parisc: Add eBPF JIT compiler glue code and Makefile
Signed-off-by: Helge Deller <deller@gmx.de>
This commit is contained in:
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c95e269773
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# SPDX-License-Identifier: GPL-2.0-only
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obj-$(CONFIG_BPF_JIT) += bpf_jit_core.o
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ifeq ($(CONFIG_64BIT),y)
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obj-$(CONFIG_BPF_JIT) += bpf_jit_comp64.o
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else
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obj-$(CONFIG_BPF_JIT) += bpf_jit_comp32.o
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endif
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/* SPDX-License-Identifier: GPL-2.0 */
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/*
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* Common functionality for PARISC32 and PARISC64 BPF JIT compilers
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*
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* Copyright (c) 2023 Helge Deller <deller@gmx.de>
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*
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*/
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#ifndef _BPF_JIT_H
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#define _BPF_JIT_H
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#include <linux/bpf.h>
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#include <linux/filter.h>
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#include <asm/cacheflush.h>
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#define HPPA_JIT_DEBUG 0
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#define HPPA_JIT_REBOOT 0
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#define HPPA_JIT_DUMP 0
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#define OPTIMIZE_HPPA 1 /* enable some asm optimizations */
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// echo 1 > /proc/sys/net/core/bpf_jit_enable
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#define HPPA_R(nr) nr /* use HPPA register #nr */
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enum {
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HPPA_REG_ZERO = 0, /* The constant value 0 */
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HPPA_REG_R1 = 1, /* used for addil */
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HPPA_REG_RP = 2, /* Return address */
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HPPA_REG_ARG7 = 19, /* ARG4-7 used in 64-bit ABI */
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HPPA_REG_ARG6 = 20,
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HPPA_REG_ARG5 = 21,
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HPPA_REG_ARG4 = 22,
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HPPA_REG_ARG3 = 23, /* ARG0-3 in 32- and 64-bit ABI */
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HPPA_REG_ARG2 = 24,
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HPPA_REG_ARG1 = 25,
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HPPA_REG_ARG0 = 26,
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HPPA_REG_GP = 27, /* Global pointer */
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HPPA_REG_RET0 = 28, /* Return value, HI in 32-bit */
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HPPA_REG_RET1 = 29, /* Return value, LOW in 32-bit */
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HPPA_REG_SP = 30, /* Stack pointer */
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HPPA_REG_R31 = 31,
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#ifdef CONFIG_64BIT
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HPPA_REG_TCC = 3,
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HPPA_REG_TCC_SAVED = 4,
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HPPA_REG_TCC_IN_INIT = HPPA_REG_R31,
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#else
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HPPA_REG_TCC = 18,
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HPPA_REG_TCC_SAVED = 17,
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HPPA_REG_TCC_IN_INIT = HPPA_REG_R31,
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#endif
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HPPA_REG_T0 = HPPA_REG_R1, /* Temporaries */
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HPPA_REG_T1 = HPPA_REG_R31,
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HPPA_REG_T2 = HPPA_REG_ARG4,
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#ifndef CONFIG_64BIT
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HPPA_REG_T3 = HPPA_REG_ARG5, /* not used in 64-bit */
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HPPA_REG_T4 = HPPA_REG_ARG6,
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HPPA_REG_T5 = HPPA_REG_ARG7,
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#endif
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};
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struct hppa_jit_context {
