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authorRichard Henderson2020-07-27 00:39:53 +0200
committerRichard Henderson2020-09-03 22:13:58 +0200
commit6b8b622e87e2cb4b22113f2bdebf18c78f5905ee (patch)
tree3e567b49c46d147ec402e8b8596a53cba2326d84
parentMerge remote-tracking branch 'remotes/legoater/tags/pull-aspeed-20200901' int... (diff)
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cputlb: Make store_helper less fragile to compiler optimizations
This has no functional change. The current function structure is: inline QEMU_ALWAYSINLINE store_memop() { switch () { ... default: qemu_build_not_reached(); } } inline QEMU_ALWAYSINLINE store_helper() { ... if (span_two_pages_or_io) { ... helper_ret_stb_mmu(); } store_memop(); } helper_ret_stb_mmu() { store_helper(); } Whereas GCC will generate an error at compile-time when an always_inline function is not inlined, Clang does not. Nor does Clang prioritize the inlining of always_inline functions. Both of these are arguably bugs. Both `store_memop` and `store_helper` need to be inlined and allow constant propogations to eliminate the `qemu_build_not_reached` call. However, if the compiler instead chooses to inline helper_ret_stb_mmu into store_helper, then store_helper is now self-recursive and the compiler is no longer able to propagate the constant in the same way. This does not produce at current QEMU head, but was reproducible at v4.2.0 with `clang-10 -O2 -fexperimental-new-pass-manager`. The inline recursion problem can be fixed solely by marking helper_ret_stb_mmu as noinline, so the compiler does not make an incorrect decision about which functions to inline. In addition, extract store_helper_unaligned as a noinline subroutine that can be shared by all of the helpers. This saves about 6k code size in an optimized x86_64 build. Reported-by: Shu-Chun Weng <scw@google.com> Reviewed-by: Alex Bennée <alex.bennee@linaro.org> Signed-off-by: Richard Henderson <richard.henderson@linaro.org>
-rw-r--r--accel/tcg/cputlb.c138
1 files changed, 79 insertions, 59 deletions
diff --git a/accel/tcg/cputlb.c b/accel/tcg/cputlb.c
index 2d48281942..6489abbf8c 100644
--- a/accel/tcg/cputlb.c
+++ b/accel/tcg/cputlb.c
@@ -2009,6 +2009,80 @@ store_memop(void *haddr, uint64_t val, MemOp op)
}
}
+static void __attribute__((noinline))
+store_helper_unaligned(CPUArchState *env, target_ulong addr, uint64_t val,
+ uintptr_t retaddr, size_t size, uintptr_t mmu_idx,
+ bool big_endian)
+{
+ const size_t tlb_off = offsetof(CPUTLBEntry, addr_write);
+ uintptr_t index, index2;
+ CPUTLBEntry *entry, *entry2;
+ target_ulong page2, tlb_addr, tlb_addr2;
+ TCGMemOpIdx oi;
+ size_t size2;
+ int i;
+
+ /*
+ * Ensure the second page is in the TLB. Note that the first page
+ * is already guaranteed to be filled, and that the second page
+ * cannot evict the first.
+ */
+ page2 = (addr + size) & TARGET_PAGE_MASK;
+ size2 = (addr + size) & ~TARGET_PAGE_MASK;
+ index2 = tlb_index(env, mmu_idx, page2);
+ entry2 = tlb_entry(env, mmu_idx, page2);
+
+ tlb_addr2 = tlb_addr_write(entry2);
+ if (!tlb_hit_page(tlb_addr2, page2)) {
+ if (!victim_tlb_hit(env, mmu_idx, index2, tlb_off, page2)) {
+ tlb_fill(env_cpu(env), page2, size2, MMU_DATA_STORE,
+ mmu_idx, retaddr);
+ index2 = tlb_index(env, mmu_idx, page2);
+ entry2 = tlb_entry(env, mmu_idx, page2);
+ }
+ tlb_addr2 = tlb_addr_write(entry2);
+ }
+
+ index = tlb_index(env, mmu_idx, addr);
+ entry = tlb_entry(env, mmu_idx, addr);
+ tlb_addr = tlb_addr_write(entry);
+
+ /*
+ * Handle watchpoints. Since this may trap, all checks
+ * must happen before any store.
+ */
+ if (unlikely(tlb_addr & TLB_WATCHPOINT)) {
+ cpu_check_watchpoint(env_cpu(env), addr, size - size2,
+ env_tlb(env)->d[mmu_idx].iotlb[index].attrs,
+ BP_MEM_WRITE, retaddr);
+ }
+ if (unlikely(tlb_addr2 & TLB_WATCHPOINT)) {
+ cpu_check_watchpoint(env_cpu(env), page2, size2,
+ env_tlb(env)->d[mmu_idx].iotlb[index2].attrs,
+ BP_MEM_WRITE, retaddr);
+ }
+
+ /*
+ * XXX: not efficient, but simple.
