffi_prep_closure_loc() available"
-#endif
- ZEND_ASSERT(FFI_OK == rc);
-}
-
-static inline void PSI_LibffiCallFree(PSI_LibffiCall *call) {
- if (call->closure) {
- psi_ffi_closure_free(call->closure);
- }
- free(call);
-}
-
-static inline PSI_LibffiContext *PSI_LibffiContextInit(PSI_LibffiContext *L) {
+static inline struct psi_ffi_context *psi_ffi_context_init(struct psi_ffi_context *L) {
ffi_status rc;
if (!L) {
L->params[0] = &ffi_type_pointer;
L->params[1] = &ffi_type_pointer;
rc = ffi_prep_cif(&L->signature, FFI_DEFAULT_ABI, 2, &ffi_type_void, L->params);
- ZEND_ASSERT(rc == FFI_OK);
+ assert(rc == FFI_OK);
return L;
}
-static void psi_ffi_handler(ffi_cif *_sig, void *_result, void **_args, void *_data)
-{
- psi_call(*(zend_execute_data **)_args[0], *(zval **)_args[1], _data);
+static inline void psi_ffi_context_free(struct psi_ffi_context **L) {
+ if (*L) {
+ free(*L);
+ *L = NULL;
+ }
}
-static void psi_ffi_init(PSI_Context *C)
+static void psi_ffi_init(struct psi_context *C)
{
- C->context = PSI_LibffiContextInit(NULL);
+ C->context = psi_ffi_context_init(NULL);
+}
+
+static inline void psi_ffi_destroy_callbacks(struct psi_context *C, struct psi_let_exp *let_exp) {
+ struct psi_let_callback *cb;
+ struct psi_let_func *fn = NULL;
+
+ switch (let_exp->kind) {
+ case PSI_LET_CALLBACK:
+ cb = let_exp->data.callback;
+
+ if (cb->decl && cb->decl->info) {
+ psi_ffi_call_free(cb->decl->info);
+ }
+ fn = cb->func;
+ /* no break */
+ case PSI_LET_FUNC:
+ if (!fn) {
+ fn = let_exp->data.func;
+ }
+
+ if (fn->inner) {
+ size_t i = 0;
+ struct psi_let_exp *cb;
+
+ while (psi_plist_get(fn->inner, i++, &cb)) {
+ psi_ffi_destroy_callbacks(C, cb);
+ }
+ }
+ break;
+ default:
+ break;
+ }
}
-static void psi_ffi_dtor(PSI_Context *C)
+static void psi_ffi_dtor(struct psi_context *C)
{
if (C->decls) {
- size_t i;
+ size_t i = 0;
+ struct psi_decl *decl;
+
+ while (psi_plist_get(C->decls, i++, &decl)) {
+ if (decl->info) {
+ psi_ffi_call_free(decl->info);
+ }
+ }
+
+ }
+ if (C->impls) {
+ size_t i = 0;
+ struct psi_impl *impl;
- for (i = 0; i < C->decls->count; ++i) {
- decl *decl = C->decls->list[i];
+ while (psi_plist_get(C->impls, i++, &impl)) {
+ size_t j = 0;
+ struct psi_let_stmt *let;
- if (decl->call.info) {
- PSI_LibffiCallFree(decl->call.info);
+ while (psi_plist_get(impl->stmts.let, j++, &let)) {
+ psi_ffi_destroy_callbacks(C, let->exp);
}
}
}
- free(C->context);
+ psi_ffi_context_free((void *) &C->context);
}
-static zend_function_entry *psi_ffi_compile(PSI_Context *C)
+static inline void psi_ffi_compile_callbacks(struct psi_context *C,
+ struct psi_ffi_call *impl_call, struct psi_let_exp *let_exp) {
+ struct psi_ffi_call *call;
+ struct psi_let_callback *cb;
+ struct psi_let_func *fn = NULL;
+
+ switch (let_exp->kind) {
+ case PSI_LET_CALLBACK:
+ cb = let_exp->data.callback;
+ if ((call = psi_ffi_call_alloc(C, cb->decl))) {
+ if (FFI_OK != psi_ffi_call_init_callback_closure(C, call, impl_call, let_exp)) {
+ psi_ffi_call_free(call);
+ break;
+ }
+
+ cb->decl->sym = call->code;
+ }
+ fn = cb->func;
+ /* no break */
+ case PSI_LET_FUNC:
+ if (!fn) {
+ fn = let_exp->data.func;
+ }
+ if (fn->inner) {
+ size_t i = 0;
+ struct psi_let_exp *inner_let;
+
+ while (psi_plist_get(fn->inner, i++, &inner_let)) {
+ psi_ffi_compile_callbacks(C, impl_call, inner_let);
+ }
+ }
+ break;
+ default:
+ break;
+ }
+}
+
+static zend_function_entry *psi_ffi_compile(struct psi_context *C)
{
- size_t i, j = 0;
+ size_t i = 0, d = 0, nf = 0;
+ struct psi_impl *impl;
+ struct psi_decl *decl;
zend_function_entry *zfe;
if (!C->impls) {
return NULL;
}
- zfe = calloc(C->impls->count + 1, sizeof(*zfe));
- for (i = 0; i < C->impls->count; ++i) {
- zend_function_entry *zf = &zfe[j];
- PSI_LibffiCall *call;
- impl *impl = C->impls->list[i];
+ zfe = calloc(psi_plist_count(C->impls) + 1, sizeof(*zfe));
+
+ while (psi_plist_get(C->impls, i++, &impl)) {
