x86/fpu, sched: Dynamically allocate 'struct fpu'
The FPU rewrite removed the dynamic allocations of 'struct fpu'. But, this potentially wastes massive amounts of memory (2k per task on systems that do not have AVX-512 for instance). Instead of having a separate slab, this patch just appends the space that we need to the 'task_struct' which we dynamically allocate already. This saves from doing an extra slab allocation at fork(). The only real downside here is that we have to stick everything and the end of the task_struct. But, I think the BUILD_BUG_ON()s I stuck in there should keep that from being too fragile. Signed-off-by: Dave Hansen <dave.hansen@linux.intel.com> Cc: Andy Lutomirski <luto@amacapital.net> Cc: Borislav Petkov <bp@alien8.de> Cc: Brian Gerst <brgerst@gmail.com> Cc: Dave Hansen <dave@sr71.net> Cc: Denys Vlasenko <dvlasenk@redhat.com> Cc: H. Peter Anvin <hpa@zytor.com> Cc: Linus Torvalds <torvalds@linux-foundation.org> Cc: Oleg Nesterov <oleg@redhat.com> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Thomas Gleixner <tglx@linutronix.de> Link: http://lkml.kernel.org/r/1437128892-9831-2-git-send-email-mingo@kernel.org Signed-off-by: Ingo Molnar <mingo@kernel.org>
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@ -189,6 +189,7 @@ union fpregs_state {
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struct fxregs_state fxsave;
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struct swregs_state soft;
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struct xregs_state xsave;
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u8 __padding[PAGE_SIZE];
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};
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/*
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@ -197,40 +198,6 @@ union fpregs_state {
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* state fields:
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*/
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struct fpu {
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/*
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* @state:
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*
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* In-memory copy of all FPU registers that we save/restore
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* over context switches. If the task is using the FPU then
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* the registers in the FPU are more recent than this state
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* copy. If the task context-switches away then they get
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* saved here and represent the FPU state.
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*
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* After context switches there may be a (short) time period
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* during which the in-FPU hardware registers are unchanged
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* and still perfectly match this state, if the tasks
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* scheduled afterwards are not using the FPU.
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*
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* This is the 'lazy restore' window of optimization, which
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* we track though 'fpu_fpregs_owner_ctx' and 'fpu->last_cpu'.
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*
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* We detect whether a subsequent task uses the FPU via setting
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* CR0::TS to 1, which causes any FPU use to raise a #NM fault.
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*
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* During this window, if the task gets scheduled again, we
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* might be able to skip having to do a restore from this
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* memory buffer to the hardware registers - at the cost of
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* incurring the overhead of #NM fault traps.
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*
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* Note that on modern CPUs that support the XSAVEOPT (or other
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* optimized XSAVE instructions), we don't use #NM traps anymore,
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* as the hardware can track whether FPU registers need saving
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* or not. On such CPUs we activate the non-lazy ('eagerfpu')
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* logic, which unconditionally saves/restores all FPU state
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* across context switches. (if FPU state exists.)
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*/
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union fpregs_state state;
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/*
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* @last_cpu:
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*
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@ -288,6 +255,43 @@ struct fpu {
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* deal with bursty apps that only use the FPU for a short time:
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*/
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unsigned char counter;
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/*
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* @state:
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*
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* In-memory copy of all FPU registers that we save/restore
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* over context switches. If the task is using the FPU then
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* the registers in the FPU are more recent than this state
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* copy. If the task context-switches away then they get
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* saved here and represent the FPU state.
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*
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* After context switches there may be a (short) time period
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* during which the in-FPU hardware registers are unchanged
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* and still perfectly match this state, if the tasks
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* scheduled afterwards are not using the FPU.
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*
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* This is the 'lazy restore' window of optimization, which
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* we track though 'fpu_fpregs_owner_ctx' and 'fpu->last_cpu'.
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*
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* We detect whether a subsequent task uses the FPU via setting
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* CR0::TS to 1, which causes any FPU use to raise a #NM fault.
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*
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* During this window, if the task gets scheduled again, we
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* might be able to skip having to do a restore from this
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* memory buffer to the hardware registers - at the cost of
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* incurring the overhead of #NM fault traps.
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*
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* Note that on modern CPUs that support the XSAVEOPT (or other
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* optimized XSAVE instructions), we don't use #NM traps anymore,
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* as the hardware can track whether FPU registers need saving
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* or not. On such CPUs we activate the non-lazy ('eagerfpu')
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* logic, which unconditionally saves/restores all FPU state
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* across context switches. (if FPU state exists.)
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*/
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union fpregs_state state;
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/*
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* WARNING: 'state' is dynamically-sized. Do not put
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* anything after it here.
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*/
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};
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#endif /* _ASM_X86_FPU_H */
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@ -390,9 +390,6 @@ struct thread_struct {
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#endif
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unsigned long gs;
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/* Floating point and extended processor state */
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struct fpu fpu;
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/* Save middle states of ptrace breakpoints */
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struct perf_event *ptrace_bps[HBP_NUM];
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/* Debug status used for traps, single steps, etc... */
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@ -418,6 +415,13 @@ struct thread_struct {
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unsigned long iopl;
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/* Max allowed port in the bitmap, in bytes: */
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unsigned io_bitmap_max;
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/* Floating point and extended processor state */
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struct fpu fpu;
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/*
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* WARNING: 'fpu' is dynamically-sized. It *MUST* be at
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* the end.