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struct bpf_prog *prog;
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u32 *insns; /* HPPA insns */
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int ninsns;
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int reg_seen_collect;
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int reg_seen;
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int body_len;
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int epilogue_offset;
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int prologue_len;
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int *offset; /* BPF to HPPA */
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};
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#define REG_SET_SEEN(ctx, nr) { if (ctx->reg_seen_collect) ctx->reg_seen |= BIT(nr); }
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#define REG_SET_SEEN_ALL(ctx) { if (ctx->reg_seen_collect) ctx->reg_seen = -1; }
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#define REG_FORCE_SEEN(ctx, nr) { ctx->reg_seen |= BIT(nr); }
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#define REG_WAS_SEEN(ctx, nr) (ctx->reg_seen & BIT(nr))
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#define REG_ALL_SEEN(ctx) (ctx->reg_seen == -1)
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#define HPPA_INSN_SIZE 4 /* bytes per HPPA asm instruction */
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#define REG_SIZE REG_SZ /* bytes per native "long" word */
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/* subtract hppa displacement on branches which is .+8 */
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#define HPPA_BRANCH_DISPLACEMENT 2 /* instructions */
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/* asm statement indicator to execute delay slot */
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#define EXEC_NEXT_INSTR 0
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#define NOP_NEXT_INSTR 1
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#define im11(val) (((u32)(val)) & 0x07ff)
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#define hppa_ldil(addr, reg) \
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hppa_t5_insn(0x08, reg, ((u32)(addr)) >> 11) /* ldil im21,reg */
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#define hppa_addil(addr, reg) \
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hppa_t5_insn(0x0a, reg, ((u32)(addr)) >> 11) /* addil im21,reg -> result in gr1 */
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#define hppa_ldo(im14, reg, target) \
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hppa_t1_insn(0x0d, reg, target, im14) /* ldo val14(reg),target */
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#define hppa_ldi(im14, reg) \
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hppa_ldo(im14, HPPA_REG_ZERO, reg) /* ldi val14,reg */
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#define hppa_or(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x09, target) /* or reg1,reg2,target */
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#define hppa_or_cond(reg1, reg2, cond, f, target) \
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hppa_t6_insn(0x02, reg2, reg1, cond, f, 0x09, target)
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#define hppa_and(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x08, target) /* and reg1,reg2,target */
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#define hppa_and_cond(reg1, reg2, cond, f, target) \
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hppa_t6_insn(0x02, reg2, reg1, cond, f, 0x08, target)
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#define hppa_xor(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x0a, target) /* xor reg1,reg2,target */
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#define hppa_add(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x18, target) /* add reg1,reg2,target */
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#define hppa_addc(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x1c, target) /* add,c reg1,reg2,target */
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#define hppa_sub(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x10, target) /* sub reg1,reg2,target */
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#define hppa_subb(reg1, reg2, target) \
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hppa_t6_insn(0x02, reg2, reg1, 0, 0, 0x14, target) /* sub,b reg1,reg2,target */
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#define hppa_nop() \
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hppa_or(0,0,0) /* nop: or 0,0,0 */
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#define hppa_addi(val11, reg, target) \
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hppa_t7_insn(0x2d, reg, target, val11) /* addi im11,reg,target */
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#define hppa_subi(val11, reg, target) \
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hppa_t7_insn(0x25, reg, target, val11) /* subi im11,reg,target */