+ size_t l = 0;
+ struct psi_let_stmt *let;
+ struct psi_ffi_call *call;
+ zend_function_entry *zf = &zfe[nf];
if (!impl->decl) {
continue;
}
-
- call = PSI_LibffiCallAlloc(C, impl->decl);
- PSI_LibffiCallInitClosure(C, call, impl);
+ if (!(call = psi_ffi_call_alloc(C, impl->decl))) {
+ continue;
+ }
+ if (FFI_OK != psi_ffi_call_init_closure(C, call, impl)) {
+ psi_ffi_call_free(call);
+ continue;
+ }
zf->fname = impl->func->name + (impl->func->name[0] == '\\');
- zf->num_args = impl->func->args->count;
zf->handler = call->code;
+ zf->num_args = psi_plist_count(impl->func->args);
zf->arg_info = psi_internal_arginfo(impl);
- ++j;
- }
+ ++nf;
- for (i = 0; i < C->decls->count; ++i) {
- decl *decl = C->decls->list[i];
+ while (psi_plist_get(impl->stmts.let, l++, &let)) {
+ psi_ffi_compile_callbacks(C, call, let->exp);
+ }
+ }
- if (decl->impl) {
+ while (psi_plist_get(C->decls, d++, &decl)) {
+ if (decl->info) {
continue;
}
- PSI_LibffiCallAlloc(C, decl);
+ psi_ffi_call_alloc(C, decl);
}
return zfe;
}
-static void psi_ffi_call(PSI_Context *C, decl_callinfo *decl_call, impl_vararg *va) {
- PSI_LibffiCall *call = decl_call->info;
+static void psi_ffi_call(struct psi_context *C, struct psi_call_frame *frame, struct psi_decl *decl, void *rval, void **args) {
+ struct psi_ffi_call *info = decl->info;
+ struct psi_call_frame *prev = info->impl.fn.frame;
- if (va) {
- ffi_status rc;
- ffi_cif signature;
- size_t i, nfixedargs = decl_call->argc, ntotalargs = nfixedargs + va->args->count;
- void **params = calloc(2 * ntotalargs + 2, sizeof(void *));
+ info->impl.fn.frame = frame;
+ ffi_call(&info->signature, FFI_FN(decl->sym), rval, args);
+ info->impl.fn.frame = prev;
+}
- for (i = 0; i < nfixedargs; ++i) {
- params[i] = call->params[i];
- params[i + ntotalargs + 1] = call->params[i + nfixedargs + 1];
- }
- for (i = 0; i < va->args->count; ++i) {
- params[nfixedargs + i] = psi_ffi_impl_type(va->types[i]);
- params[nfixedargs + i + ntotalargs + 1] = &va->values[i];
- }
-#ifdef PSI_HAVE_FFI_PREP_CIF_VAR
- rc = ffi_prep_cif_var(&signature, call->signature.abi,
- nfixedargs, ntotalargs,
- call->signature.rtype, (ffi_type **) params);
-#else
- /* FIXME: test in config.m4; assume we can just call anyway */
- rc = ffi_prep_cif(&signature, call->signature.abi, ntotalargs,
- call->signature.rtype, (ffi_type **) params);
-#endif
- ZEND_ASSERT(FFI_OK == rc);
- ffi_call(&signature, FFI_FN(decl_call->sym), *decl_call->rval, ¶ms[ntotalargs + 1]);
- free(params);
- } else {
- ffi_call(&call->signature, FFI_FN(decl_call->sym), *decl_call->rval, decl_call->args);
+static void psi_ffi_call_va(struct psi_context *C, struct psi_call_frame *frame, struct psi_decl *decl, void *rval, void **args,
+ size_t va_count, void **va_types) {
+ ffi_cif signature;
+ struct psi_ffi_call *info = decl->info;
+ struct psi_call_frame *prev = info->impl.fn.frame;
+ size_t argc = psi_plist_count(decl->args);
+ ffi_type **param_types = ecalloc(argc + va_count + 1, sizeof(ffi_type *));
+
+ memcpy(param_types, info->params, argc * sizeof(ffi_type *));
+ memcpy(param_types + argc, va_types, va_count * sizeof(ffi_type *));
+
+ psi_ffi_prep_va(&info->signature, &signature, argc, va_count, param_types);
+ info->impl.fn.frame = frame;
+ ffi_call(&signature, FFI_FN(decl->sym), rval, args);
+ info->impl.fn.frame = prev;
+ efree(param_types);
+}
+
+static void *psi_ffi_query(struct psi_context *C, enum psi_context_query q, void *arg) {
+ switch (q) {
+ case PSI_CONTEXT_QUERY_SELF:
+ return "ffi";
+ case PSI_CONTEXT_QUERY_TYPE:
+ return psi_ffi_impl_type(*(token_t *) arg);
}
+ return NULL;
}
-static PSI_ContextOps ops = {
+static struct psi_context_ops ops = {
psi_ffi_init,
psi_ffi_dtor,
psi_ffi_compile,
psi_ffi_call,
+ psi_ffi_call_va,
+ psi_ffi_query,
};
-PSI_ContextOps *PSI_Libffi(void)
+struct psi_context_ops *psi_libffi_ops(void)
{
return &ops;
}