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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2013, 2014 Damien P. George
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
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#include <stdio.h>
#include <assert.h>
#include <string.h>
#include "py/mpconfig.h"
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// wrapper around everything in this file
#if MICROPY_EMIT_THUMB || MICROPY_EMIT_INLINE_THUMB
#include "py/mphal.h"
#include "py/asmthumb.h"
#define UNSIGNED_FIT5(x) ((uint32_t)(x) < 32)
#define UNSIGNED_FIT7(x) ((uint32_t)(x) < 128)
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#define UNSIGNED_FIT8(x) (((x) & 0xffffff00) == 0)
#define UNSIGNED_FIT16(x) (((x) & 0xffff0000) == 0)
#define SIGNED_FIT8(x) (((x) & 0xffffff80) == 0) || (((x) & 0xffffff80) == 0xffffff80)
#define SIGNED_FIT9(x) (((x) & 0xffffff00) == 0) || (((x) & 0xffffff00) == 0xffffff00)
#define SIGNED_FIT12(x) (((x) & 0xfffff800) == 0) || (((x) & 0xfffff800) == 0xfffff800)
#define SIGNED_FIT23(x) (((x) & 0xffc00000) == 0) || (((x) & 0xffc00000) == 0xffc00000)
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// Note: these actually take an imm12 but the high-bit is not encoded here
#define OP_ADD_W_RRI_HI(reg_src) (0xf200 | (reg_src))
#define OP_ADD_W_RRI_LO(reg_dest, imm11) ((imm11 << 4 & 0x7000) | reg_dest << 8 | (imm11 & 0xff))
#define OP_SUB_W_RRI_HI(reg_src) (0xf2a0 | (reg_src))
#define OP_SUB_W_RRI_LO(reg_dest, imm11) ((imm11 << 4 & 0x7000) | reg_dest << 8 | (imm11 & 0xff))
#define OP_LDR_W_HI(reg_base) (0xf8d0 | (reg_base))
#define OP_LDR_W_LO(reg_dest, imm12) ((reg_dest) << 12 | (imm12))
static inline byte *asm_thumb_get_cur_to_write_bytes(asm_thumb_t *as, int n) {
return mp_asm_base_get_cur_to_write_bytes(&as->base, n);
}
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void asm_thumb_end_pass(asm_thumb_t *as) {
(void)as;
// could check labels are resolved...
#if __ICACHE_PRESENT == 1
if (as->base.pass == MP_ASM_PASS_EMIT) {
// flush D-cache, so the code emitted is stored in memory
MP_HAL_CLEAN_DCACHE(as->base.code_base, as->base.code_size);
// invalidate I-cache
SCB_InvalidateICache();
}
#endif
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}
/*
STATIC void asm_thumb_write_byte_1(asm_thumb_t *as, byte b1) {
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byte *c = asm_thumb_get_cur_to_write_bytes(as, 1);
c[0] = b1;
}
*/
/*
#define IMM32_L0(x) ((x) & 0xff)
#define IMM32_L1(x) (((x) >> 8) & 0xff)
#define IMM32_L2(x) (((x) >> 16) & 0xff)
#define IMM32_L3(x) (((x) >> 24) & 0xff)
STATIC void asm_thumb_write_word32(asm_thumb_t *as, int w32) {
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byte *c = asm_thumb_get_cur_to_write_bytes(as, 4);
c[0] = IMM32_L0(w32);
c[1] = IMM32_L1(w32);
c[2] = IMM32_L2(w32);
c[3] = IMM32_L3(w32);
}
*/
// rlolist is a bit map indicating desired lo-registers
#define OP_PUSH_RLIST(rlolist) (0xb400 | (rlolist))
#define OP_PUSH_RLIST_LR(rlolist) (0xb400 | 0x0100 | (rlolist))
#define OP_POP_RLIST(rlolist) (0xbc00 | (rlolist))
#define OP_POP_RLIST_PC(rlolist) (0xbc00 | 0x0100 | (rlolist))
// The number of words must fit in 7 unsigned bits
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#define OP_ADD_SP(num_words) (0xb000 | (num_words))
#define OP_SUB_SP(num_words) (0xb080 | (num_words))
// locals:
// - stored on the stack in ascending order
// - numbered 0 through num_locals-1
// - SP points to first local
//
// | SP
// v
// l0 l1 l2 ... l(n-1)
// ^ ^
// | low address | high address in RAM
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void asm_thumb_entry(asm_thumb_t *as, int num_locals) {
assert(num_locals >= 0);
// work out what to push and how many extra spaces to reserve on stack
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// so that we have enough for all locals and it's aligned an 8-byte boundary