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#define hppa_copy(reg, target) \
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hppa_or(reg, HPPA_REG_ZERO, target) /* copy reg,target */
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#define hppa_ldw(val14, reg, target) \
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hppa_t1_insn(0x12, reg, target, val14) /* ldw im14(reg),target */
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#define hppa_ldb(val14, reg, target) \
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hppa_t1_insn(0x10, reg, target, val14) /* ldb im14(reg),target */
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#define hppa_ldh(val14, reg, target) \
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hppa_t1_insn(0x11, reg, target, val14) /* ldh im14(reg),target */
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#define hppa_stw(reg, val14, base) \
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hppa_t1_insn(0x1a, base, reg, val14) /* stw reg,im14(base) */
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#define hppa_stb(reg, val14, base) \
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hppa_t1_insn(0x18, base, reg, val14) /* stb reg,im14(base) */
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#define hppa_sth(reg, val14, base) \
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hppa_t1_insn(0x19, base, reg, val14) /* sth reg,im14(base) */
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#define hppa_stwma(reg, val14, base) \
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hppa_t1_insn(0x1b, base, reg, val14) /* stw,ma reg,im14(base) */
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#define hppa_bv(reg, base, nop) \
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hppa_t11_insn(0x3a, base, reg, 0x06, 0, nop) /* bv(,n) reg(base) */
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#define hppa_be(offset, base) \
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hppa_t12_insn(0x38, base, offset, 0x00, 1) /* be,n offset(0,base) */
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#define hppa_be_l(offset, base, nop) \
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hppa_t12_insn(0x39, base, offset, 0x00, nop) /* ble(,nop) offset(0,base) */
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#define hppa_mtctl(reg, cr) \
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hppa_t21_insn(0x00, cr, reg, 0xc2, 0) /* mtctl reg,cr */
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#define hppa_mtsar(reg) \
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hppa_mtctl(reg, 11) /* mtsar reg */
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#define hppa_zdep(r, p, len, target) \
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hppa_t10_insn(0x35, target, r, 0, 2, p, len) /* zdep r,a,b,t */
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#define hppa_shl(r, len, target) \
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hppa_zdep(r, len, len, lo(rd))
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#define hppa_depwz(r, p, len, target) \
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hppa_t10_insn(0x35, target, r, 0, 3, 31-(p), 32-(len)) /* depw,z r,p,len,ret1 */
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#define hppa_depwz_sar(reg, target) \
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hppa_t1_insn(0x35, target, reg, 0) /* depw,z reg,sar,32,target */
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#define hppa_shrpw_sar(reg, target) \
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hppa_t10_insn(0x34, reg, 0, 0, 0, 0, target) /* shrpw r0,reg,sar,target */
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#define hppa_shrpw(r1, r2, p, target) \
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hppa_t10_insn(0x34, r2, r1, 0, 2, 31-(p), target) /* shrpw r1,r2,p,target */
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#define hppa_shd(r1, r2, p, target) \
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hppa_t10_insn(0x34, r2, r1, 0, 2, 31-(p), target) /* shrpw r1,r2,p,tarfer */
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#define hppa_extrws_sar(reg, target) \
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hppa_t10_insn(0x34, reg, target, 0, 5, 0, 0) /* extrw,s reg,sar,32,ret0 */
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#define hppa_extrws(reg, p, len, target) \
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hppa_t10_insn(0x34, reg, target, 0, 7, p, len) /* extrw,s reg,p,len,target */
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#define hppa_extru(r, p, len, target) \
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hppa_t10_insn(0x34, r, target, 0, 6, p, 32-(len))
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#define hppa_shr(r, len, target) \
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hppa_extru(r, 31-(len), 32-(len), target)
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#define hppa_bl(imm17, rp) \
