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rust_upcall.cpp
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rust_upcall.cpp
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/*
Upcalls
These are runtime functions that the compiler knows about and generates
calls to. They are called on the Rust stack and, in most cases, immediately
switch to the C stack.
*/
#include "rust_globals.h"
#include "rust_task.h"
#include "rust_cc.h"
#include "rust_sched_loop.h"
#include "rust_unwind.h"
#include "rust_upcall.h"
#include "rust_util.h"
#ifdef __GNUC__
#define LOG_UPCALL_ENTRY(task) \
LOG(task, upcall, \
"> UPCALL %s - task: %s 0x%" PRIxPTR \
" retpc: x%" PRIxPTR, \
__FUNCTION__, \
(task)->name, (task), \
__builtin_return_address(0));
#else
#define LOG_UPCALL_ENTRY(task) \
LOG(task, upcall, "> UPCALL task: %s @x%" PRIxPTR, \
(task)->name, (task));
#endif
#define UPCALL_SWITCH_STACK(T, A, F) \
call_upcall_on_c_stack(T, (void*)A, (void*)F)
inline void
call_upcall_on_c_stack(rust_task *task, void *args, void *fn_ptr) {
task->call_on_c_stack(args, fn_ptr);
}
/**********************************************************************
* Switches to the C-stack and invokes |fn_ptr|, passing |args| as argument.
* This is used by the C compiler to call foreign functions and by other
* upcalls to switch to the C stack. The return value is passed through a
* field in the args parameter. This upcall is specifically for switching
* to the shim functions generated by rustc.
*/
extern "C" CDECL void
upcall_call_shim_on_c_stack(void *args, void *fn_ptr) {
rust_task *task = rust_get_current_task();
try {
task->call_on_c_stack(args, fn_ptr);
} catch (...) {
// Logging here is not reliable
assert(false && "Foreign code threw an exception");
}
}
/*
* The opposite of above. Starts on a C stack and switches to the Rust
* stack. This is the only upcall that runs from the C stack.
*/
extern "C" CDECL void
upcall_call_shim_on_rust_stack(void *args, void *fn_ptr) {
rust_task *task = rust_get_current_task();
try {
task->call_on_rust_stack(args, fn_ptr);
} catch (...) {
// We can't count on being able to unwind through arbitrary
// code. Our best option is to just fail hard.
// Logging here is not reliable
assert(false && "Rust task failed after reentering the Rust stack");
}
}
/**********************************************************************/
struct s_fail_args {
rust_task *task;
char const *expr;
char const *file;
size_t line;
};
extern "C" CDECL void
upcall_s_fail(s_fail_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
task->fail(args->expr, args->file, args->line);
}
extern "C" CDECL void
upcall_fail(char const *expr,
char const *file,
size_t line) {
rust_task *task = rust_get_current_task();
s_fail_args args = {task,expr,file,line};
UPCALL_SWITCH_STACK(task, &args, upcall_s_fail);
}
struct s_trace_args {
rust_task *task;
char const *msg;
char const *file;
size_t line;
};
extern "C" CDECL void
upcall_s_trace(s_trace_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
LOG(task, trace, "Trace %s:%d: %s",
args->file, args->line, args->msg);
}
extern "C" CDECL void
upcall_trace(char const *msg,
char const *file,
size_t line) {
rust_task *task = rust_get_current_task();
s_trace_args args = {task,msg,file,line};
UPCALL_SWITCH_STACK(task, &args, upcall_s_trace);
}
/**********************************************************************
* Allocate an object in the exchange heap
*/
struct s_exchange_malloc_args {
rust_task *task;
uintptr_t retval;
type_desc *td;
uintptr_t size;
};
extern "C" CDECL void
upcall_s_exchange_malloc(s_exchange_malloc_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
LOG(task, mem, "upcall exchange malloc(0x%" PRIxPTR ")", args->td);
size_t total_size = get_box_size(args->size, args->td->align);
// FIXME--does this have to be calloc? (Issue #2682)
void *p = task->kernel->calloc(total_size, "exchange malloc");
rust_opaque_box *header = static_cast<rust_opaque_box*>(p);
header->ref_count = -1; // This is not ref counted
header->td = args->td;
header->prev = 0;
header->next = 0;
args->retval = (uintptr_t)header;
}
extern "C" CDECL uintptr_t
upcall_exchange_malloc(type_desc *td, uintptr_t size) {
rust_task *task = rust_get_current_task();
s_exchange_malloc_args args = {task, 0, td, size};
UPCALL_SWITCH_STACK(task, &args, upcall_s_exchange_malloc);
return args.retval;
}
struct s_exchange_free_args {
rust_task *task;
void *ptr;
};
extern "C" CDECL void
upcall_s_exchange_free(s_exchange_free_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
task->kernel->free(args->ptr);
}
extern "C" CDECL void
upcall_exchange_free(void *ptr) {
rust_task *task = rust_get_current_task();
s_exchange_free_args args = {task,ptr};
UPCALL_SWITCH_STACK(task, &args, upcall_s_exchange_free);
}
/**********************************************************************
* Allocate an object in the task-local heap.
