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2b2fe6052d
Use rseq_unqual_scalar_typeof() rather than typeof() in macros to remove the volatile qualifier (if there is one in the input argument), thus generating better assembly code in those scenarios. Also add extra brackets around the "p" parameter in RSEQ_READ_ONCE(), RSEQ_WRITE_ONCE(), and rseq_unqual_scalar_typeof() across architectures to preserve expectations of operator priority. Here is an example that shows how operator priority may be an issue with missing parentheses: #define m(p) \ do { \ __typeof__(*p) v = 0; \ } while (0) void fct(unsigned long long *p1) { m(p1 + 1); /* works */ m(1 + p1); /* broken */ } Signed-off-by: Mathieu Desnoyers <mathieu.desnoyers@efficios.com> Cc: Peter Zijlstra <peterz@infradead.org> Signed-off-by: Shuah Khan <skhan@linuxfoundation.org>
199 lines
6.7 KiB
C
199 lines
6.7 KiB
C
/* SPDX-License-Identifier: LGPL-2.1 OR MIT */
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/*
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* Select the instruction "csrw mhartid, x0" as the RSEQ_SIG. Unlike
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* other architectures, the ebreak instruction has no immediate field for
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* distinguishing purposes. Hence, ebreak is not suitable as RSEQ_SIG.
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* "csrw mhartid, x0" can also satisfy the RSEQ requirement because it
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* is an uncommon instruction and will raise an illegal instruction
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* exception when executed in all modes.
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*/
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#include <endian.h>
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#if defined(__BYTE_ORDER) ? (__BYTE_ORDER == __LITTLE_ENDIAN) : defined(__LITTLE_ENDIAN)
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#define RSEQ_SIG 0xf1401073 /* csrr mhartid, x0 */
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#else
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#error "Currently, RSEQ only supports Little-Endian version"
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#endif
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#if __riscv_xlen == 64
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#define __REG_SEL(a, b) a
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#elif __riscv_xlen == 32
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#define __REG_SEL(a, b) b
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#endif
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#define REG_L __REG_SEL("ld ", "lw ")
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#define REG_S __REG_SEL("sd ", "sw ")
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#define RISCV_FENCE(p, s) \
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__asm__ __volatile__ ("fence " #p "," #s : : : "memory")
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#define rseq_smp_mb() RISCV_FENCE(rw, rw)
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#define rseq_smp_rmb() RISCV_FENCE(r, r)
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#define rseq_smp_wmb() RISCV_FENCE(w, w)
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#define RSEQ_ASM_TMP_REG_1 "t6"
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#define RSEQ_ASM_TMP_REG_2 "t5"
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#define RSEQ_ASM_TMP_REG_3 "t4"
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#define RSEQ_ASM_TMP_REG_4 "t3"
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#define rseq_smp_load_acquire(p) \
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__extension__ ({ \
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rseq_unqual_scalar_typeof(*(p)) ____p1 = RSEQ_READ_ONCE(*(p)); \
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RISCV_FENCE(r, rw); \
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____p1; \
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})
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#define rseq_smp_acquire__after_ctrl_dep() rseq_smp_rmb()
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#define rseq_smp_store_release(p, v) \
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do { \
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RISCV_FENCE(rw, w); \
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RSEQ_WRITE_ONCE(*(p), v); \
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} while (0)
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#define __RSEQ_ASM_DEFINE_TABLE(label, version, flags, start_ip, \
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post_commit_offset, abort_ip) \
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".pushsection __rseq_cs, \"aw\"\n" \
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".balign 32\n" \
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__rseq_str(label) ":\n" \
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".long " __rseq_str(version) ", " __rseq_str(flags) "\n" \
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".quad " __rseq_str(start_ip) ", " \
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__rseq_str(post_commit_offset) ", " \
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__rseq_str(abort_ip) "\n" \
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".popsection\n\t" \
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".pushsection __rseq_cs_ptr_array, \"aw\"\n" \
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".quad " __rseq_str(label) "b\n" \
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".popsection\n"
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#define RSEQ_ASM_DEFINE_TABLE(label, start_ip, post_commit_ip, abort_ip) \
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__RSEQ_ASM_DEFINE_TABLE(label, 0x0, 0x0, start_ip, \
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((post_commit_ip) - (start_ip)), abort_ip)
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/*
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* Exit points of a rseq critical section consist of all instructions outside
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* of the critical section where a critical section can either branch to or
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* reach through the normal course of its execution. The abort IP and the
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* post-commit IP are already part of the __rseq_cs section and should not be
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* explicitly defined as additional exit points. Knowing all exit points is
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* useful to assist debuggers stepping over the critical section.
