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#ifndef CPU_PPC_VM_FRAME_PPC_HPP
#define CPU_PPC_VM_FRAME_PPC_HPP
#include "runtime/synchronizer.hpp"
// C frame layout on PPC-64.
//
// In this figure the stack grows upwards, while memory grows
// downwards. See "64-bit PowerPC ELF ABI Supplement Version 1.7",
// IBM Corp. (2003-10-29)
// (http://math-atlas.sourceforge.net/devel/assembly/PPC-elf64abi-1.7.pdf).
//
// Square brackets denote stack regions possibly larger
// than a single 64 bit slot.
//
// STACK:
// 0 [C_FRAME] <-- SP after prolog (mod 16 = 0)
// [C_FRAME] <-- SP before prolog
// ...
// [C_FRAME]
//
// C_FRAME:
// 0 [ABI_REG_ARGS]
// 112 CARG_9: outgoing arg 9 (arg_1 ... arg_8 via gpr_3 ... gpr_{10})
// ...
// 40+M*8 CARG_M: outgoing arg M (M is the maximum of outgoing args taken over all call sites in the procedure)
// local 1
// ...
// local N
// spill slot for vector reg (16 bytes aligned)
// ...
// spill slot for vector reg
// alignment (4 or 12 bytes)
// V SR_VRSAVE
// V+4 spill slot for GR
// ... ...
// spill slot for GR
// spill slot for FR
// ...
// spill slot for FR
//
// ABI_48:
// 0 caller's SP
// 8 space for condition register (CR) for next call
// 16 space for link register (LR) for next call
// 24 reserved
// 32 reserved
// 40 space for TOC (=R2) register for next call
//
// ABI_REG_ARGS:
// 0 [ABI_48]
// 48 CARG_1: spill slot for outgoing arg 1. used by next callee.
// ... ...
// 104 CARG_8: spill slot for outgoing arg 8. used by next callee.
//
public:
// C frame layout
static const int alignment_in_bytes = 16;
// ABI_MINFRAME:
struct abi_minframe {
uint64_t callers_sp;
uint64_t cr; //_16
uint64_t lr;
#if !defined(ABI_ELFv2)
uint64_t reserved1; //_16
uint64_t reserved2;
#endif
uint64_t toc; //_16
// nothing to add here!
// aligned to frame::alignment_in_bytes (16)
};
enum {
abi_minframe_size = sizeof(abi_minframe)
};
struct abi_reg_args : abi_minframe {
uint64_t carg_1;
uint64_t carg_2; //_16
uint64_t carg_3;
uint64_t carg_4; //_16
uint64_t carg_5;
uint64_t carg_6; //_16
uint64_t carg_7;
uint64_t carg_8; //_16
// aligned to frame::alignment_in_bytes (16)
};
enum {
abi_reg_args_size = sizeof(abi_reg_args)
};
#define _abi(_component) \
(offset_of(frame::abi_reg_args, _component))
struct abi_reg_args_spill : abi_reg_args {
// additional spill slots
uint64_t spill_ret;
uint64_t spill_fret; //_16
// aligned to frame::alignment_in_bytes (16)
};
enum {
abi_reg_args_spill_size = sizeof(abi_reg_args_spill)
};
#define _abi_reg_args_spill(_component) \
(offset_of(frame::abi_reg_args_spill, _component))
// non-volatile GPRs:
struct spill_nonvolatiles {
uint64_t r14;
uint64_t r15; //_16
uint64_t r16;
uint64_t r17; //_16
uint64_t r18;
uint64_t r19; //_16
uint64_t r20;
uint64_t r21; //_16
uint64_t r22;
uint64_t r23; //_16
uint64_t r24;
uint64_t r25; //_16
uint64_t r26;
uint64_t r27; //_16
uint64_t r28;
uint64_t r29; //_16
uint64_t r30;
uint64_t r31; //_16
double f14;
double f15;
double f16;
double f17;
double f18;
double f19;
double f20;
double f21;
double f22;
double f23;
double f24;
double f25;
double f26;
double f27;
double f28;
double f29;
double f30;
double f31;
// aligned to frame::alignment_in_bytes (16)
};
enum {
spill_nonvolatiles_size = sizeof(spill_nonvolatiles)
};
#define _spill_nonvolatiles_neg(_component) \
(int)(-frame::spill_nonvolatiles_size + offset_of(frame::spill_nonvolatiles, _component))
// Frame layout for the Java template interpreter on PPC64.
//
// In these figures the stack grows upwards, while memory grows
// downwards. Square brackets denote regions possibly larger than
// single 64 bit slots.
//
// STACK (interpreter is active):
// 0 [TOP_IJAVA_FRAME]
// [PARENT_IJAVA_FRAME]
// ...
// [PARENT_IJAVA_FRAME]
// [ENTRY_FRAME]
// [C_FRAME]
// ...
// [C_FRAME]
//
// With the following frame layouts:
// TOP_IJAVA_FRAME:
// 0 [TOP_IJAVA_FRAME_ABI]
// alignment (optional)
// [operand stack]
// [monitors] (optional)
// [IJAVA_STATE]
// note: own locals are located in the caller frame.
