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authorTejun Heo <tj@kernel.org>2009-08-14 15:00:51 +0900
committerTejun Heo <tj@kernel.org>2009-08-14 15:00:51 +0900
commit033e48fb82958053113178264ddb9d5038d5e38b (patch)
treea0f0a0d35ca050f9f974c8e50dce7c767d6e7ee6 /mm
parent3cbc85652767c38b252c8de55f9fd180b29e4c0d (diff)
downloadblackbird-op-linux-033e48fb82958053113178264ddb9d5038d5e38b.tar.gz
blackbird-op-linux-033e48fb82958053113178264ddb9d5038d5e38b.zip
percpu: move pcpu_lpage_build_unit_map() and pcpul_lpage_dump_cfg() upward
Unit map handling will be generalized and extended and used for embedding sparse first chunk and other purposes. Relocate two unit_map related functions upward in preparation. This patch just moves the code without any actual change. Signed-off-by: Tejun Heo <tj@kernel.org>
Diffstat (limited to 'mm')
-rw-r--r--mm/percpu.c339
1 files changed, 172 insertions, 167 deletions
diff --git a/mm/percpu.c b/mm/percpu.c
index 3316e3aac7ee..2b9c4b2a2fc0 100644
--- a/mm/percpu.c
+++ b/mm/percpu.c
@@ -1231,6 +1231,178 @@ void free_percpu(void *ptr)
}
EXPORT_SYMBOL_GPL(free_percpu);
+static inline size_t pcpu_calc_fc_sizes(size_t static_size,
+ size_t reserved_size,
+ ssize_t *dyn_sizep)
+{
+ size_t size_sum;
+
+ size_sum = PFN_ALIGN(static_size + reserved_size +
+ (*dyn_sizep >= 0 ? *dyn_sizep : 0));
+ if (*dyn_sizep != 0)
+ *dyn_sizep = size_sum - static_size - reserved_size;
+
+ return size_sum;
+}
+
+#ifdef CONFIG_NEED_PER_CPU_LPAGE_FIRST_CHUNK
+/**
+ * pcpu_lpage_build_unit_map - build unit_map for large page remapping
+ * @reserved_size: the size of reserved percpu area in bytes
+ * @dyn_sizep: in/out parameter for dynamic size, -1 for auto
+ * @unit_sizep: out parameter for unit size
+ * @unit_map: unit_map to be filled
+ * @cpu_distance_fn: callback to determine distance between cpus
+ *
+ * This function builds cpu -> unit map and determine other parameters
+ * considering needed percpu size, large page size and distances
+ * between CPUs in NUMA.
+ *
+ * CPUs which are of LOCAL_DISTANCE both ways are grouped together and
+ * may share units in the same large page. The returned configuration
+ * is guaranteed to have CPUs on different nodes on different large
+ * pages and >=75% usage of allocated virtual address space.
+ *
+ * RETURNS:
+ * On success, fills in @unit_map, sets *@dyn_sizep, *@unit_sizep and
+ * returns the number of units to be allocated. -errno on failure.
+ */
+int __init pcpu_lpage_build_unit_map(size_t reserved_size, ssize_t *dyn_sizep,
+ size_t *unit_sizep, size_t lpage_size,
+ int *unit_map,
+ pcpu_fc_cpu_distance_fn_t cpu_distance_fn)
+{
+ static int group_map[NR_CPUS] __initdata;
+ static int group_cnt[NR_CPUS] __initdata;
+ const size_t static_size = __per_cpu_end - __per_cpu_start;
+ int group_cnt_max = 0;
+ size_t size_sum, min_unit_size, alloc_size;
+ int upa, max_upa, uninitialized_var(best_upa); /* units_per_alloc */
+ int last_allocs;
+ unsigned int cpu, tcpu;
+ int group, unit;
+
+ /*
+ * Determine min_unit_size, alloc_size and max_upa such that
+ * alloc_size is multiple of lpage_size and is the smallest
+ * which can accomodate 4k aligned segments which are equal to
+ * or larger than min_unit_size.
