1*537d1343SAlexander V. Chernikov /* SPDX-License-Identifier: BSD-3-Clause
2*537d1343SAlexander V. Chernikov * Copyright(c) 2010-2019 Intel Corporation
3*537d1343SAlexander V. Chernikov */
4*537d1343SAlexander V. Chernikov
5*537d1343SAlexander V. Chernikov #ifndef _RTE_COMMON_H_
6*537d1343SAlexander V. Chernikov #define _RTE_COMMON_H_
7*537d1343SAlexander V. Chernikov
8*537d1343SAlexander V. Chernikov /**
9*537d1343SAlexander V. Chernikov * @file
10*537d1343SAlexander V. Chernikov *
11*537d1343SAlexander V. Chernikov * Generic, commonly-used macro and inline function definitions
12*537d1343SAlexander V. Chernikov * for DPDK.
13*537d1343SAlexander V. Chernikov */
14*537d1343SAlexander V. Chernikov
15*537d1343SAlexander V. Chernikov #ifdef __cplusplus
16*537d1343SAlexander V. Chernikov extern "C" {
17*537d1343SAlexander V. Chernikov #endif
18*537d1343SAlexander V. Chernikov
19*537d1343SAlexander V. Chernikov //#include <rte_config.h>
20*537d1343SAlexander V. Chernikov
21*537d1343SAlexander V. Chernikov /* OS specific include */
22*537d1343SAlexander V. Chernikov //#include <rte_os.h>
23*537d1343SAlexander V. Chernikov
24*537d1343SAlexander V. Chernikov #ifndef typeof
25*537d1343SAlexander V. Chernikov #define typeof __typeof__
26*537d1343SAlexander V. Chernikov #endif
27*537d1343SAlexander V. Chernikov
28*537d1343SAlexander V. Chernikov #ifndef asm
29*537d1343SAlexander V. Chernikov #define asm __asm__
30*537d1343SAlexander V. Chernikov #endif
31*537d1343SAlexander V. Chernikov
32*537d1343SAlexander V. Chernikov /** C extension macro for environments lacking C11 features. */
33*537d1343SAlexander V. Chernikov #if !defined(__STDC_VERSION__) || __STDC_VERSION__ < 201112L
34*537d1343SAlexander V. Chernikov #define RTE_STD_C11 __extension__
35*537d1343SAlexander V. Chernikov #else
36*537d1343SAlexander V. Chernikov #define RTE_STD_C11
37*537d1343SAlexander V. Chernikov #endif
38*537d1343SAlexander V. Chernikov
39*537d1343SAlexander V. Chernikov /*
40*537d1343SAlexander V. Chernikov * RTE_TOOLCHAIN_GCC is defined if the target is built with GCC,
41*537d1343SAlexander V. Chernikov * while a host application (like pmdinfogen) may have another compiler.
42*537d1343SAlexander V. Chernikov * RTE_CC_IS_GNU is true if the file is compiled with GCC,
43*537d1343SAlexander V. Chernikov * no matter it is a target or host application.