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*/
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#define RSEQ_ASM_DEFINE_EXIT_POINT(start_ip, exit_ip) \
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".pushsection __rseq_exit_point_array, \"aw\"\n" \
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".quad " __rseq_str(start_ip) ", " __rseq_str(exit_ip) "\n" \
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".popsection\n"
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#define RSEQ_ASM_STORE_RSEQ_CS(label, cs_label, rseq_cs) \
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RSEQ_INJECT_ASM(1) \
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"la " RSEQ_ASM_TMP_REG_1 ", " __rseq_str(cs_label) "\n" \
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REG_S RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(rseq_cs) "]\n" \
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__rseq_str(label) ":\n"
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#define RSEQ_ASM_DEFINE_ABORT(label, abort_label) \
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"j 222f\n" \
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".balign 4\n" \
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".long " __rseq_str(RSEQ_SIG) "\n" \
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__rseq_str(label) ":\n" \
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"j %l[" __rseq_str(abort_label) "]\n" \
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"222:\n"
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#define RSEQ_ASM_OP_STORE(value, var) \
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REG_S "%[" __rseq_str(value) "], %[" __rseq_str(var) "]\n"
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#define RSEQ_ASM_OP_CMPEQ(var, expect, label) \
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REG_L RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(var) "]\n" \
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"bne " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(expect) "] ," \
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__rseq_str(label) "\n"
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#define RSEQ_ASM_OP_CMPEQ32(var, expect, label) \
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"lw " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(var) "]\n" \
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"bne " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(expect) "] ," \
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__rseq_str(label) "\n"
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#define RSEQ_ASM_OP_CMPNE(var, expect, label) \
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REG_L RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(var) "]\n" \
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"beq " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(expect) "] ," \
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__rseq_str(label) "\n"
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#define RSEQ_ASM_CMP_CPU_ID(cpu_id, current_cpu_id, label) \
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RSEQ_INJECT_ASM(2) \
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RSEQ_ASM_OP_CMPEQ32(current_cpu_id, cpu_id, label)
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#define RSEQ_ASM_OP_R_LOAD(var) \
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REG_L RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(var) "]\n"
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#define RSEQ_ASM_OP_R_STORE(var) \
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REG_S RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(var) "]\n"
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#define RSEQ_ASM_OP_R_LOAD_OFF(offset) \
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"add " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(offset) "], " \
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RSEQ_ASM_TMP_REG_1 "\n" \
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REG_L RSEQ_ASM_TMP_REG_1 ", (" RSEQ_ASM_TMP_REG_1 ")\n"
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#define RSEQ_ASM_OP_R_ADD(count) \
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"add " RSEQ_ASM_TMP_REG_1 ", " RSEQ_ASM_TMP_REG_1 \
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", %[" __rseq_str(count) "]\n"
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#define RSEQ_ASM_OP_FINAL_STORE(value, var, post_commit_label) \
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RSEQ_ASM_OP_STORE(value, var) \
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__rseq_str(post_commit_label) ":\n"
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#define RSEQ_ASM_OP_FINAL_STORE_RELEASE(value, var, post_commit_label) \
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"fence rw, w\n" \
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RSEQ_ASM_OP_STORE(value, var) \
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__rseq_str(post_commit_label) ":\n"
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#define RSEQ_ASM_OP_R_FINAL_STORE(var, post_commit_label) \
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REG_S RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(var) "]\n" \
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__rseq_str(post_commit_label) ":\n"
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#define RSEQ_ASM_OP_R_BAD_MEMCPY(dst, src, len) \
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"beqz %[" __rseq_str(len) "], 333f\n" \
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"mv " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(len) "]\n" \
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"mv " RSEQ_ASM_TMP_REG_2 ", %[" __rseq_str(src) "]\n" \
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"mv " RSEQ_ASM_TMP_REG_3 ", %[" __rseq_str(dst) "]\n" \
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"222:\n" \
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"lb " RSEQ_ASM_TMP_REG_4 ", 0(" RSEQ_ASM_TMP_REG_2 ")\n" \
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"sb " RSEQ_ASM_TMP_REG_4 ", 0(" RSEQ_ASM_TMP_REG_3 ")\n" \
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"addi " RSEQ_ASM_TMP_REG_1 ", " RSEQ_ASM_TMP_REG_1 ", -1\n" \
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"addi " RSEQ_ASM_TMP_REG_2 ", " RSEQ_ASM_TMP_REG_2 ", 1\n" \
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"addi " RSEQ_ASM_TMP_REG_3 ", " RSEQ_ASM_TMP_REG_3 ", 1\n" \
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"bnez " RSEQ_ASM_TMP_REG_1 ", 222b\n" \
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"333:\n"
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#define RSEQ_ASM_OP_R_DEREF_ADDV(ptr, off, post_commit_label) \
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"mv " RSEQ_ASM_TMP_REG_1 ", %[" __rseq_str(ptr) "]\n" \
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RSEQ_ASM_OP_R_ADD(off) \
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REG_L RSEQ_ASM_TMP_REG_1 ", 0(" RSEQ_ASM_TMP_REG_1 ")\n" \
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RSEQ_ASM_OP_R_ADD(inc) \
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__rseq_str(post_commit_label) ":\n"
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/* Per-cpu-id indexing. */
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#define RSEQ_TEMPLATE_CPU_ID
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#define RSEQ_TEMPLATE_MO_RELAXED
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#include "rseq-riscv-bits.h"
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#undef RSEQ_TEMPLATE_MO_RELAXED
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#define RSEQ_TEMPLATE_MO_RELEASE
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#include "rseq-riscv-bits.h"
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#undef RSEQ_TEMPLATE_MO_RELEASE
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#undef RSEQ_TEMPLATE_CPU_ID
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/* Per-mm-cid indexing. */
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#define RSEQ_TEMPLATE_MM_CID
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#define RSEQ_TEMPLATE_MO_RELAXED
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#include "rseq-riscv-bits.h"
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#undef RSEQ_TEMPLATE_MO_RELAXED
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#define RSEQ_TEMPLATE_MO_RELEASE
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#include "rseq-riscv-bits.h"
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#undef RSEQ_TEMPLATE_MO_RELEASE
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#undef RSEQ_TEMPLATE_MM_CID
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/* APIs which are not based on cpu ids. */
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#define RSEQ_TEMPLATE_CPU_ID_NONE
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#define RSEQ_TEMPLATE_MO_RELAXED
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#include "rseq-riscv-bits.h"
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#undef RSEQ_TEMPLATE_MO_RELAXED
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#undef RSEQ_TEMPLATE_CPU_ID_NONE
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