+ */
+ size_sum = pcpu_calc_fc_sizes(static_size, reserved_size, dyn_sizep);
+ min_unit_size = max_t(size_t, size_sum, PCPU_MIN_UNIT_SIZE);
+
+ alloc_size = roundup(min_unit_size, lpage_size);
+ upa = alloc_size / min_unit_size;
+ while (alloc_size % upa || ((alloc_size / upa) & ~PAGE_MASK))
+ upa--;
+ max_upa = upa;
+
+ /* group cpus according to their proximity */
+ for_each_possible_cpu(cpu) {
+ group = 0;
+ next_group:
+ for_each_possible_cpu(tcpu) {
+ if (cpu == tcpu)
+ break;
+ if (group_map[tcpu] == group &&
+ (cpu_distance_fn(cpu, tcpu) > LOCAL_DISTANCE ||
+ cpu_distance_fn(tcpu, cpu) > LOCAL_DISTANCE)) {
+ group++;
+ goto next_group;
+ }
+ }
+ group_map[cpu] = group;
+ group_cnt[group]++;
+ group_cnt_max = max(group_cnt_max, group_cnt[group]);
+ }
+
+ /*
+ * Expand unit size until address space usage goes over 75%
+ * and then as much as possible without using more address
+ * space.
+ */
+ last_allocs = INT_MAX;
+ for (upa = max_upa; upa; upa--) {
+ int allocs = 0, wasted = 0;
+
+ if (alloc_size % upa || ((alloc_size / upa) & ~PAGE_MASK))
+ continue;
+
+ for (group = 0; group_cnt[group]; group++) {
+ int this_allocs = DIV_ROUND_UP(group_cnt[group], upa);
+ allocs += this_allocs;
+ wasted += this_allocs * upa - group_cnt[group];
+ }
+
+ /*
+ * Don't accept if wastage is over 25%. The
+ * greater-than comparison ensures upa==1 always
+ * passes the following check.
+ */
+ if (wasted > num_possible_cpus() / 3)
+ continue;
+
+ /* and then don't consume more memory */
+ if (allocs > last_allocs)
+ break;
+ last_allocs = allocs;
+ best_upa = upa;
+ }
+ *unit_sizep = alloc_size / best_upa;
+
+ /* assign units to cpus accordingly */
+ unit = 0;
+ for (group = 0; group_cnt[group]; group++) {
+ for_each_possible_cpu(cpu)
+ if (group_map[cpu] == group)
+ unit_map[cpu] = unit++;
+ unit = roundup(unit, best_upa);
+ }
+
+ return unit; /* unit contains aligned number of units */
+}
+
+static bool __init pcpul_unit_to_cpu(int unit, const int *unit_map,
+ unsigned int *cpup);
+
+static void __init pcpul_lpage_dump_cfg(const char *lvl, size_t static_size,
+ size_t reserved_size, size_t dyn_size,
+ size_t unit_size, size_t lpage_size,
+ const int *unit_map, int nr_units)
+{
+ int width = 1, v = nr_units;
+ char empty_str[] = "--------";
+ int upl, lpl; /* units per lpage, lpage per line */
+ unsigned int cpu;
+ int lpage, unit;
+
+ while (v /= 10)
+ width++;
+ empty_str[min_t(int, width, sizeof(empty_str) - 1)] = '\0';
+
+ upl = max_t(int, lpage_size / unit_size, 1);
+ lpl = rounddown_pow_of_two(max_t(int, 60 / (upl * (width + 1) + 2), 1));
+
+ printk("%spcpu-lpage: sta/res/dyn=%zu/%zu/%zu unit=%zu lpage=%zu", lvl,
+ static_size, reserved_size, dyn_size, unit_size, lpage_size);
+
+ for (lpage = 0, unit = 0; unit < nr_units; unit++) {
+ if (!(unit % upl)) {