44*537d1343SAlexander V. Chernikov */
45*537d1343SAlexander V. Chernikov #define RTE_CC_IS_GNU 0
46*537d1343SAlexander V. Chernikov #if defined __clang__
47*537d1343SAlexander V. Chernikov #define RTE_CC_CLANG
48*537d1343SAlexander V. Chernikov #elif defined __INTEL_COMPILER
49*537d1343SAlexander V. Chernikov #define RTE_CC_ICC
50*537d1343SAlexander V. Chernikov #elif defined __GNUC__
51*537d1343SAlexander V. Chernikov #define RTE_CC_GCC
52*537d1343SAlexander V. Chernikov #undef RTE_CC_IS_GNU
53*537d1343SAlexander V. Chernikov #define RTE_CC_IS_GNU 1
54*537d1343SAlexander V. Chernikov #endif
55*537d1343SAlexander V. Chernikov #if RTE_CC_IS_GNU
56*537d1343SAlexander V. Chernikov #define GCC_VERSION (__GNUC__ * 10000 + __GNUC_MINOR__ * 100 + \
57*537d1343SAlexander V. Chernikov __GNUC_PATCHLEVEL__)
58*537d1343SAlexander V. Chernikov #endif
59*537d1343SAlexander V. Chernikov
60*537d1343SAlexander V. Chernikov /**
61*537d1343SAlexander V. Chernikov * Force alignment
62*537d1343SAlexander V. Chernikov */
63*537d1343SAlexander V. Chernikov #define __rte_aligned(a) __attribute__((__aligned__(a)))
64*537d1343SAlexander V. Chernikov
65*537d1343SAlexander V. Chernikov #ifdef RTE_ARCH_STRICT_ALIGN
66*537d1343SAlexander V. Chernikov typedef uint64_t unaligned_uint64_t __rte_aligned(1);
67*537d1343SAlexander V. Chernikov typedef uint32_t unaligned_uint32_t __rte_aligned(1);
68*537d1343SAlexander V. Chernikov typedef uint16_t unaligned_uint16_t __rte_aligned(1);
69*537d1343SAlexander V. Chernikov #else
70*537d1343SAlexander V. Chernikov typedef uint64_t unaligned_uint64_t;
71*537d1343SAlexander V. Chernikov typedef uint32_t unaligned_uint32_t;
72*537d1343SAlexander V. Chernikov typedef uint16_t unaligned_uint16_t;
73*537d1343SAlexander V. Chernikov #endif
74*537d1343SAlexander V. Chernikov
75*537d1343SAlexander V. Chernikov /**
76*537d1343SAlexander V. Chernikov * Force a structure to be packed
77*537d1343SAlexander V. Chernikov */
78*537d1343SAlexander V. Chernikov #define __rte_packed __attribute__((__packed__))
79*537d1343SAlexander V. Chernikov
80*537d1343SAlexander V. Chernikov /******* Macro to mark functions and fields scheduled for removal *****/
81*537d1343SAlexander V. Chernikov #define __rte_deprecated __attribute__((__deprecated__))
82*537d1343SAlexander V. Chernikov
83*537d1343SAlexander V. Chernikov /**
84*537d1343SAlexander V. Chernikov * Mark a function or variable to a weak reference.
85*537d1343SAlexander V. Chernikov */
86*537d1343SAlexander V. Chernikov #define __rte_weak __attribute__((__weak__))
87*537d1343SAlexander V. Chernikov
88*537d1343SAlexander V. Chernikov /**
89*537d1343SAlexander V. Chernikov * Force symbol to be generated even if it appears to be unused.
90*537d1343SAlexander V. Chernikov */
91*537d1343SAlexander V. Chernikov #define __rte_used __attribute__((used))
92*537d1343SAlexander V. Chernikov
93*537d1343SAlexander V. Chernikov /*********** Macros to eliminate unused variable warnings ********/
94*537d1343SAlexander V. Chernikov
95*537d1343SAlexander V. Chernikov /**
96*537d1343SAlexander V. Chernikov * short definition to mark a function parameter unused
97*537d1343SAlexander V. Chernikov */
98*537d1343SAlexander V. Chernikov #define __rte_unused __attribute__((__unused__))
99*537d1343SAlexander V. Chernikov
100*537d1343SAlexander V. Chernikov /**
101*537d1343SAlexander V. Chernikov * definition to mark a variable or function parameter as used so
102*537d1343SAlexander V. Chernikov * as to avoid a compiler warning
103*537d1343SAlexander V. Chernikov */
104*537d1343SAlexander V. Chernikov #define RTE_SET_USED(x) (void)(x)
105*537d1343SAlexander V. Chernikov
106*537d1343SAlexander V. Chernikov /**
107*537d1343SAlexander V. Chernikov * Check format string and its arguments at compile-time.
