library: normalize/standardize the i/f, <SLABINFO> api

Before this major redesign, the slabs interface likely
was our messiest 2nd generation attempt at opaqueness.
Beyond the standard 'new', 'ref' & 'unref', there were
a total of 12 exported functions. Now, there are four.

The 1st step was to remove several of those functions.
These were quick to go since they were not used (yet):
. procps_slabnode_count
. procps_slabnode_getname
. procps_slabnode_getstack

Then, the following were internalized so users needn't
be burdened with implementation details in the future:
. procps_slabinfo_read (renamed: read_slabinfo_failed)
. procps_slabnode_stacks_alloc (renamed: stacks_alloc)

Still others evolved into the minimal interface we had
strived for in the other upgraded 3rd generation APIs:
. procps_slabnode_get -----------> procps_slabinfo_get
. separate stack_alloc/fill --> procps_slabinfo_select
. separate stacks_alloc/fill ---> procps_slabinfo_reap
. procps_slabnode_stacks_sort --> procps_slabinfo_sort

------------------------------------------------------
Beyond those reductions, the major modifications were:

. This API tries to be as forgiving as possible and as
such won't throw errors when a caller request makes no
sense. For example, if a 'get' or 'select' requested a
SLABNODE item (with no current means to id that node),
results will be zero. By the same token, should 'reap'
include a global SLABS item (meaning those values will
be duplicated in *every* node stack) it'll be allowed.

. If the above behavior is undesired, a new #define of
ENFORCE_LOGICAL can be used to restrict certain items.

. Permission problems will now be caught at 'new' time
thanks to a priming 'read' call. That read also serves
to make DELTA values potentially useful at 1st access.

. Separate slab/slabnode enumerators were consolidated
into one, simplifying validation & the results struct.

. Several internal parameter checks were relaxed since
they were already checked by the caller. Besides if we
cannot trust our own code we might as well hang it up.

. That sort provision was made more efficient and will
offer the ascending choice, in addition to descending.

------------------------------------------------------
Lastly, some additional thoughts regarding the future:

. It would not be difficult to expand 'select' to also
accept a nodeid, or to clone it as 'select_node'. And,
should the same be extended to 'get', a results struct
could be returned instead of signed long accommodating
the extra data type(s) like a node name (string data).

. The 'get' function is not currently affected by that
 define ENFORCE_LOGICAL. However, at some future point
perhaps -EINVAL would be more appropriate than a zero.

Signed-off-by: Jim Warner <james.warner@comcast.net>

proc/libprocps.sym

@@ -33,20 +33,12 @@ global:
 	procps_pids_select;
 	procps_pids_sort;
 	procps_slabinfo_new;
-	procps_slabinfo_read;
 	procps_slabinfo_ref;
 	procps_slabinfo_unref;
-	procps_slabs_get;
-	procps_slabs_getstack;
-	procps_slabnode_count;
-	procps_slabnode_getname;
-	procps_slabnode_get;
-	procps_slabnode_getstack;
-	procps_slabnode_stack_fill;
-	procps_slabnode_stack_alloc;
-	procps_slabnode_stacks_fill;
-	procps_slabnode_stacks_sort;
-	procps_slabnode_stacks_alloc;
+	procps_slabinfo_get;
+	procps_slabinfo_reap;
+	procps_slabinfo_select;
+	procps_slabinfo_sort;
 	procps_stat_new;
 	procps_stat_ref;
 	procps_stat_unref;

proc/slabinfo.h

@@ -3,6 +3,7 @@
  *
  * Copyright (C) 1998-2005 Albert Cahalan
  * Copyright (C) 2015 Craig Small <csmall@enc.com.au>
+ * Copyright (C) 2016 Jim Warnerl <james.warner@comcast.net>
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Lesser General Public
@@ -26,110 +27,104 @@
 