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*/
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};
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/*
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@ -136,6 +136,45 @@ static void __init fpu__init_system_generic(void)
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unsigned int xstate_size;
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EXPORT_SYMBOL_GPL(xstate_size);
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#define CHECK_MEMBER_AT_END_OF(TYPE, MEMBER) \
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BUILD_BUG_ON((sizeof(TYPE) - \
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offsetof(TYPE, MEMBER) - \
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sizeof(((TYPE *)0)->MEMBER)) > \
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0) \
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/*
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* We append the 'struct fpu' to the task_struct.
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*/
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int __weak arch_task_struct_size(void)
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{
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int task_size = sizeof(struct task_struct);
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/*
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* Subtract off the static size of the register state.
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* It potentially has a bunch of padding.
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*/
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task_size -= sizeof(((struct task_struct *)0)->thread.fpu.state);
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/*
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* Add back the dynamically-calculated register state
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* size.
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*/
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task_size += xstate_size;
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/*
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* We dynamically size 'struct fpu', so we require that
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* it be at the end of 'thread_struct' and that
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* 'thread_struct' be at the end of 'task_struct'. If
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* you hit a compile error here, check the structure to
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* see if something got added to the end.
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*/
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CHECK_MEMBER_AT_END_OF(struct fpu, state);
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CHECK_MEMBER_AT_END_OF(struct thread_struct, fpu);
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CHECK_MEMBER_AT_END_OF(struct task_struct, thread);
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return task_size;
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}
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/*
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* Set up the xstate_size based on the legacy FPU context size.
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*
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@ -81,7 +81,7 @@ EXPORT_SYMBOL_GPL(idle_notifier_unregister);
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*/
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int arch_dup_task_struct(struct task_struct *dst, struct task_struct *src)
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{
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*dst = *src;
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memcpy(dst, src, arch_task_struct_size());
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return fpu__copy(&dst->thread.fpu, &src->thread.fpu);
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}
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@ -92,7 +92,7 @@ static size_t get_kcore_size(int *nphdr, size_t *elf_buflen)
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roundup(sizeof(CORE_STR), 4)) +
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roundup(sizeof(struct elf_prstatus), 4) +
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roundup(sizeof(struct elf_prpsinfo), 4) +
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roundup(sizeof(struct task_struct), 4);
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roundup(arch_task_struct_size(), 4);
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*elf_buflen = PAGE_ALIGN(*elf_buflen);
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return size + *elf_buflen;
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}
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@ -415,7 +415,7 @@ static void elf_kcore_store_hdr(char *bufp, int nphdr, int dataoff)
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/* set up the task structure */
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notes[2].name = CORE_STR;
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notes[2].type = NT_TASKSTRUCT;
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notes[2].datasz = sizeof(struct task_struct);
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notes[2].datasz = arch_task_struct_size();
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notes[2].data = current;
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nhdr->p_filesz += notesize(¬es[2]);
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@ -1522,8 +1522,6 @@ struct task_struct {
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/* hung task detection */
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unsigned long last_switch_count;
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#endif
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/* CPU-specific state of this task */
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struct thread_struct thread;
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/* filesystem information */
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struct fs_struct *fs;
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/* open file information */
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@ -1778,8 +1776,18 @@ struct task_struct {
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unsigned long task_state_change;
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#endif
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int pagefault_disabled;
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/* CPU-specific state of this task */
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struct thread_struct thread;
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/*
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* WARNING: on x86, 'thread_struct' contains a variable-sized
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* structure. It *MUST* be at the end of 'task_struct'.
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*
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* Do not put anything below here!
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*/
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};
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extern int arch_task_struct_size(void);
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/* Future-safe accessor for struct task_struct's cpus_allowed. */
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#define tsk_cpus_allowed(tsk) (&(tsk)->cpus_allowed)
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@ -287,15 +287,21 @@ static void set_max_threads(unsigned int max_threads_suggested)
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max_threads = clamp_t(u64, threads, MIN_THREADS, MAX_THREADS);
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}
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int __weak arch_task_struct_size(void)
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{
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return sizeof(struct task_struct);
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}
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void __init fork_init(void)
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{
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int task_struct_size = arch_task_struct_size();
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#ifndef CONFIG_ARCH_TASK_STRUCT_ALLOCATOR
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#ifndef ARCH_MIN_TASKALIGN
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#define ARCH_MIN_TASKALIGN L1_CACHE_BYTES
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#endif
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/* create a slab on which task_structs can be allocated */
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task_struct_cachep =
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kmem_cache_create("task_struct", sizeof(struct task_struct),
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kmem_cache_create("task_struct", task_struct_size,
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ARCH_MIN_TASKALIGN, SLAB_PANIC | SLAB_NOTRACK, NULL);
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#endif
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