108*537d1343SAlexander V. Chernikov *
109*537d1343SAlexander V. Chernikov * GCC on Windows assumes MS-specific format string by default,
110*537d1343SAlexander V. Chernikov * even if the underlying stdio implementation is ANSI-compliant,
111*537d1343SAlexander V. Chernikov * so this must be overridden.
112*537d1343SAlexander V. Chernikov */
113*537d1343SAlexander V. Chernikov #if RTE_CC_IS_GNU
114*537d1343SAlexander V. Chernikov #define __rte_format_printf(format_index, first_arg) \
115*537d1343SAlexander V. Chernikov __attribute__((format(gnu_printf, format_index, first_arg)))
116*537d1343SAlexander V. Chernikov #else
117*537d1343SAlexander V. Chernikov #define __rte_format_printf(format_index, first_arg) \
118*537d1343SAlexander V. Chernikov __attribute__((format(printf, format_index, first_arg)))
119*537d1343SAlexander V. Chernikov #endif
120*537d1343SAlexander V. Chernikov
121*537d1343SAlexander V. Chernikov #define RTE_PRIORITY_LOG 101
122*537d1343SAlexander V. Chernikov #define RTE_PRIORITY_BUS 110
123*537d1343SAlexander V. Chernikov #define RTE_PRIORITY_CLASS 120
124*537d1343SAlexander V. Chernikov #define RTE_PRIORITY_LAST 65535
125*537d1343SAlexander V. Chernikov
126*537d1343SAlexander V. Chernikov #define RTE_PRIO(prio) \
127*537d1343SAlexander V. Chernikov RTE_PRIORITY_ ## prio
128*537d1343SAlexander V. Chernikov
129*537d1343SAlexander V. Chernikov /**
130*537d1343SAlexander V. Chernikov * Run function before main() with high priority.
131*537d1343SAlexander V. Chernikov *
132*537d1343SAlexander V. Chernikov * @param func
133*537d1343SAlexander V. Chernikov * Constructor function.
134*537d1343SAlexander V. Chernikov * @param prio
135*537d1343SAlexander V. Chernikov * Priority number must be above 100.
136*537d1343SAlexander V. Chernikov * Lowest number is the first to run.
137*537d1343SAlexander V. Chernikov */
138*537d1343SAlexander V. Chernikov #ifndef RTE_INIT_PRIO /* Allow to override from EAL */
139*537d1343SAlexander V. Chernikov #define RTE_INIT_PRIO(func, prio) \
140*537d1343SAlexander V. Chernikov static void __attribute__((constructor(RTE_PRIO(prio)), used)) func(void)
141*537d1343SAlexander V. Chernikov #endif
142*537d1343SAlexander V. Chernikov
143*537d1343SAlexander V. Chernikov /**
144*537d1343SAlexander V. Chernikov * Run function before main() with low priority.
145*537d1343SAlexander V. Chernikov *
146*537d1343SAlexander V. Chernikov * The constructor will be run after prioritized constructors.
147*537d1343SAlexander V. Chernikov *
148*537d1343SAlexander V. Chernikov * @param func
149*537d1343SAlexander V. Chernikov * Constructor function.
150*537d1343SAlexander V. Chernikov */
151*537d1343SAlexander V. Chernikov #define RTE_INIT(func) \
152*537d1343SAlexander V. Chernikov RTE_INIT_PRIO(func, LAST)
153*537d1343SAlexander V. Chernikov
154*537d1343SAlexander V. Chernikov /**
155*537d1343SAlexander V. Chernikov * Run after main() with low priority.
156*537d1343SAlexander V. Chernikov *
157*537d1343SAlexander V. Chernikov * @param func
158*537d1343SAlexander V. Chernikov * Destructor function name.
159*537d1343SAlexander V. Chernikov * @param prio
160*537d1343SAlexander V. Chernikov * Priority number must be above 100.