// we push extra regs (r1, r2, r3) to help do the stack adjustment
// we probably should just always subtract from sp, since this would be more efficient
// for push rlist, lowest numbered register at the lowest address
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uint reglist;
uint stack_adjust;
// don't pop r0 because it's used for return value
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switch (num_locals) {
case 0:
reglist = 0xf2;
stack_adjust = 0;
break;
case 1:
reglist = 0xf2;
stack_adjust = 0;
break;
case 2:
reglist = 0xfe;
stack_adjust = 0;
break;
case 3:
reglist = 0xfe;
stack_adjust = 0;
break;
default:
reglist = 0xfe;
stack_adjust = ((num_locals - 3) + 1) & (~1);
break;
}
asm_thumb_op16(as, OP_PUSH_RLIST_LR(reglist));
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if (stack_adjust > 0) {
if (UNSIGNED_FIT7(stack_adjust)) {
asm_thumb_op16(as, OP_SUB_SP(stack_adjust));
} else {
asm_thumb_op32(as, OP_SUB_W_RRI_HI(ASM_THUMB_REG_SP), OP_SUB_W_RRI_LO(ASM_THUMB_REG_SP, stack_adjust * 4));
}
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}
as->push_reglist = reglist;
as->stack_adjust = stack_adjust;
}
void asm_thumb_exit(asm_thumb_t *as) {
if (as->stack_adjust > 0) {
if (UNSIGNED_FIT7(as->stack_adjust)) {
asm_thumb_op16(as, OP_ADD_SP(as->stack_adjust));
} else {
asm_thumb_op32(as, OP_ADD_W_RRI_HI(ASM_THUMB_REG_SP), OP_ADD_W_RRI_LO(ASM_THUMB_REG_SP, as->stack_adjust * 4));
}
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}
asm_thumb_op16(as, OP_POP_RLIST_PC(as->push_reglist));
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}
STATIC mp_uint_t get_label_dest(asm_thumb_t *as, uint label) {
assert(label < as->base.max_num_labels);
return as->base.label_offsets[label];
}
void asm_thumb_op16(asm_thumb_t *as, uint op) {
byte *c = asm_thumb_get_cur_to_write_bytes(as, 2);
if (c != NULL) {
// little endian
c[0] = op;
c[1] = op >> 8;
}
}
void asm_thumb_op32(asm_thumb_t *as, uint op1, uint op2) {
byte *c = asm_thumb_get_cur_to_write_bytes(as, 4);
if (c != NULL) {
// little endian, op1 then op2
c[0] = op1;
c[1] = op1 >> 8;
c[2] = op2;
c[3] = op2 >> 8;
}
}
#define OP_FORMAT_4(op, rlo_dest, rlo_src) ((op) | ((rlo_src) << 3) | (rlo_dest))
void asm_thumb_format_4(asm_thumb_t *as, uint op, uint rlo_dest, uint rlo_src) {
assert(rlo_dest < ASM_THUMB_REG_R8);
assert(rlo_src < ASM_THUMB_REG_R8);
asm_thumb_op16(as, OP_FORMAT_4(op, rlo_dest, rlo_src));
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}
void asm_thumb_mov_reg_reg(asm_thumb_t *as, uint reg_dest, uint reg_src) {
uint op_lo;
if (reg_src < 8) {
op_lo = reg_src << 3;
} else {
op_lo = 0x40 | ((reg_src - 8) << 3);
}
if (reg_dest < 8) {
op_lo |= reg_dest;
} else {
op_lo |= 0x80 | (reg_dest - 8);
}
// mov reg_dest, reg_src
asm_thumb_op16(as, 0x4600 | op_lo);
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}
// if loading lo half with movw, the i16 value will be zero extended into the r32 register!
size_t asm_thumb_mov_reg_i16(asm_thumb_t *as, uint mov_op, uint reg_dest, int i16_src) {
assert(reg_dest < ASM_THUMB_REG_R15);
size_t loc = mp_asm_base_get_code_pos(&as->base);
// mov[wt] reg_dest, #i16_src
asm_thumb_op32(as, mov_op | ((i16_src >> 1) & 0x0400) | ((i16_src >> 12) & 0xf), ((i16_src << 4) & 0x7000) | (reg_dest << 8) | (i16_src & 0xff));
return loc;
}
#define OP_B_N(byte_offset) (0xe000 | (((byte_offset) >> 1) & 0x07ff))
bool asm_thumb_b_n_label(asm_thumb_t *as, uint label) {
mp_uint_t dest = get_label_dest(as, label);
mp_int_t rel = dest - as->base.code_offset;
rel -= 4; // account for instruction prefetch, PC is 4 bytes ahead of this instruction
asm_thumb_op16(as, OP_B_N(rel));
return as->base.pass != MP_ASM_PASS_EMIT || SIGNED_FIT12(rel);
}
#define OP_BCC_N(cond, byte_offset) (0xd000 | ((cond) << 8) | (((byte_offset) >> 1) & 0x00ff))
// all these bit arithmetics need coverage testing!