+ if (!(lpage++ % lpl)) {
+ printk("\n");
+ printk("%spcpu-lpage: ", lvl);
+ } else
+ printk("| ");
+ }
+ if (pcpul_unit_to_cpu(unit, unit_map, &cpu))
+ printk("%0*d ", width, cpu);
+ else
+ printk("%s ", empty_str);
+ }
+ printk("\n");
+}
+#endif
+
/**
* pcpu_setup_first_chunk - initialize the first percpu chunk
* @static_size: the size of static percpu area in bytes
@@ -1441,20 +1613,6 @@ static int __init percpu_alloc_setup(char *str)
}
early_param("percpu_alloc", percpu_alloc_setup);
-static inline size_t pcpu_calc_fc_sizes(size_t static_size,
- size_t reserved_size,
- ssize_t *dyn_sizep)
-{
- size_t size_sum;
-
- size_sum = PFN_ALIGN(static_size + reserved_size +
- (*dyn_sizep >= 0 ? *dyn_sizep : 0));
- if (*dyn_sizep != 0)
- *dyn_sizep = size_sum - static_size - reserved_size;
-
- return size_sum;
-}
-
#if defined(CONFIG_NEED_PER_CPU_EMBED_FIRST_CHUNK) || \
!defined(CONFIG_HAVE_SETUP_PER_CPU_AREA)
/**
@@ -1637,122 +1795,6 @@ out_free_ar:
#endif /* CONFIG_NEED_PER_CPU_PAGE_FIRST_CHUNK */
#ifdef CONFIG_NEED_PER_CPU_LPAGE_FIRST_CHUNK
-/**
- * pcpu_lpage_build_unit_map - build unit_map for large page remapping
- * @reserved_size: the size of reserved percpu area in bytes
- * @dyn_sizep: in/out parameter for dynamic size, -1 for auto
- * @unit_sizep: out parameter for unit size
- * @unit_map: unit_map to be filled
- * @cpu_distance_fn: callback to determine distance between cpus
- *
- * This function builds cpu -> unit map and determine other parameters
- * considering needed percpu size, large page size and distances
- * between CPUs in NUMA.
- *
- * CPUs which are of LOCAL_DISTANCE both ways are grouped together and
- * may share units in the same large page. The returned configuration
- * is guaranteed to have CPUs on different nodes on different large
- * pages and >=75% usage of allocated virtual address space.
- *
- * RETURNS:
- * On success, fills in @unit_map, sets *@dyn_sizep, *@unit_sizep and
- * returns the number of units to be allocated. -errno on failure.
- */
-int __init pcpu_lpage_build_unit_map(size_t reserved_size, ssize_t *dyn_sizep,
- size_t *unit_sizep, size_t lpage_size,
- int *unit_map,
- pcpu_fc_cpu_distance_fn_t cpu_distance_fn)
-{
- static int group_map[NR_CPUS] __initdata;
- static int group_cnt[NR_CPUS] __initdata;
- const size_t static_size = __per_cpu_end - __per_cpu_start;
- int group_cnt_max = 0;
- size_t size_sum, min_unit_size, alloc_size;
- int upa, max_upa, uninitialized_var(best_upa); /* units_per_alloc */
- int last_allocs;
- unsigned int cpu, tcpu;
- int group, unit;
-
- /*
- * Determine min_unit_size, alloc_size and max_upa such that
- * alloc_size is multiple of lpage_size and is the smallest
- * which can accomodate 4k aligned segments which are equal to
- * or larger than min_unit_size.