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hppa_t12_insn(0x3a, rp, imm17, 0x00, 1) /* bl,n target_addr,rp */
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#define hppa_sh2add(r1, r2, target) \
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hppa_t6_insn(0x02, r2, r1, 0, 0, 0x1a, target) /* sh2add r1,r2,target */
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#define hppa_combt(r1, r2, target_addr, condition, nop) \
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hppa_t11_insn(IS_ENABLED(CONFIG_64BIT) ? 0x27 : 0x20, \
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r2, r1, condition, target_addr, nop) /* combt,cond,n r1,r2,addr */
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#define hppa_beq(r1, r2, target_addr) \
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hppa_combt(r1, r2, target_addr, 1, NOP_NEXT_INSTR)
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#define hppa_blt(r1, r2, target_addr) \
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hppa_combt(r1, r2, target_addr, 2, NOP_NEXT_INSTR)
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#define hppa_ble(r1, r2, target_addr) \
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hppa_combt(r1, r2, target_addr, 3, NOP_NEXT_INSTR)
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#define hppa_bltu(r1, r2, target_addr) \
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hppa_combt(r1, r2, target_addr, 4, NOP_NEXT_INSTR)
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#define hppa_bleu(r1, r2, target_addr) \
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hppa_combt(r1, r2, target_addr, 5, NOP_NEXT_INSTR)
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#define hppa_combf(r1, r2, target_addr, condition, nop) \
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hppa_t11_insn(IS_ENABLED(CONFIG_64BIT) ? 0x2f : 0x22, \
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r2, r1, condition, target_addr, nop) /* combf,cond,n r1,r2,addr */
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#define hppa_bne(r1, r2, target_addr) \
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hppa_combf(r1, r2, target_addr, 1, NOP_NEXT_INSTR)
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#define hppa_bge(r1, r2, target_addr) \
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hppa_combf(r1, r2, target_addr, 2, NOP_NEXT_INSTR)
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#define hppa_bgt(r1, r2, target_addr) \
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hppa_combf(r1, r2, target_addr, 3, NOP_NEXT_INSTR)
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#define hppa_bgeu(r1, r2, target_addr) \
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hppa_combf(r1, r2, target_addr, 4, NOP_NEXT_INSTR)
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#define hppa_bgtu(r1, r2, target_addr) \
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hppa_combf(r1, r2, target_addr, 5, NOP_NEXT_INSTR)
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/* 64-bit instructions */
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#ifdef CONFIG_64BIT
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#define hppa64_ldd_reg(reg, b, target) \
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hppa_t10_insn(0x03, b, reg, 0, 0, 3<<1, target)
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#define hppa64_ldd_im5(im5, b, target) \
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hppa_t10_insn(0x03, b, low_sign_unext(im5,5), 0, 1<<2, 3<<1, target)
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#define hppa64_ldd_im16(im16, b, target) \
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hppa_t10_insn(0x14, b, target, 0, 0, 0, 0) | re_assemble_16(im16)
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#define hppa64_std_im5(src, im5, b) \
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hppa_t10_insn(0x03, b, src, 0, 1<<2, 0xB<<1, low_sign_unext(im5,5))
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#define hppa64_std_im16(src, im16, b) \
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hppa_t10_insn(0x1c, b, src, 0, 0, 0, 0) | re_assemble_16(im16)
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#define hppa64_bl_long(offs22) \
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hppa_t12_L_insn(0x3a, offs22, 1)
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#define hppa64_mtsarcm(reg) \
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hppa_t21_insn(0x00, 11, reg, 0xc6, 0)
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#define hppa64_shrpd_sar(reg, target) \
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hppa_t10_insn(0x34, reg, 0, 0, 0, 1<<4, target)
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#define hppa64_shladd(r1, sa, r2, target) \
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hppa_t6_insn(0x02, r2, r1, 0, 0, 1<<4|1<<3|sa, target)
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#define hppa64_depdz_sar(reg, target) \
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hppa_t21_insn(0x35, target, reg, 3<<3, 0)