#define OP_BCC_W_HI(cond, byte_offset) (0xf000 | ((cond) << 6) | (((byte_offset) >> 10) & 0x0400) | (((byte_offset) >> 14) & 0x003f))
#define OP_BCC_W_LO(byte_offset) (0x8000 | ((byte_offset) & 0x2000) | (((byte_offset) >> 1) & 0x0fff))
bool asm_thumb_bcc_nw_label(asm_thumb_t *as, int cond, uint label, bool wide) {
mp_uint_t dest = get_label_dest(as, label);
mp_int_t rel = dest - as->base.code_offset;
rel -= 4; // account for instruction prefetch, PC is 4 bytes ahead of this instruction
if (!wide) {
asm_thumb_op16(as, OP_BCC_N(cond, rel));
return as->base.pass != MP_ASM_PASS_EMIT || SIGNED_FIT9(rel);
} else {
asm_thumb_op32(as, OP_BCC_W_HI(cond, rel), OP_BCC_W_LO(rel));
return true;
}
}
#define OP_BL_HI(byte_offset) (0xf000 | (((byte_offset) >> 12) & 0x07ff))
#define OP_BL_LO(byte_offset) (0xf800 | (((byte_offset) >> 1) & 0x07ff))
bool asm_thumb_bl_label(asm_thumb_t *as, uint label) {
mp_uint_t dest = get_label_dest(as, label);
mp_int_t rel = dest - as->base.code_offset;
rel -= 4; // account for instruction prefetch, PC is 4 bytes ahead of this instruction
asm_thumb_op32(as, OP_BL_HI(rel), OP_BL_LO(rel));
return as->base.pass != MP_ASM_PASS_EMIT || SIGNED_FIT23(rel);
}
size_t asm_thumb_mov_reg_i32(asm_thumb_t *as, uint reg_dest, mp_uint_t i32) {
// movw, movt does it in 8 bytes
// ldr [pc, #], dw does it in 6 bytes, but we might not reach to end of code for dw
size_t loc = mp_asm_base_get_code_pos(&as->base);
asm_thumb_mov_reg_i16(as, ASM_THUMB_OP_MOVW, reg_dest, i32);
asm_thumb_mov_reg_i16(as, ASM_THUMB_OP_MOVT, reg_dest, i32 >> 16);
return loc;
}
void asm_thumb_mov_reg_i32_optimised(asm_thumb_t *as, uint reg_dest, int i32) {
if (reg_dest < 8 && UNSIGNED_FIT8(i32)) {
asm_thumb_mov_rlo_i8(as, reg_dest, i32);
} else if (UNSIGNED_FIT16(i32)) {
asm_thumb_mov_reg_i16(as, ASM_THUMB_OP_MOVW, reg_dest, i32);
} else {
asm_thumb_mov_reg_i32(as, reg_dest, i32);
}
}
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#define OP_STR_TO_SP_OFFSET(rlo_dest, word_offset) (0x9000 | ((rlo_dest) << 8) | ((word_offset) & 0x00ff))
#define OP_LDR_FROM_SP_OFFSET(rlo_dest, word_offset) (0x9800 | ((rlo_dest) << 8) | ((word_offset) & 0x00ff))
void asm_thumb_mov_local_reg(asm_thumb_t *as, int local_num, uint rlo_src) {
assert(rlo_src < ASM_THUMB_REG_R8);
int word_offset = local_num;
assert(as->base.pass < MP_ASM_PASS_EMIT || word_offset >= 0);
asm_thumb_op16(as, OP_STR_TO_SP_OFFSET(rlo_src, word_offset));
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}
void asm_thumb_mov_reg_local(asm_thumb_t *as, uint rlo_dest, int local_num) {
assert(rlo_dest < ASM_THUMB_REG_R8);
int word_offset = local_num;
assert(as->base.pass < MP_ASM_PASS_EMIT || word_offset >= 0);
asm_thumb_op16(as, OP_LDR_FROM_SP_OFFSET(rlo_dest, word_offset));
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}
#define OP_ADD_REG_SP_OFFSET(rlo_dest, word_offset) (0xa800 | ((rlo_dest) << 8) | ((word_offset) & 0x00ff))
void asm_thumb_mov_reg_local_addr(asm_thumb_t *as, uint rlo_dest, int local_num) {
assert(rlo_dest < ASM_THUMB_REG_R8);
int word_offset = local_num;
assert(as->base.pass < MP_ASM_PASS_EMIT || word_offset >= 0);
asm_thumb_op16(as, OP_ADD_REG_SP_OFFSET(rlo_dest, word_offset));
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}