- */
- size_sum = pcpu_calc_fc_sizes(static_size, reserved_size, dyn_sizep);
- min_unit_size = max_t(size_t, size_sum, PCPU_MIN_UNIT_SIZE);
-
- alloc_size = roundup(min_unit_size, lpage_size);
- upa = alloc_size / min_unit_size;
- while (alloc_size % upa || ((alloc_size / upa) & ~PAGE_MASK))
- upa--;
- max_upa = upa;
-
- /* group cpus according to their proximity */
- for_each_possible_cpu(cpu) {
- group = 0;
- next_group:
- for_each_possible_cpu(tcpu) {
- if (cpu == tcpu)
- break;
- if (group_map[tcpu] == group &&
- (cpu_distance_fn(cpu, tcpu) > LOCAL_DISTANCE ||
- cpu_distance_fn(tcpu, cpu) > LOCAL_DISTANCE)) {
- group++;
- goto next_group;
- }
- }
- group_map[cpu] = group;
- group_cnt[group]++;
- group_cnt_max = max(group_cnt_max, group_cnt[group]);
- }
-
- /*
- * Expand unit size until address space usage goes over 75%
- * and then as much as possible without using more address
- * space.
- */
- last_allocs = INT_MAX;
- for (upa = max_upa; upa; upa--) {
- int allocs = 0, wasted = 0;
-
- if (alloc_size % upa || ((alloc_size / upa) & ~PAGE_MASK))
- continue;
-
- for (group = 0; group_cnt[group]; group++) {
- int this_allocs = DIV_ROUND_UP(group_cnt[group], upa);
- allocs += this_allocs;
- wasted += this_allocs * upa - group_cnt[group];
- }
-
- /*
- * Don't accept if wastage is over 25%. The
- * greater-than comparison ensures upa==1 always
- * passes the following check.
- */
- if (wasted > num_possible_cpus() / 3)
- continue;
-
- /* and then don't consume more memory */
- if (allocs > last_allocs)
- break;
- last_allocs = allocs;
- best_upa = upa;
- }
- *unit_sizep = alloc_size / best_upa;
-
- /* assign units to cpus accordingly */
- unit = 0;
- for (group = 0; group_cnt[group]; group++) {
- for_each_possible_cpu(cpu)
- if (group_map[cpu] == group)
- unit_map[cpu] = unit++;
- unit = roundup(unit, best_upa);
- }
-
- return unit; /* unit contains aligned number of units */
-}
-
struct pcpul_ent {
void *ptr;
void *map_addr;
@@ -1778,43 +1820,6 @@ static bool __init pcpul_unit_to_cpu(int unit, const int *unit_map,
return false;
}
-static void __init pcpul_lpage_dump_cfg(const char *lvl, size_t static_size,
- size_t reserved_size, size_t dyn_size,
- size_t unit_size, size_t lpage_size,
- const int *unit_map, int nr_units)
-{
- int width = 1, v = nr_units;
- char empty_str[] = "--------";
- int upl, lpl; /* units per lpage, lpage per line */
- unsigned int cpu;
- int lpage, unit;
-
- while (v /= 10)
- width++;
- empty_str[min_t(int, width, sizeof(empty_str) - 1)] = '\0';
-
- upl = max_t(int, lpage_size / unit_size, 1);
- lpl = rounddown_pow_of_two(max_t(int, 60 / (upl * (width + 1) + 2), 1));
-
- printk("%spcpu-lpage: sta/res/dyn=%zu/%zu/%zu unit=%zu lpage=%zu", lvl,
- static_size, reserved_size, dyn_size, unit_size, lpage_size);
-
- for (lpage = 0, unit = 0; unit < nr_units; unit++) {
- if (!(unit % upl)) {
- if (!(lpage++ % lpl)) {
- printk("\n");
- printk("%spcpu-lpage: ", lvl);
- } else
- printk("| ");
- }
- if (pcpul_unit_to_cpu(unit, unit_map, &cpu))
- printk("%0*d ", width, cpu);
- else
- printk("%s ", empty_str);
- }
- printk("\n");
-}
-
/**
* pcpu_lpage_first_chunk - remap the first percpu chunk using large page
* @reserved_size: the size of reserved percpu area in bytes
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