+ * This loop must go in the forward direction to avoid issues
+ * with self-modifying code in Windows 64-bit.
+ */
+ oi = make_memop_idx(MO_UB, mmu_idx);
+ if (big_endian) {
+ for (i = 0; i < size; ++i) {
+ /* Big-endian extract. */
+ uint8_t val8 = val >> (((size - 1) * 8) - (i * 8));
+ helper_ret_stb_mmu(env, addr + i, val8, oi, retaddr);
+ }
+ } else {
+ for (i = 0; i < size; ++i) {
+ /* Little-endian extract. */
+ uint8_t val8 = val >> (i * 8);
+ helper_ret_stb_mmu(env, addr + i, val8, oi, retaddr);
+ }
+ }
+}
+
static inline void QEMU_ALWAYS_INLINE
store_helper(CPUArchState *env, target_ulong addr, uint64_t val,
TCGMemOpIdx oi, uintptr_t retaddr, MemOp op)
@@ -2097,64 +2171,9 @@ store_helper(CPUArchState *env, target_ulong addr, uint64_t val,
if (size > 1
&& unlikely((addr & ~TARGET_PAGE_MASK) + size - 1
>= TARGET_PAGE_SIZE)) {
- int i;
- uintptr_t index2;
- CPUTLBEntry *entry2;
- target_ulong page2, tlb_addr2;
- size_t size2;
-
do_unaligned_access:
- /*
- * Ensure the second page is in the TLB. Note that the first page
- * is already guaranteed to be filled, and that the second page
- * cannot evict the first.
- */
- page2 = (addr + size) & TARGET_PAGE_MASK;
- size2 = (addr + size) & ~TARGET_PAGE_MASK;
- index2 = tlb_index(env, mmu_idx, page2);
- entry2 = tlb_entry(env, mmu_idx, page2);
- tlb_addr2 = tlb_addr_write(entry2);
- if (!tlb_hit_page(tlb_addr2, page2)) {
- if (!victim_tlb_hit(env, mmu_idx, index2, tlb_off, page2)) {
- tlb_fill(env_cpu(env), page2, size2, MMU_DATA_STORE,
- mmu_idx, retaddr);
- index2 = tlb_index(env, mmu_idx, page2);
- entry2 = tlb_entry(env, mmu_idx, page2);
- }
- tlb_addr2 = tlb_addr_write(entry2);
- }
-
- /*
- * Handle watchpoints. Since this may trap, all checks
- * must happen before any store.
- */
- if (unlikely(tlb_addr & TLB_WATCHPOINT)) {
- cpu_check_watchpoint(env_cpu(env), addr, size - size2,
- env_tlb(env)->d[mmu_idx].iotlb[index].attrs,
- BP_MEM_WRITE, retaddr);
- }
- if (unlikely(tlb_addr2 & TLB_WATCHPOINT)) {
- cpu_check_watchpoint(env_cpu(env), page2, size2,
- env_tlb(env)->d[mmu_idx].iotlb[index2].attrs,
- BP_MEM_WRITE, retaddr);
- }
-
- /*
- * XXX: not efficient, but simple.
- * This loop must go in the forward direction to avoid issues
- * with self-modifying code in Windows 64-bit.
- */
- for (i = 0; i < size; ++i) {
- uint8_t val8;
- if (memop_big_endian(op)) {
- /* Big-endian extract. */
- val8 = val >> (((size - 1) * 8) - (i * 8));
- } else {
- /* Little-endian extract. */
- val8 = val >> (i * 8);
- }
- helper_ret_stb_mmu(env, addr + i, val8, oi, retaddr);
- }
+ store_helper_unaligned(env, addr, val, retaddr, size,
+ mmu_idx, memop_big_endian(op));
return;
}
@@ -2162,8 +2181,9 @@ store_helper(CPUArchState *env, target_ulong addr, uint64_t val,
store_memop(haddr, val, op);
}
-void helper_ret_stb_mmu(CPUArchState *env, target_ulong addr, uint8_t val,
- TCGMemOpIdx oi, uintptr_t retaddr)
+void __attribute__((noinline))
+helper_ret_stb_mmu(CPUArchState *env, target_ulong addr, uint8_t val,
+ TCGMemOpIdx oi, uintptr_t retaddr)
{
store_helper(env, addr, val, oi, retaddr, MO_UB);
}