void asm_thumb_mov_reg_pcrel(asm_thumb_t *as, uint rlo_dest, uint label) {
mp_uint_t dest = get_label_dest(as, label);
mp_int_t rel = dest - as->base.code_offset;
rel -= 4 + 4; // adjust for mov_reg_i16 and then PC+4 prefetch of add_reg_reg
rel |= 1; // to stay in Thumb state when jumping to this address
asm_thumb_mov_reg_i16(as, ASM_THUMB_OP_MOVW, rlo_dest, rel); // 4 bytes
asm_thumb_add_reg_reg(as, rlo_dest, ASM_THUMB_REG_R15); // 2 bytes
}
static inline void asm_thumb_ldr_reg_reg_i12(asm_thumb_t *as, uint reg_dest, uint reg_base, uint word_offset) {
asm_thumb_op32(as, OP_LDR_W_HI(reg_base), OP_LDR_W_LO(reg_dest, word_offset * 4));
}
void asm_thumb_ldr_reg_reg_i12_optimised(asm_thumb_t *as, uint reg_dest, uint reg_base, uint word_offset) {
if (reg_dest < ASM_THUMB_REG_R8 && reg_base < ASM_THUMB_REG_R8 && UNSIGNED_FIT5(word_offset)) {
asm_thumb_ldr_rlo_rlo_i5(as, reg_dest, reg_base, word_offset);
} else {
asm_thumb_ldr_reg_reg_i12(as, reg_dest, reg_base, word_offset);
}
}
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// this could be wrong, because it should have a range of +/- 16MiB...
#define OP_BW_HI(byte_offset) (0xf000 | (((byte_offset) >> 12) & 0x07ff))
#define OP_BW_LO(byte_offset) (0xb800 | (((byte_offset) >> 1) & 0x07ff))
void asm_thumb_b_label(asm_thumb_t *as, uint label) {
mp_uint_t dest = get_label_dest(as, label);
mp_int_t rel = dest - as->base.code_offset;
rel -= 4; // account for instruction prefetch, PC is 4 bytes ahead of this instruction
if (dest != (mp_uint_t)-1 && rel <= -4) {
// is a backwards jump, so we know the size of the jump on the first pass
// calculate rel assuming 12 bit relative jump
if (SIGNED_FIT12(rel)) {
asm_thumb_op16(as, OP_B_N(rel));
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} else {
goto large_jump;
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}
} else {
// is a forwards jump, so need to assume it's large
large_jump:
asm_thumb_op32(as, OP_BW_HI(rel), OP_BW_LO(rel));
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}
}
void asm_thumb_bcc_label(asm_thumb_t *as, int cond, uint label) {
mp_uint_t dest = get_label_dest(as, label);
mp_int_t rel = dest - as->base.code_offset;
rel -= 4; // account for instruction prefetch, PC is 4 bytes ahead of this instruction
if (dest != (mp_uint_t)-1 && rel <= -4) {
// is a backwards jump, so we know the size of the jump on the first pass
// calculate rel assuming 9 bit relative jump
if (SIGNED_FIT9(rel)) {
asm_thumb_op16(as, OP_BCC_N(cond, rel));
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} else {
goto large_jump;
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}
} else {
// is a forwards jump, so need to assume it's large
large_jump:
asm_thumb_op32(as, OP_BCC_W_HI(cond, rel), OP_BCC_W_LO(rel));
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}
}
#define OP_BLX(reg) (0x4780 | ((reg) << 3))
#define OP_SVC(arg) (0xdf00 | (arg))
void asm_thumb_bl_ind(asm_thumb_t *as, uint fun_id, uint reg_temp) {
// Load ptr to function from table, indexed by fun_id, then call it
asm_thumb_ldr_reg_reg_i12_optimised(as, reg_temp, ASM_THUMB_REG_FUN_TABLE, fun_id);
asm_thumb_op16(as, OP_BLX(reg_temp));
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}
#endif // MICROPY_EMIT_THUMB || MICROPY_EMIT_INLINE_THUMB