[AArch64] Remove simd_type
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNU ADA RUN-TIME LIBRARY (GNARL) COMPONENTS --
4 -- --
5 -- S Y S T E M - S T A C K _ U S A G E --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 2004-2011, Free Software Foundation, Inc. --
10 -- --
11 -- GNARL is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. --
17 -- --
18 -- As a special exception under Section 7 of GPL version 3, you are granted --
19 -- additional permissions described in the GCC Runtime Library Exception, --
20 -- version 3.1, as published by the Free Software Foundation. --
21 -- --
22 -- You should have received a copy of the GNU General Public License and --
23 -- a copy of the GCC Runtime Library Exception along with this program; --
24 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
25 -- <http://www.gnu.org/licenses/>. --
26 -- --
27 -- GNARL was developed by the GNARL team at Florida State University. --
28 -- Extensive contributions were provided by Ada Core Technologies, Inc. --
29 -- --
30 ------------------------------------------------------------------------------
32 with System;
33 with System.Storage_Elements;
34 with System.Address_To_Access_Conversions;
35 with Interfaces;
37 package System.Stack_Usage is
38 pragma Preelaborate;
40 package SSE renames System.Storage_Elements;
42 subtype Stack_Address is SSE.Integer_Address;
43 -- Address on the stack
45 function To_Stack_Address
46 (Value : System.Address) return Stack_Address
47 renames System.Storage_Elements.To_Integer;
49 Task_Name_Length : constant := 32;
50 -- The maximum length of task name displayed.
51 -- ??? Consider merging this variable with Max_Task_Image_Length.
53 type Task_Result is record
54 Task_Name : String (1 .. Task_Name_Length);
56 Value : Natural;
57 -- Amount of stack used. The value is calculated on the basis of the
58 -- mechanism used by GNAT to allocate it, and it is NOT a precise value.
60 Stack_Size : Natural;
61 -- Size of the stack
62 end record;
64 type Result_Array_Type is array (Positive range <>) of Task_Result;
66 type Stack_Analyzer is private;
67 -- Type of the stack analyzer tool. It is used to fill a portion of the
68 -- stack with Pattern, and to compute the stack used after some execution.
70 -- Usage:
72 -- A typical use of the package is something like:
74 -- A : Stack_Analyzer;
76 -- task T is
77 -- pragma Storage_Size (A_Storage_Size);
78 -- end T;
80 -- [...]
82 -- Bottom_Of_Stack : aliased Integer;
83 -- -- Bottom_Of_Stack'Address will be used as an approximation of
84 -- -- the bottom of stack. A good practise is to avoid allocating
85 -- -- other local variables on this stack, as it would degrade
86 -- -- the quality of this approximation.
88 -- begin
89 -- Initialize_Analyzer (A,
90 -- "Task t",
91 -- A_Storage_Size,
92 -- 0,
93 -- A_Storage_Size - A_Guard,
94 -- To_Stack_Address (Bottom_Of_Stack'Address));
95 -- Fill_Stack (A);
96 -- Some_User_Code;
97 -- Compute_Result (A);
98 -- Report_Result (A);
99 -- end T;
101 -- Errors:
103 -- We are instrumenting the code to measure the stack used by the user
104 -- code. This method has a number of systematic errors, but several methods
105 -- can be used to evaluate or reduce those errors. Here are those errors
106 -- and the strategy that we use to deal with them:
108 -- Bottom offset:
110 -- Description: The procedure used to fill the stack with a given
111 -- pattern will itself have a stack frame. The value of the stack
112 -- pointer in this procedure is, therefore, different from the value
113 -- before the call to the instrumentation procedure.
115 -- Strategy: The user of this package should measure the bottom of stack
116 -- before the call to Fill_Stack and pass it in parameter. The impact
117 -- is very minor unless the stack used is very small, but in this case
118 -- you aren't very interested by the figure.
120 -- Instrumentation threshold at writing:
122 -- Description: The procedure used to fill the stack with a given
123 -- pattern will itself have a stack frame. Therefore, it will
124 -- fill the stack after this stack frame. This part of the stack will
125 -- appear as used in the final measure.
127 -- Strategy: As the user passes the value of the bottom of stack to
128 -- the instrumentation to deal with the bottom offset error, and as
129 -- the instrumentation procedure knows where the pattern filling start
130 -- on the stack, the difference between the two values is the minimum
131 -- stack usage that the method can measure. If, when the results are
132 -- computed, the pattern zone has been left untouched, we conclude
133 -- that the stack usage is inferior to this minimum stack usage.