*/
struct s_malloc_args {
rust_task *task;
uintptr_t retval;
type_desc *td;
uintptr_t size;
};
extern "C" CDECL void
upcall_s_malloc(s_malloc_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
LOG(task, mem, "upcall malloc(0x%" PRIxPTR ")", args->td);
cc::maybe_cc(task);
// FIXME--does this have to be calloc? (Issue #2682)
rust_opaque_box *box = task->boxed.calloc(args->td, args->size);
void *body = box_body(box);
debug::maybe_track_origin(task, box);
LOG(task, mem,
"upcall malloc(0x%" PRIxPTR ") = box 0x%" PRIxPTR
" with body 0x%" PRIxPTR,
args->td, (uintptr_t)box, (uintptr_t)body);
args->retval = (uintptr_t)box;
}
extern "C" CDECL uintptr_t
upcall_malloc(type_desc *td, uintptr_t size) {
rust_task *task = rust_get_current_task();
s_malloc_args args = {task, 0, td, size};
UPCALL_SWITCH_STACK(task, &args, upcall_s_malloc);
return args.retval;
}
/**********************************************************************
* Called whenever an object in the task-local heap is freed.
*/
struct s_free_args {
rust_task *task;
void *ptr;
};
extern "C" CDECL void
upcall_s_free(s_free_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
rust_sched_loop *sched_loop = task->sched_loop;
DLOG(sched_loop, mem,
"upcall free(0x%" PRIxPTR ", is_gc=%" PRIdPTR ")",
(uintptr_t)args->ptr);
debug::maybe_untrack_origin(task, args->ptr);
rust_opaque_box *box = (rust_opaque_box*) args->ptr;
task->boxed.free(box);
}
extern "C" CDECL void
upcall_free(void* ptr) {
rust_task *task = rust_get_current_task();
s_free_args args = {task,ptr};
UPCALL_SWITCH_STACK(task, &args, upcall_s_free);
}
/**********************************************************************
* Sanity checks on boxes, insert when debugging possible
* use-after-free bugs. See maybe_validate_box() in trans.rs.
*/
extern "C" CDECL void
upcall_validate_box(rust_opaque_box* ptr) {
if (ptr) {
assert(ptr->ref_count > 0);
assert(ptr->td != NULL);
assert(ptr->td->align <= 8);
assert(ptr->td->size <= 4096); // might not really be true...
}
}
/**********************************************************************/
struct s_str_new_uniq_args {
rust_task *task;
const char *cstr;
size_t len;
rust_str *retval;
};
extern "C" CDECL void
upcall_s_str_new_uniq(s_str_new_uniq_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
args->retval = make_str(task->kernel, args->cstr, args->len,
"str_new_uniq");
}
extern "C" CDECL rust_str*
upcall_str_new_uniq(const char *cstr, size_t len) {
rust_task *task = rust_get_current_task();
s_str_new_uniq_args args = { task, cstr, len, 0 };
UPCALL_SWITCH_STACK(task, &args, upcall_s_str_new_uniq);
return args.retval;
}
extern "C" CDECL rust_str*
upcall_str_new(const char *cstr, size_t len) {
rust_task *task = rust_get_current_task();
s_str_new_uniq_args args = { task, cstr, len, 0 };
UPCALL_SWITCH_STACK(task, &args, upcall_s_str_new_uniq);
return args.retval;
}
struct s_str_new_shared_args {
rust_task *task;
const char *cstr;
size_t len;
rust_opaque_box *retval;
};
extern "C" CDECL void
upcall_s_str_new_shared(s_str_new_shared_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
size_t str_fill = args->len + 1;
size_t str_alloc = str_fill;
args->retval = (rust_opaque_box *)
task->boxed.malloc(&str_body_tydesc,
str_fill + sizeof(rust_vec));
rust_str *str = (rust_str *)args->retval;
str->body.fill = str_fill;
str->body.alloc = str_alloc;
memcpy(&str->body.data, args->cstr, args->len);
str->body.data[args->len] = '\0';
}
extern "C" CDECL rust_opaque_box*
upcall_str_new_shared(const char *cstr, size_t len) {
rust_task *task = rust_get_current_task();
s_str_new_shared_args args = { task, cstr, len, 0 };
UPCALL_SWITCH_STACK(task, &args, upcall_s_str_new_shared);
return args.retval;
}
struct s_vec_grow_args {
rust_task *task;
rust_vec_box** vp;
size_t new_sz;
};
extern "C" CDECL void
upcall_s_vec_grow(s_vec_grow_args *args) {
rust_task *task = args->task;
LOG_UPCALL_ENTRY(task);
reserve_vec(task, args->vp, args->new_sz);
(*args->vp)->body.fill = args->new_sz;
}
extern "C" CDECL void
upcall_vec_grow(rust_vec_box** vp, size_t new_sz) {
rust_task *task = rust_get_current_task();
s_vec_grow_args args = {task, vp, new_sz};
UPCALL_SWITCH_STACK(task, &args, upcall_s_vec_grow);
}
struct s_str_concat_args {
rust_task *task;
rust_vec_box* lhs;
rust_vec_box* rhs;
rust_vec_box* retval;
};
extern "C" CDECL void