 __BEGIN_DECLS
 
-enum slabs_item {
-    PROCPS_SLABS_OBJS,                 // u_int
-    PROCPS_SLABS_AOBJS,                // u_int
-    PROCPS_SLABS_PAGES,                // u_int
-    PROCPS_SLABS_SLABS,                // u_int
-    PROCPS_SLABS_ASLABS,               // u_int
-    PROCPS_SLABS_CACHES,               // u_int
-    PROCPS_SLABS_ACACHES,              // u_int
-    PROCPS_SLABS_SIZE_AVG,             // u_int
-    PROCPS_SLABS_SIZE_MIN,             // u_int
-    PROCPS_SLABS_SIZE_MAX,             // u_int
-    PROCPS_SLABS_SIZE_TOTAL,           // ul_int
-    PROCPS_SLABS_SIZE_ACTIVE,          // ul_int
-    PROCPS_SLABS_noop,                 // n/a
-    PROCPS_SLABS_stack_end             // n/a
+enum slabinfo_item {
+    PROCPS_SLABINFO_noop,            //    n/a
+    PROCPS_SLABINFO_extra,           //    n/a
+
+    PROCPS_SLABS_OBJS,               //  u_int
+    PROCPS_SLABS_AOBJS,              //  u_int
+    PROCPS_SLABS_PAGES,              //  u_int
+    PROCPS_SLABS_SLABS,              //  u_int
+    PROCPS_SLABS_ASLABS,             //  u_int
+    PROCPS_SLABS_CACHES,             //  u_int
+    PROCPS_SLABS_ACACHES,            //  u_int
+    PROCPS_SLABS_SIZE_AVG,           //  u_int
+    PROCPS_SLABS_SIZE_MIN,           //  u_int
+    PROCPS_SLABS_SIZE_MAX,           //  u_int
+    PROCPS_SLABS_SIZE_ACTIVE,        // ul_int
+    PROCPS_SLABS_SIZE_TOTAL,         // ul_int
+
+    PROCPS_SLABS_DELTA_OBJS,         //  s_int
+    PROCPS_SLABS_DELTA_AOBJS,        //  s_int
+    PROCPS_SLABS_DELTA_PAGES,        //  s_int
+    PROCPS_SLABS_DELTA_SLABS,        //  s_int
+    PROCPS_SLABS_DELTA_ASLABS,       //  s_int
+    PROCPS_SLABS_DELTA_CACHES,       //  s_int
+    PROCPS_SLABS_DELTA_ACACHES,      //  s_int
+    PROCPS_SLABS_DELTA_SIZE_AVG,     //  s_int
+    PROCPS_SLABS_DELTA_SIZE_MIN,     //  s_int
+    PROCPS_SLABS_DELTA_SIZE_MAX,     //  s_int
+    PROCPS_SLABS_DELTA_SIZE_ACTIVE,  //  s_int
+    PROCPS_SLABS_DELTA_SIZE_TOTAL,   //  s_int
+
+    PROCPS_SLABNODE_NAME,            //    str
+    PROCPS_SLABNODE_OBJS,            //  u_int
+    PROCPS_SLABNODE_AOBJS,           //  u_int
+    PROCPS_SLABNODE_OBJ_SIZE,        //  u_int
+    PROCPS_SLABNODE_OBJS_PER_SLAB,   //  u_int
+    PROCPS_SLABNODE_PAGES_PER_SLAB,  //  u_int
+    PROCPS_SLABNODE_SLABS,           //  u_int
+    PROCPS_SLABNODE_ASLABS,          //  u_int
+    PROCPS_SLABNODE_USE,             //  u_int
+    PROCPS_SLABNODE_SIZE             // ul_int
 };
 