135 -- Instrumentation threshold at reading:
137 -- Description: The procedure used to read the stack at the end of the
138 -- execution clobbers the stack by allocating its stack frame. If this
139 -- stack frame is bigger than the total stack used by the user code at
140 -- this point, it will increase the measured stack size.
142 -- Strategy: We could augment this stack frame and see if it changes the
143 -- measure. However, this error should be negligible.
145 -- Pattern zone overflow:
147 -- Description: The stack grows outer than the topmost bound of the
148 -- pattern zone. In that case, the topmost region modified in the
149 -- pattern is not the maximum value of the stack pointer during the
150 -- execution.
152 -- Strategy: At the end of the execution, the difference between the
153 -- topmost memory region modified in the pattern zone and the
154 -- topmost bound of the pattern zone can be understood as the
155 -- biggest allocation that the method could have detect, provided
156 -- that there is no "Untouched allocated zone" error and no "Pattern
157 -- usage in user code" error. If no object in the user code is likely
158 -- to have this size, this is not likely to happen.
160 -- Pattern usage in user code:
162 -- Description: The pattern can be found in the object of the user code.
163 -- Therefore, the address space where this object has been allocated
164 -- will appear as untouched.
166 -- Strategy: Choose a pattern that is uncommon. 16#0000_0000# is the
167 -- worst choice; 16#DEAD_BEEF# can be a good one. A good choice is an
168 -- address which is not a multiple of 2, and which is not in the
169 -- target address space. You can also change the pattern to see if it
170 -- changes the measure. Note that this error *very* rarely influence
171 -- the measure of the total stack usage: to have some influence, the
172 -- pattern has to be used in the object that has been allocated on the
173 -- topmost address of the used stack.
175 -- Stack overflow:
177 -- Description: The pattern zone does not fit on the stack. This may
178 -- lead to an erroneous execution.
180 -- Strategy: Specify a storage size that is bigger than the size of the
181 -- pattern. 2 times bigger should be enough.
183 -- Augmentation of the user stack frames:
185 -- Description: The use of instrumentation object or procedure may
186 -- augment the stack frame of the caller.
188 -- Strategy: Do *not* inline the instrumentation procedures. Do *not*
189 -- allocate the Stack_Analyzer object on the stack.
191 -- Untouched allocated zone:
193 -- Description: The user code may allocate objects that it will never
194 -- touch. In that case, the pattern will not be changed.
196 -- Strategy: There are no way to detect this error. Fortunately, this
197 -- error is really rare, and it is most probably a bug in the user
198 -- code, e.g. some uninitialized variable. It is (most of the time)
199 -- harmless: it influences the measure only if the untouched allocated
200 -- zone happens to be located at the topmost value of the stack
201 -- pointer for the whole execution.
203 procedure Initialize (Buffer_Size : Natural);
204 pragma Export (C, Initialize, "__gnat_stack_usage_initialize");
205 -- Initializes the size of the buffer that stores the results. Only the
206 -- first Buffer_Size results are stored. Any results that do not fit in
207 -- this buffer will be displayed on the fly.
209 procedure Fill_Stack (Analyzer : in out Stack_Analyzer);
210 -- Fill an area of the stack with the pattern Analyzer.Pattern. The size
211 -- of this area is Analyzer.Size. After the call to this procedure,
212 -- the memory will look like that:
214 -- Stack growing
215 -- ---------------------------------------------------------------------->
216 -- |<--------------------->|<----------------------------------->|
217 -- | Stack frames to | Memory filled with Analyzer.Pattern |
218 -- | Fill_Stack | |
219 -- ^ | ^
220 -- Analyzer.Stack_Base | Analyzer.Pattern_Limit
221 -- ^
222 -- Analyzer.Pattern_Limit +/- Analyzer.Pattern_Size
225 procedure Initialize_Analyzer
226 (Analyzer : in out Stack_Analyzer;
227 Task_Name : String;
228 Stack_Size : Natural;
229 Stack_Base : Stack_Address;
230 Pattern_Size : Natural;
231 Pattern : Interfaces.Unsigned_32 := 16#DEAD_BEEF#);
232 -- Should be called before any use of a Stack_Analyzer, to initialize it.
