Merge branch 'upstream' of git://git.linux-mips.org/pub/scm/ralf/upstream-linus
Pull MIPS fixes from Ralf Baechle: "Here's a final round of fixes for 4.12: - Fix misordered instructions in assembly code making kenel startup via UHB unreliable. - Fix special case of MADDF and MADDF emulation. - Fix alignment issue in address calculation in pm-cps on 64 bit. - Fix IRQ tracing & lockdep when rescheduling - Systems with MAARs require post-DMA cache flushes. The reordering fix and the MADDF/MSUBF fix have sat in linux-next for a number of days. The others haven't propagated from my pull tree to linux-next yet but all have survived manual testing and Imagination's automated test system and there are no pending bug reports" * 'upstream' of git://git.linux-mips.org/pub/scm/ralf/upstream-linus: MIPS: Avoid accidental raw backtrace MIPS: Perform post-DMA cache flushes on systems with MAARs MIPS: Fix IRQ tracing & lockdep when rescheduling MIPS: pm-cps: Drop manual cache-line alignment of ready_count MIPS: math-emu: Handle zero accumulator case in MADDF and MSUBF separately MIPS: head: Reorder instructions missing a delay slot
This commit is contained in:
commit
79c4968169
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@ -11,6 +11,7 @@
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#include <asm/asm.h>
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#include <asm/asmmacro.h>
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#include <asm/compiler.h>
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#include <asm/irqflags.h>
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#include <asm/regdef.h>
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#include <asm/mipsregs.h>
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#include <asm/stackframe.h>
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@ -119,6 +120,7 @@ work_pending:
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andi t0, a2, _TIF_NEED_RESCHED # a2 is preloaded with TI_FLAGS
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beqz t0, work_notifysig
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work_resched:
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TRACE_IRQS_OFF
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jal schedule
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local_irq_disable # make sure need_resched and
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@ -155,6 +157,7 @@ syscall_exit_work:
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beqz t0, work_pending # trace bit set?
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local_irq_enable # could let syscall_trace_leave()
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# call schedule() instead
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TRACE_IRQS_ON
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move a0, sp
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jal syscall_trace_leave
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b resume_userspace
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@ -106,8 +106,8 @@ NESTED(kernel_entry, 16, sp) # kernel entry point
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beq t0, t1, dtb_found
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#endif
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li t1, -2
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beq a0, t1, dtb_found
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move t2, a1
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beq a0, t1, dtb_found
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li t2, 0
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dtb_found:
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@ -56,7 +56,6 @@ DECLARE_BITMAP(state_support, CPS_PM_STATE_COUNT);
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* state. Actually per-core rather than per-CPU.
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*/
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static DEFINE_PER_CPU_ALIGNED(u32*, ready_count);
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static DEFINE_PER_CPU_ALIGNED(void*, ready_count_alloc);
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/* Indicates online CPUs coupled with the current CPU */
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static DEFINE_PER_CPU_ALIGNED(cpumask_t, online_coupled);
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@ -642,7 +641,6 @@ static int cps_pm_online_cpu(unsigned int cpu)
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{
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enum cps_pm_state state;
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unsigned core = cpu_data[cpu].core;
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unsigned dlinesz = cpu_data[cpu].dcache.linesz;
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void *entry_fn, *core_rc;
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for (state = CPS_PM_NC_WAIT; state < CPS_PM_STATE_COUNT; state++) {
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@ -662,16 +660,11 @@ static int cps_pm_online_cpu(unsigned int cpu)
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}
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if (!per_cpu(ready_count, core)) {
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core_rc = kmalloc(dlinesz * 2, GFP_KERNEL);
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core_rc = kmalloc(sizeof(u32), GFP_KERNEL);
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if (!core_rc) {
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pr_err("Failed allocate core %u ready_count\n", core);
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return -ENOMEM;
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}
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per_cpu(ready_count_alloc, core) = core_rc;
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/* Ensure ready_count is aligned to a cacheline boundary */
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core_rc += dlinesz - 1;
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core_rc = (void *)((unsigned long)core_rc & ~(dlinesz - 1));
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per_cpu(ready_count, core) = core_rc;
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}
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@ -201,6 +201,8 @@ void show_stack(struct task_struct *task, unsigned long *sp)
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{
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struct pt_regs regs;
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mm_segment_t old_fs = get_fs();
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regs.cp0_status = KSU_KERNEL;
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if (sp) {
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regs.regs[29] = (unsigned long)sp;
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regs.regs[31] = 0;
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@ -54,7 +54,7 @@ static union ieee754dp _dp_maddf(union ieee754dp z, union ieee754dp x,
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return ieee754dp_nanxcpt(z);
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case IEEE754_CLASS_DNORM:
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DPDNORMZ;
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/* QNAN is handled separately below */
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/* QNAN and ZERO cases are handled separately below */
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}
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switch (CLPAIR(xc, yc)) {
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@ -210,6 +210,9 @@ static union ieee754dp _dp_maddf(union ieee754dp z, union ieee754dp x,
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}
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assert(rm & (DP_HIDDEN_BIT << 3));
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if (zc == IEEE754_CLASS_ZERO)
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return ieee754dp_format(rs, re, rm);
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/* And now the addition */
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assert(zm & DP_HIDDEN_BIT);
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@ -54,7 +54,7 @@ static union ieee754sp _sp_maddf(union ieee754sp z, union ieee754sp x,
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return ieee754sp_nanxcpt(z);
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case IEEE754_CLASS_DNORM:
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SPDNORMZ;
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/* QNAN is handled separately below */
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/* QNAN and ZERO cases are handled separately below */
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}
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switch (CLPAIR(xc, yc)) {
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@ -203,6 +203,9 @@ static union ieee754sp _sp_maddf(union ieee754sp z, union ieee754sp x,
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}
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assert(rm & (SP_HIDDEN_BIT << 3));
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if (zc == IEEE754_CLASS_ZERO)
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return ieee754sp_format(rs, re, rm);
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/* And now the addition */
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assert(zm & SP_HIDDEN_BIT);
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@ -68,12 +68,25 @@ static inline struct page *dma_addr_to_page(struct device *dev,
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* systems and only the R10000 and R12000 are used in such systems, the
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* SGI IP28 Indigo² rsp. SGI IP32 aka O2.
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*/
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static inline int cpu_needs_post_dma_flush(struct device *dev)
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static inline bool cpu_needs_post_dma_flush(struct device *dev)
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{
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return !plat_device_is_coherent(dev) &&
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(boot_cpu_type() == CPU_R10000 ||
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boot_cpu_type() == CPU_R12000 ||
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boot_cpu_type() == CPU_BMIPS5000);
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if (plat_device_is_coherent(dev))
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return false;
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switch (boot_cpu_type()) {
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case CPU_R10000:
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case CPU_R12000:
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case CPU_BMIPS5000:
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return true;
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default:
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/*
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* Presence of MAARs suggests that the CPU supports
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* speculatively prefetching data, and therefore requires
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* the post-DMA flush/invalidate.
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*/
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return cpu_has_maar;
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}
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}
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static gfp_t massage_gfp_flags(const struct device *dev, gfp_t gfp)
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