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#define hppa_extrd_sar(reg, target, se) \
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hppa_t10_insn(0x34, reg, target, 0, 0, 0, 0) | 2<<11 | (se&1)<<10 | 1<<9 | 1<<8
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#define hppa64_bve_l_rp(base) \
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(0x3a << 26) | (base << 21) | 0xf000
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#define hppa64_permh_3210(r, target) \
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(0x3e << 26) | (r << 21) | (r << 16) | (target) | 0x00006900
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#define hppa64_hshl(r, sa, target) \
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(0x3e << 26) | (0 << 21) | (r << 16) | (sa << 6) | (target) | 0x00008800
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#define hppa64_hshr_u(r, sa, target) \
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(0x3e << 26) | (r << 21) | (0 << 16) | (sa << 6) | (target) | 0x0000c800
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#endif
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struct hppa_jit_data {
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struct bpf_binary_header *header;
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u8 *image;
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struct hppa_jit_context ctx;
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};
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static inline void bpf_fill_ill_insns(void *area, unsigned int size)
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{
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memset(area, 0, size);
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}
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static inline void bpf_flush_icache(void *start, void *end)
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{
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flush_icache_range((unsigned long)start, (unsigned long)end);
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}
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/* Emit a 4-byte HPPA instruction. */
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static inline void emit(const u32 insn, struct hppa_jit_context *ctx)
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{
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if (ctx->insns) {
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ctx->insns[ctx->ninsns] = insn;
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}
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ctx->ninsns++;
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}
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static inline int epilogue_offset(struct hppa_jit_context *ctx)
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{
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int to = ctx->epilogue_offset, from = ctx->ninsns;
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return (to - from);
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}
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/* Return -1 or inverted cond. */
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static inline int invert_bpf_cond(u8 cond)
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{
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switch (cond) {
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case BPF_JEQ:
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return BPF_JNE;
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case BPF_JGT:
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return BPF_JLE;
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case BPF_JLT:
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return BPF_JGE;
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case BPF_JGE:
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return BPF_JLT;
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case BPF_JLE:
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return BPF_JGT;
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case BPF_JNE:
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return BPF_JEQ;
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case BPF_JSGT:
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return BPF_JSLE;
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case BPF_JSLT:
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return BPF_JSGE;
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case BPF_JSGE:
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return BPF_JSLT;
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case BPF_JSLE:
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return BPF_JSGT;
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}
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return -1;
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}
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static inline signed long hppa_offset(int insn, int off, struct hppa_jit_context *ctx)
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{