233 -- Max_Pattern_Size is the size of the pattern zone, might be smaller than
234 -- the full stack size Stack_Size in order to take into account e.g. the
235 -- secondary stack and a guard against overflow. The actual size taken
236 -- will be readjusted with data already used at the time the stack is
237 -- actually filled.
239 Is_Enabled : Boolean := False;
240 -- When this flag is true, then stack analysis is enabled
242 procedure Compute_Result (Analyzer : in out Stack_Analyzer);
243 -- Read the pattern zone and deduce the stack usage. It should be called
244 -- from the same frame as Fill_Stack. If Analyzer.Probe is not null, an
245 -- array of Unsigned_32 with Analyzer.Probe elements is allocated on
246 -- Compute_Result's stack frame. Probe can be used to detect the error:
247 -- "instrumentation threshold at reading". See above. After the call
248 -- to this procedure, the memory will look like:
250 -- Stack growing
251 -- ----------------------------------------------------------------------->
252 -- |<---------------------->|<-------------->|<--------->|<--------->|
253 -- | Stack frames | Array of | used | Memory |
254 -- | to Compute_Result | Analyzer.Probe | during | filled |
255 -- | | elements | the | with |
256 -- | | | execution | pattern |
257 -- | | |
258 -- |<----------------------------------------------------> |
259 -- Stack used ^
260 -- Pattern_Limit
262 procedure Report_Result (Analyzer : Stack_Analyzer);
263 -- Store the results of the computation in memory, at the address
264 -- corresponding to the symbol __gnat_stack_usage_results. This is not
265 -- done inside Compute_Result in order to use as less stack as possible
266 -- within a task.
268 procedure Output_Results;
269 -- Print the results computed so far on the standard output. Should be
270 -- called when all tasks are dead.
272 pragma Export (C, Output_Results, "__gnat_stack_usage_output_results");
274 private
276 package Unsigned_32_Addr is
277 new System.Address_To_Access_Conversions (Interfaces.Unsigned_32);
279 subtype Pattern_Type is Interfaces.Unsigned_32;
280 Bytes_Per_Pattern : constant := Pattern_Type'Object_Size / Storage_Unit;
282 type Stack_Analyzer is record
283 Task_Name : String (1 .. Task_Name_Length);
284 -- Name of the task
286 Stack_Base : Stack_Address;
287 -- Address of the base of the stack, as given by the caller of
288 -- Initialize_Analyzer.
290 Stack_Size : Natural;
291 -- Entire size of the analyzed stack
293 Pattern_Size : Natural;
294 -- Size of the pattern zone
296 Pattern : Pattern_Type;
297 -- Pattern used to recognize untouched memory
299 Pattern_Limit : Stack_Address;
300 -- Bound of the pattern area farthest to the base
302 Topmost_Touched_Mark : Stack_Address;
303 -- Topmost address of the pattern area whose value it is pointing
304 -- at has been modified during execution. If the systematic error are
305 -- compensated, it is the topmost value of the stack pointer during
306 -- the execution.
308 Pattern_Overlay_Address : System.Address;
309 -- Address of the stack abstraction object we overlay over a
310 -- task's real stack, typically a pattern-initialized array.
312 Result_Id : Positive;
313 -- Id of the result. If less than value given to gnatbind -u corresponds
314 -- to the location in the result array of result for the current task.
315 end record;
317 Environment_Task_Analyzer : Stack_Analyzer;
319 Compute_Environment_Task : Boolean;
321 type Result_Array_Ptr is access all Result_Array_Type;
323 Result_Array : Result_Array_Ptr;
324 pragma Export (C, Result_Array, "__gnat_stack_usage_results");
325 -- Exported in order to have an easy accessible symbol in when debugging
327 Next_Id : Positive := 1;
328 -- Id of the next stack analyzer
330 function Stack_Size
331 (SP_Low : Stack_Address;
332 SP_High : Stack_Address) return Natural;
333 pragma Inline (Stack_Size);
334 -- Return the size of a portion of stack delimited by SP_High and SP_Low
335 -- (), i.e. the difference between SP_High and SP_Low. The storage element
336 -- pointed by SP_Low is not included in the size. Inlined to reduce the
337 -- size of the stack used by the instrumentation code.
339 end System.Stack_Usage;