//
// PARENT_IJAVA_FRAME:
// 0 [PARENT_IJAVA_FRAME_ABI]
// alignment (optional)
// [callee's Java result]
// [callee's locals w/o arguments]
// [outgoing arguments]
// [used part of operand stack w/o arguments]
// [monitors] (optional)
// [IJAVA_STATE]
//
// ENTRY_FRAME:
// 0 [PARENT_IJAVA_FRAME_ABI]
// alignment (optional)
// [callee's Java result]
// [callee's locals w/o arguments]
// [outgoing arguments]
// [ENTRY_FRAME_LOCALS]
struct parent_ijava_frame_abi : abi_minframe {
};
enum {
parent_ijava_frame_abi_size = sizeof(parent_ijava_frame_abi)
};
#define _parent_ijava_frame_abi(_component) \
(offset_of(frame::parent_ijava_frame_abi, _component))
struct top_ijava_frame_abi : abi_reg_args {
};
enum {
top_ijava_frame_abi_size = sizeof(top_ijava_frame_abi)
};
#define _top_ijava_frame_abi(_component) \
(offset_of(frame::top_ijava_frame_abi, _component))
struct ijava_state {
#ifdef ASSERT
uint64_t ijava_reserved; // Used for assertion.
#endif
uint64_t method;
uint64_t mirror;
uint64_t locals;
uint64_t monitors;
uint64_t cpoolCache;
uint64_t bcp;
uint64_t esp;
uint64_t mdx;
uint64_t top_frame_sp; // Maybe define parent_frame_abi and move there.
uint64_t sender_sp;
// Slots only needed for native calls. Maybe better to move elsewhere.
uint64_t oop_tmp;
uint64_t lresult;
uint64_t fresult;
};
enum {
ijava_state_size = sizeof(ijava_state)
};
#define _ijava_state_neg(_component) \
(int) (-frame::ijava_state_size + offset_of(frame::ijava_state, _component))
// ENTRY_FRAME
struct entry_frame_locals {
uint64_t call_wrapper_address;
uint64_t result_address; //_16
uint64_t result_type;
uint64_t arguments_tos_address; //_16
// aligned to frame::alignment_in_bytes (16)
uint64_t r[spill_nonvolatiles_size/sizeof(uint64_t)];
};
enum {
entry_frame_locals_size = sizeof(entry_frame_locals)
};
#define _entry_frame_locals_neg(_component) \
(int)(-frame::entry_frame_locals_size + offset_of(frame::entry_frame_locals, _component))
// Frame layout for JIT generated methods
//
// In these figures the stack grows upwards, while memory grows
// downwards. Square brackets denote regions possibly larger than single
// 64 bit slots.
//
// STACK (interpreted Java calls JIT generated Java):
// [JIT_FRAME] <-- SP (mod 16 = 0)
// [TOP_IJAVA_FRAME]
// ...
//
// JIT_FRAME (is a C frame according to PPC-64 ABI):
// [out_preserve]
// [out_args]
// [spills]
// [pad_1]
// [monitor] (optional)
// ...
// [monitor] (optional)
// [pad_2]
// [in_preserve] added / removed by prolog / epilog
//
// JIT_ABI (TOP and PARENT)
struct jit_abi {
uint64_t callers_sp;
uint64_t cr;
uint64_t lr;
uint64_t toc;
// Nothing to add here!
// NOT ALIGNED to frame::alignment_in_bytes (16).
};
struct jit_out_preserve : jit_abi {
// Nothing to add here!
};
struct jit_in_preserve {
// Nothing to add here!
};
enum {
jit_out_preserve_size = sizeof(jit_out_preserve),
jit_in_preserve_size = sizeof(jit_in_preserve)
};
struct jit_monitor {
uint64_t monitor[1];
};
enum {
jit_monitor_size = sizeof(jit_monitor),
};
private:
// STACK:
// ...
// [THIS_FRAME] <-- this._sp (stack pointer for this frame)
// [CALLER_FRAME] <-- this.fp() (_sp of caller's frame)
// ...
//
// frame pointer for this frame
intptr_t* _fp;
// The frame's stack pointer before it has been extended by a c2i adapter;
// needed by deoptimization
intptr_t* _unextended_sp;
public:
// Accessors for fields
intptr_t* fp() const { return _fp; }
// Accessors for ABIs
inline abi_minframe* own_abi() const { return (abi_minframe*) _sp; }
inline abi_minframe* callers_abi() const { return (abi_minframe*) _fp; }
private:
// Find codeblob and set deopt_state.
inline void find_codeblob_and_set_pc_and_deopt_state(address pc);
public:
// Constructors
inline frame(intptr_t* sp);
frame(intptr_t* sp, address pc);
inline frame(intptr_t* sp, address pc, intptr_t* unextended_sp);
private:
intptr_t* compiled_sender_sp(CodeBlob* cb) const;
address* compiled_sender_pc_addr(CodeBlob* cb) const;
address* sender_pc_addr(void) const;
public:
inline ijava_state* get_ijava_state() const;
// Some convenient register frame setters/getters for deoptimization.
inline intptr_t* interpreter_frame_esp() const;
inline void interpreter_frame_set_cpcache(ConstantPoolCache* cp);
inline void interpreter_frame_set_esp(intptr_t* esp);
inline void interpreter_frame_set_top_frame_sp(intptr_t* top_frame_sp);
inline void interpreter_frame_set_sender_sp(intptr_t* sender_sp);
// Size of a monitor in bytes.
static int interpreter_frame_monitor_size_in_bytes();
// The size of a cInterpreter object.
static inline int interpreter_frame_cinterpreterstate_size_in_bytes();
private:
ConstantPoolCache** interpreter_frame_cpoolcache_addr() const;
public:
// Additional interface for entry frames:
inline entry_frame_locals* get_entry_frame_locals() const {
return (entry_frame_locals*) (((address) fp()) - entry_frame_locals_size);
}
enum {
// normal return address is 1 bundle past PC
pc_return_offset = 0
};
#endif // CPU_PPC_VM_FRAME_PPC_HPP