upcall_s_str_concat(s_str_concat_args *args) {
rust_vec *lhs = &args->lhs->body;
rust_vec *rhs = &args->rhs->body;
rust_task *task = args->task;
size_t fill = lhs->fill + rhs->fill - 1;
rust_vec_box* v = (rust_vec_box*)
task->kernel->malloc(fill + sizeof(rust_vec_box),
"str_concat");
v->header.td = args->lhs->header.td;
v->body.fill = v->body.alloc = fill;
memmove(&v->body.data[0], &lhs->data[0], lhs->fill - 1);
memmove(&v->body.data[lhs->fill - 1], &rhs->data[0], rhs->fill);
args->retval = v;
}
extern "C" CDECL rust_vec_box*
upcall_str_concat(rust_vec_box* lhs, rust_vec_box* rhs) {
rust_task *task = rust_get_current_task();
s_str_concat_args args = {task, lhs, rhs, 0};
UPCALL_SWITCH_STACK(task, &args, upcall_s_str_concat);
return args.retval;
}
extern "C" _Unwind_Reason_Code
__gxx_personality_v0(int version,
_Unwind_Action actions,
uint64_t exception_class,
_Unwind_Exception *ue_header,
_Unwind_Context *context);
struct s_rust_personality_args {
_Unwind_Reason_Code retval;
int version;
_Unwind_Action actions;
uint64_t exception_class;
_Unwind_Exception *ue_header;
_Unwind_Context *context;
};
extern "C" void
upcall_s_rust_personality(s_rust_personality_args *args) {
args->retval = __gxx_personality_v0(args->version,
args->actions,
args->exception_class,
args->ue_header,
args->context);
}
/**
The exception handling personality function. It figures
out what to do with each landing pad. Just a stack-switching
wrapper around the C++ personality function.
*/
extern "C" _Unwind_Reason_Code
upcall_rust_personality(int version,
_Unwind_Action actions,
uint64_t exception_class,
_Unwind_Exception *ue_header,
_Unwind_Context *context) {
s_rust_personality_args args = {(_Unwind_Reason_Code)0,
version, actions, exception_class,
ue_header, context};
rust_task *task = rust_get_current_task();
// The personality function is run on the stack of the
// last function that threw or landed, which is going
// to sometimes be the C stack. If we're on the Rust stack
// then switch to the C stack.
if (task->on_rust_stack()) {
UPCALL_SWITCH_STACK(task, &args, upcall_s_rust_personality);
} else {
upcall_s_rust_personality(&args);
}
return args.retval;
}
extern "C" void
shape_cmp_type(int8_t *result, const type_desc *tydesc,
const type_desc **subtydescs, uint8_t *data_0,
uint8_t *data_1, uint8_t cmp_type);
struct s_cmp_type_args {
int8_t *result;
const type_desc *tydesc;
const type_desc **subtydescs;
uint8_t *data_0;
uint8_t *data_1;
uint8_t cmp_type;
};
extern "C" void
upcall_s_cmp_type(s_cmp_type_args *args) {
shape_cmp_type(args->result, args->tydesc, args->subtydescs,
args->data_0, args->data_1, args->cmp_type);
}
extern "C" void
upcall_cmp_type(int8_t *result, const type_desc *tydesc,
const type_desc **subtydescs, uint8_t *data_0,
uint8_t *data_1, uint8_t cmp_type) {
rust_task *task = rust_get_current_task();
s_cmp_type_args args = {result, tydesc, subtydescs,
data_0, data_1, cmp_type};
UPCALL_SWITCH_STACK(task, &args, upcall_s_cmp_type);
}
extern "C" void
shape_log_type(const type_desc *tydesc, uint8_t *data, uint32_t level);
struct s_log_type_args {
const type_desc *tydesc;
uint8_t *data;
uint32_t level;
};
extern "C" void
upcall_s_log_type(s_log_type_args *args) {
shape_log_type(args->tydesc, args->data, args->level);
}
extern "C" void
upcall_log_type(const type_desc *tydesc, uint8_t *data, uint32_t level) {
rust_task *task = rust_get_current_task();
s_log_type_args args = {tydesc, data, level};
UPCALL_SWITCH_STACK(task, &args, upcall_s_log_type);
}
// NB: This needs to be blazing fast. Don't switch stacks
extern "C" CDECL void *
upcall_new_stack(size_t stk_sz, void *args_addr, size_t args_sz) {
rust_task *task = rust_get_current_task();
return task->next_stack(stk_sz,
args_addr,
args_sz);
}
// NB: This needs to be blazing fast. Don't switch stacks
extern "C" CDECL void
upcall_del_stack() {
rust_task *task = rust_get_current_task();
task->prev_stack();
}
// Landing pads need to call this to insert the
// correct limit into TLS.
// NB: This must run on the Rust stack because it
// needs to acquire the value of the stack pointer
extern "C" CDECL void
upcall_reset_stack_limit() {
rust_task *task = rust_get_current_task();
task->reset_stack_limit();
}
//
// Local Variables:
// mode: C++
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End:
//