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signed long from, to;
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off++; /* BPF branch is from PC+1 */
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from = (insn > 0) ? ctx->offset[insn - 1] : 0;
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to = (insn + off > 0) ? ctx->offset[insn + off - 1] : 0;
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return (to - from);
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}
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/* does the signed value fits into a given number of bits ? */
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static inline int check_bits_int(signed long val, int bits)
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{
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return ((val >= 0) && ((val >> bits) == 0)) ||
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((val < 0) && (((~((u32)val)) >> (bits-1)) == 0));
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}
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/* can the signed value be used in relative code ? */
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static inline int relative_bits_ok(signed long val, int bits)
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{
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return ((val >= 0) && (val < (1UL << (bits-1)))) || /* XXX */
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||||
((val < 0) && (((~((unsigned long)val)) >> (bits-1)) == 0)
|
||||
&& (val & (1UL << (bits-1))));
|
||||
}
|
||||
|
||||
/* can the signed value be used in relative branches ? */
|
||||
static inline int relative_branch_ok(signed long val, int bits)
|
||||
{
|
||||
return ((val >= 0) && (val < (1UL << (bits-2)))) || /* XXX */
|
||||
((val < 0) && (((~((unsigned long)val)) < (1UL << (bits-2))))
|
||||
&& (val & (1UL << (bits-1))));
|
||||
}
|
||||
|
||||
|
||||
#define is_5b_int(val) check_bits_int(val, 5)
|
||||
|
||||
static inline unsigned sign_unext(unsigned x, unsigned len)
|
||||
{
|
||||
unsigned len_ones;
|
||||
|
||||
len_ones = (1 << len) - 1;
|
||||
return x & len_ones;
|
||||
}
|
||||
|
||||
static inline unsigned low_sign_unext(unsigned x, unsigned len)
|
||||
{
|
||||
unsigned temp;
|
||||
unsigned sign;
|
||||
|
||||
sign = (x >> (len-1)) & 1;
|
||||
temp = sign_unext (x, len-1);
|
||||
return (temp << 1) | sign;
|
||||
}
|
||||
|
||||
static inline unsigned re_assemble_12(unsigned as12)
|
||||
{
|
||||
return (( (as12 & 0x800) >> 11)
|
||||
| ((as12 & 0x400) >> (10 - 2))
|
||||
| ((as12 & 0x3ff) << (1 + 2)));
|
||||
}
|
||||
|
||||
static inline unsigned re_assemble_14(unsigned as14)
|
||||
{
|
||||
return (( (as14 & 0x1fff) << 1)
|
||||
| ((as14 & 0x2000) >> 13));
|
||||
}
|
||||
|
||||
#ifdef CONFIG_64BIT
|
||||
static inline unsigned re_assemble_16(unsigned as16)
|
||||
{
|
||||
unsigned s, t;
|
||||
|
||||
/* Unusual 16-bit encoding, for wide mode only. */
|
||||
t = (as16 << 1) & 0xffff;
|
||||
s = (as16 & 0x8000);
|
||||
return (t ^ s ^ (s >> 1)) | (s >> 15);
|
||||
}
|
||||
#endif
|
||||
|
||||
static inline unsigned re_assemble_17(unsigned as17)
|
||||
{
|
||||
return (( (as17 & 0x10000) >> 16)
|
||||
| ((as17 & 0x0f800) << (16 - 11))
|
||||
| ((as17 & 0x00400) >> (10 - 2))
|
||||
| ((as17 & 0x003ff) << (1 + 2)));
|
||||
}
|
||||
|
||||
static inline unsigned re_assemble_21(unsigned as21)
|
||||
{
|
||||
return (( (as21 & 0x100000) >> 20)
|
||||
| ((as21 & 0x0ffe00) >> 8)
|
||||
| ((as21 & 0x000180) << 7)
|
||||
| ((as21 & 0x00007c) << 14)
|
||||
| ((as21 & 0x000003) << 12));
|
||||
}
|
||||
|
||||
static inline unsigned re_assemble_22(unsigned as22)
|
||||
{
|
||||
return (( (as22 & 0x200000) >> 21)
|
||||
| ((as22 & 0x1f0000) << (21 - 16))
|
||||
| ((as22 & 0x00f800) << (16 - 11))
|
||||
| ((as22 & 0x000400) >> (10 - 2))
|
||||
| ((as22 & 0x0003ff) << (1 + 2)));
|
||||
}
|
||||
|
||||
/* Various HPPA instruction formats. */
|
||||
/* see https://parisc.wiki.kernel.org/images-parisc/6/68/Pa11_acd.pdf, appendix C */
|
||||
|
||||
static inline u32 hppa_t1_insn(u8 opcode, u8 b, u8 r, s16 im14)
|
||||
{
|
||||
return ((opcode << 26) | (b << 21) | (r << 16) | re_assemble_14(im14));
|
||||
}
|
||||
|
||||
static inline u32 hppa_t5_insn(u8 opcode, u8 tr, u32 val21)
|
||||
{
|
||||
return ((opcode << 26) | (tr << 21) | re_assemble_21(val21));
|
||||
}
|
||||
|
||||
static inline u32 hppa_t6_insn(u8 opcode, u8 r2, u8 r1, u8 c, u8 f, u8 ext6, u16 t)
|
||||
{
|
||||
return ((opcode << 26) | (r2 << 21) | (r1 << 16) | (c << 13) | (f << 12) |
|
||||
(ext6 << 6) | t);
|
||||
}
|
||||
|
||||
/* 7. Arithmetic immediate */
|
||||
static inline u32 hppa_t7_insn(u8 opcode, u8 r, u8 t, u32 im11)
|
||||
{
|
||||
return ((opcode << 26) | (r << 21) | (t << 16) | low_sign_unext(im11, 11));
|
||||
}
|
||||
|
||||
/* 10. Shift instructions */
|
||||
static inline u32 hppa_t10_insn(u8 opcode, u8 r2, u8 r1, u8 c, u8 ext3, u8 cp, u8 t)
|
||||
{
|
||||
return ((opcode << 26) | (r2 << 21) | (r1 << 16) | (c << 13) |
|
||||
(ext3 << 10) | (cp << 5) | t);
|
||||
}
|
||||
|
||||