-enum slabnode_item {
-    PROCPS_SLABNODE_SIZE,              // ul_int
-    PROCPS_SLABNODE_OBJS,              // u_int
-    PROCPS_SLABNODE_AOBJS,             // u_int
-    PROCPS_SLABNODE_OBJ_SIZE,          // u_int
-    PROCPS_SLABNODE_OBJS_PER_SLAB,     // u_int
-    PROCPS_SLABNODE_PAGES_PER_SLAB,    // u_int
-    PROCPS_SLABNODE_SLABS,             // u_int
-    PROCPS_SLABNODE_ASLABS,            // u_int
-    PROCPS_SLABNODE_USE,               // u_int
-    PROCPS_SLABNODE_NAME,              // str
-    PROCPS_SLABNODE_noop,              // n/a
-    PROCPS_SLABNODE_stack_end          // n/a
+enum slabinfo_sort_order {
+    PROCPS_SLABINFO_ASCEND   = +1,
+    PROCPS_SLABINFO_DESCEND  = -1
 };
 
-struct procps_slabinfo;
 
-struct slabnode_stack {
-    struct slab_result *head;
-};
-
-struct slab_result {
-    int item;
+struct slabinfo_result {
+    enum slabinfo_item item;
     union {
-        unsigned int u_int;
-        unsigned long ul_int;
-        char *str;
+        signed int      s_int;
+        unsigned int    u_int;
+        unsigned long   ul_int;
+        char          * str;
     } result;
 };
 
-int procps_slabinfo_new (struct procps_slabinfo **info);
-int procps_slabinfo_read (struct procps_slabinfo *info);
+struct slabinfo_stack {
+    struct slabinfo_result *head;
+};
 
-int procps_slabinfo_ref (struct procps_slabinfo *info);
+struct slabinfo_reap {
+    int total;
+    struct slabinfo_stack **stacks;
+};
+
+
+#define PROCPS_SLABINFO_VAL(rel_enum,type,stack) \
+    stack -> head [ rel_enum ] . result . type
+
+
+struct procps_slabinfo;
+
+int procps_slabinfo_new   (struct procps_slabinfo **info);
+int procps_slabinfo_ref   (struct procps_slabinfo  *info);
 int procps_slabinfo_unref (struct procps_slabinfo **info);
 
-unsigned long procps_slabs_get (
+signed long procps_slabinfo_get (
     struct procps_slabinfo *info,
-    enum slabs_item item);
+    enum slabinfo_item item);
 
-int procps_slabs_getstack (
+struct slabinfo_reap *procps_slabinfo_reap (
     struct procps_slabinfo *info,
-    struct slab_result *these);
+    enum slabinfo_item *items,
+    int numitems);
 
-int procps_slabnode_count (struct procps_slabinfo *info);
-
-const char *procps_slabnode_getname (
+struct slabinfo_stack *procps_slabinfo_select (
     struct procps_slabinfo *info,
-    int nodeid);
+    enum slabinfo_item *items,
+    int numitems);
 
-unsigned long procps_slabnode_get (
+struct slabinfo_stack **procps_slabinfo_sort (
     struct procps_slabinfo *info,
-    enum slabnode_item item,
-    int nodeid);
-
-int procps_slabnode_getstack (
-    struct procps_slabinfo *info,
-    struct slab_result *these,
-    int nodeid);
-
-int procps_slabnode_stack_fill (
-    struct procps_slabinfo *info,
-    struct slabnode_stack *stack,
-    int nodeid);
-
-int procps_slabnode_stacks_fill (
-    struct procps_slabinfo *info,
-    struct slabnode_stack **stacks,
-    int maxstacks);
-
-struct slabnode_stack *procps_slabnode_stack_alloc (
-    struct procps_slabinfo *info,
-    int maxitems,
-    enum slabnode_item *items);
-
-struct slabnode_stack **procps_slabnode_stacks_alloc (
-    struct procps_slabinfo *info,
-    int maxstacks,
-    int maxitems,
-    enum slabnode_item *items);
-
-struct slabnode_stack **procps_slabnode_stacks_sort (
-    struct procps_slabinfo *info,
-    struct slabnode_stack **stacks,
+    struct slabinfo_stack *stacks[],
     int numstacked,
-    enum slabnode_item sort);
+    enum slabinfo_item sortitem,
+    enum slabinfo_sort_order order);
 
 __END_DECLS
-
 #endif /* _PROC_SLAB_H */