/* 11. Conditional branch instructions */
|
||||
static inline u32 hppa_t11_insn(u8 opcode, u8 r2, u8 r1, u8 c, u32 w, u8 nop)
|
||||
{
|
||||
u32 ra = re_assemble_12(w);
|
||||
// ra = low_sign_unext(w,11) | (w & (1<<10)
|
||||
return ((opcode << 26) | (r2 << 21) | (r1 << 16) | (c << 13) | (nop << 1) | ra);
|
||||
}
|
||||
|
||||
/* 12. Branch instructions */
|
||||
static inline u32 hppa_t12_insn(u8 opcode, u8 rp, u32 w, u8 ext3, u8 nop)
|
||||
{
|
||||
return ((opcode << 26) | (rp << 21) | (ext3 << 13) | (nop << 1) | re_assemble_17(w));
|
||||
}
|
||||
|
||||
static inline u32 hppa_t12_L_insn(u8 opcode, u32 w, u8 nop)
|
||||
{
|
||||
return ((opcode << 26) | (0x05 << 13) | (nop << 1) | re_assemble_22(w));
|
||||
}
|
||||
|
||||
/* 21. Move to control register */
|
||||
static inline u32 hppa_t21_insn(u8 opcode, u8 r2, u8 r1, u8 ext8, u8 t)
|
||||
{
|
||||
return ((opcode << 26) | (r2 << 21) | (r1 << 16) | (ext8 << 5) | t);
|
||||
}
|
||||
|
||||
/* Helper functions called by jit code on HPPA32 and HPPA64. */
|
||||
|
||||
u64 hppa_div64(u64 div, u64 divisor);
|
||||
u64 hppa_div64_rem(u64 div, u64 divisor);
|
||||
|
||||
/* Helper functions that emit HPPA instructions when possible. */
|
||||
|
||||
void bpf_jit_build_prologue(struct hppa_jit_context *ctx);
|
||||
void bpf_jit_build_epilogue(struct hppa_jit_context *ctx);
|
||||
|
||||
int bpf_jit_emit_insn(const struct bpf_insn *insn, struct hppa_jit_context *ctx,
|
||||
bool extra_pass);
|
||||
|
||||
#endif /* _BPF_JIT_H */
|
|
@ -0,0 +1,201 @@
|
|||
// SPDX-License-Identifier: GPL-2.0
|
||||
/*
|
||||
* Common functionality for HPPA32 and HPPA64 BPF JIT compilers
|
||||
*
|
||||
* Copyright (c) 2023 Helge Deller <deller@gmx.de>
|
||||
*
|
||||
*/
|
||||
|
||||
#include <linux/bpf.h>
|
||||
#include <linux/filter.h>
|
||||
#include "bpf_jit.h"
|
||||
|
||||
/* Number of iterations to try until offsets converge. */
|
||||
#define NR_JIT_ITERATIONS 35
|
||||
|
||||
static int build_body(struct hppa_jit_context *ctx, bool extra_pass, int *offset)
|
||||
{
|
||||
const struct bpf_prog *prog = ctx->prog;
|
||||
int i;
|
||||
|
||||
ctx->reg_seen_collect = true;
|
||||
for (i = 0; i < prog->len; i++) {
|
||||
const struct bpf_insn *insn = &prog->insnsi[i];
|
||||
int ret;
|
||||
|
||||
ret = bpf_jit_emit_insn(insn, ctx, extra_pass);
|
||||
/* BPF_LD | BPF_IMM | BPF_DW: skip the next instruction. */
|
||||
if (ret > 0)
|
||||
i++;
|
||||
if (offset)
|
||||
offset[i] = ctx->ninsns;
|
||||
if (ret < 0)
|
||||
return ret;
|
||||
}
|
||||
ctx->reg_seen_collect = false;
|
||||
return 0;
|
||||
}
|
||||
|
||||
bool bpf_jit_needs_zext(void)
|
||||
{
|
||||
return true;
|
||||
}
|
||||
|
||||
struct bpf_prog *bpf_int_jit_compile(struct bpf_prog *prog)
|
||||
{
|
||||
unsigned int prog_size = 0, extable_size = 0;
|
||||
bool tmp_blinded = false, extra_pass = false;
|
||||
struct bpf_prog *tmp, *orig_prog = prog;
|
||||
int pass = 0, prev_ninsns = 0, prologue_len, i;
|
||||
struct hppa_jit_data *jit_data;
|
||||
struct hppa_jit_context *ctx;
|
||||
|
||||
if (!prog->jit_requested)
|
||||
return orig_prog;
|
||||
|
||||
tmp = bpf_jit_blind_constants(prog);
|
||||
if (IS_ERR(tmp))
|
||||
return orig_prog;
|
||||
if (tmp != prog) {
|
||||
tmp_blinded = true;
|
||||
prog = tmp;
|
||||
}
|
||||
|
||||
jit_data = prog->aux->jit_data;
|
||||
if (!jit_data) {
|
||||
jit_data = kzalloc(sizeof(*jit_data), GFP_KERNEL);
|
||||
if (!jit_data) {
|
||||
prog = orig_prog;
|
||||
goto out;
|
||||
}
|
||||
prog->aux->jit_data = jit_data;
|
||||
}
|
||||
|
||||
ctx = &jit_data->ctx;
|
||||
|
||||
if (ctx->offset) {
|
||||
extra_pass = true;
|
||||
prog_size = sizeof(*ctx->insns) * ctx->ninsns;
|
||||
goto skip_init_ctx;
|
||||
}
|
||||
|
||||
ctx->prog = prog;
|
||||
ctx->offset = kcalloc(prog->len, sizeof(int), GFP_KERNEL);
|
||||
if (!ctx->offset) {
|
||||
prog = orig_prog;
|
||||
goto out_offset;
|
||||
}
|
||||
for (i = 0; i < prog->len; i++) {
|
||||
prev_ninsns += 20;
|
||||
ctx->offset[i] = prev_ninsns;
|
||||
}
|
||||
|
||||
for (i = 0; i < NR_JIT_ITERATIONS; i++) {
|
||||
pass++;
|
||||
ctx->ninsns = 0;
|
||||
if (build_body(ctx, extra_pass, ctx->offset)) {
|
||||
prog = orig_prog;
|
||||
goto out_offset;
|
||||
}
|
||||
ctx->body_len = ctx->ninsns;
|
||||
bpf_jit_build_prologue(ctx);
|
||||
ctx->prologue_len = ctx->ninsns - ctx->body_len;
|
||||
ctx->epilogue_offset = ctx->ninsns;
|
||||
bpf_jit_build_epilogue(ctx);
|
||||
|
||||
if (ctx->ninsns == prev_ninsns) {
|
||||
if (jit_data->header)
|
||||
break;
|
||||
/* obtain the actual image size */
|
||||
extable_size = prog->aux->num_exentries *
|
||||
sizeof(struct exception_table_entry);
|
||||
prog_size = sizeof(*ctx->insns) * ctx->ninsns;
|
||||
|
||||
jit_data->header =
|
||||
bpf_jit_binary_alloc(prog_size + extable_size,
|
||||
&jit_data->image,
|
||||
sizeof(u32),
|
||||
bpf_fill_ill_insns);
|
||||
if (!jit_data->header) {
|
||||
prog = orig_prog;
|
||||
goto out_offset;
|
||||
}
|
||||
|
||||
ctx->insns = (u32 *)jit_data->image;
|
||||
/*
|
||||
* Now, when the image is allocated, the image can
|
||||
* potentially shrink more (auipc/jalr -> jal).
|
||||
*/
|
||||
}
|
||||
prev_ninsns = ctx->ninsns;
|
||||
}
|
||||
|
||||
if (i == NR_JIT_ITERATIONS) {
|
||||
pr_err("bpf-jit: image did not converge in <%d passes!\n", i);
|
||||
if (jit_data->header)
|
||||
bpf_jit_binary_free(jit_data->header);
|
||||
prog = orig_prog;
|
||||
goto out_offset;
|
||||
}
|
||||
|
||||
if (extable_size)
|
||||
prog->aux->extable = (void *)ctx->insns + prog_size;
|
||||
|
||||
skip_init_ctx:
|
||||
pass++;
|
||||
ctx->ninsns = 0;
|
||||
|
||||
bpf_jit_build_prologue(ctx);
|
||||
if (build_body(ctx, extra_pass, NULL)) {
|
||||
bpf_jit_binary_free(jit_data->header);
|
||||
prog = orig_prog;
|
||||
goto out_offset;
|
||||
}
|
||||
bpf_jit_build_epilogue(ctx);
|
||||
|
||||
if (HPPA_JIT_DEBUG || bpf_jit_enable > 1) {
|
||||
if (HPPA_JIT_DUMP)
|
||||
bpf_jit_dump(prog->len, prog_size, pass, ctx->insns);
|
||||
if (HPPA_JIT_REBOOT)
|
||||
{ extern int machine_restart(char *); machine_restart(""); }
|
||||
}
|
||||
|
||||
prog->bpf_func = (void *)ctx->insns;
|
||||
prog->jited = 1;
|
||||
prog->jited_len = prog_size;
|
||||
|
||||
bpf_flush_icache(jit_data->header, ctx->insns + ctx->ninsns);
|
||||
|
||||
if (!prog->is_func || extra_pass) {
|
||||
bpf_jit_binary_lock_ro(jit_data->header);
|
||||
prologue_len = ctx->epilogue_offset - ctx->body_len;
|
||||
for (i = 0; i < prog->len; i++)
|
||||
ctx->offset[i] += prologue_len;
|
||||
bpf_prog_fill_jited_linfo(prog, ctx->offset);
|
||||
out_offset:
|
||||
kfree(ctx->offset);
|
||||
kfree(jit_data);
|
||||
prog->aux->jit_data = NULL;
|
||||
}
|
||||
out:
|
||||
if (HPPA_JIT_REBOOT)
|
||||
{ extern int machine_restart(char *); machine_restart(""); }
|
||||
|
||||
if (tmp_blinded)
|
||||
bpf_jit_prog_release_other(prog, prog == orig_prog ?
|
||||
tmp : orig_prog);
|
||||
return prog;
|
||||
}
|
||||
|
||||
u64 hppa_div64(u64 div, u64 divisor)
|
||||
{
|
||||
div = div64_u64(div, divisor);
|
||||
return div;
|
||||
}
|
||||
|
||||
u64 hppa_div64_rem(u64 div, u64 divisor)
|
||||
{
|
||||
u64 rem;
|
||||
div64_u64_rem(div, divisor, &rem);
|
||||
return rem;
|
||||
}
|
Loading…
Reference in New Issue