161*537d1343SAlexander V. Chernikov * Lowest number is the last to run.
162*537d1343SAlexander V. Chernikov */
163*537d1343SAlexander V. Chernikov #ifndef RTE_FINI_PRIO /* Allow to override from EAL */
164*537d1343SAlexander V. Chernikov #define RTE_FINI_PRIO(func, prio) \
165*537d1343SAlexander V. Chernikov static void __attribute__((destructor(RTE_PRIO(prio)), used)) func(void)
166*537d1343SAlexander V. Chernikov #endif
167*537d1343SAlexander V. Chernikov
168*537d1343SAlexander V. Chernikov /**
169*537d1343SAlexander V. Chernikov * Run after main() with high priority.
170*537d1343SAlexander V. Chernikov *
171*537d1343SAlexander V. Chernikov * The destructor will be run *before* prioritized destructors.
172*537d1343SAlexander V. Chernikov *
173*537d1343SAlexander V. Chernikov * @param func
174*537d1343SAlexander V. Chernikov * Destructor function name.
175*537d1343SAlexander V. Chernikov */
176*537d1343SAlexander V. Chernikov #define RTE_FINI(func) \
177*537d1343SAlexander V. Chernikov RTE_FINI_PRIO(func, LAST)
178*537d1343SAlexander V. Chernikov
179*537d1343SAlexander V. Chernikov /**
180*537d1343SAlexander V. Chernikov * Hint never returning function
181*537d1343SAlexander V. Chernikov */
182*537d1343SAlexander V. Chernikov #define __rte_noreturn __attribute__((noreturn))
183*537d1343SAlexander V. Chernikov
184*537d1343SAlexander V. Chernikov /**
185*537d1343SAlexander V. Chernikov * Force a function to be inlined
186*537d1343SAlexander V. Chernikov */
187*537d1343SAlexander V. Chernikov #define __rte_always_inline inline __attribute__((always_inline))
188*537d1343SAlexander V. Chernikov
189*537d1343SAlexander V. Chernikov /**
190*537d1343SAlexander V. Chernikov * Force a function to be noinlined
191*537d1343SAlexander V. Chernikov */
192*537d1343SAlexander V. Chernikov #define __rte_noinline __attribute__((noinline))
193*537d1343SAlexander V. Chernikov
194*537d1343SAlexander V. Chernikov /**
195*537d1343SAlexander V. Chernikov * Hint function in the hot path
196*537d1343SAlexander V. Chernikov */
197*537d1343SAlexander V. Chernikov #define __rte_hot __attribute__((hot))
198*537d1343SAlexander V. Chernikov
199*537d1343SAlexander V. Chernikov /**
200*537d1343SAlexander V. Chernikov * Hint function in the cold path
201*537d1343SAlexander V. Chernikov */
202*537d1343SAlexander V. Chernikov #define __rte_cold __attribute__((cold))
203*537d1343SAlexander V. Chernikov
204*537d1343SAlexander V. Chernikov /*********** Macros for pointer arithmetic ********/
205*537d1343SAlexander V. Chernikov
206*537d1343SAlexander V. Chernikov /**
207*537d1343SAlexander V. Chernikov * add a byte-value offset to a pointer
208*537d1343SAlexander V. Chernikov */
209*537d1343SAlexander V. Chernikov #define RTE_PTR_ADD(ptr, x) ((void*)((uintptr_t)(ptr) + (x)))
210*537d1343SAlexander V. Chernikov
211*537d1343SAlexander V. Chernikov /**
212*537d1343SAlexander V. Chernikov * subtract a byte-value offset from a pointer
213*537d1343SAlexander V. Chernikov */
214*537d1343SAlexander V. Chernikov #define RTE_PTR_SUB(ptr, x) ((void*)((uintptr_t)ptr - (x)))
215*537d1343SAlexander V. Chernikov
216*537d1343SAlexander V. Chernikov /**
217*537d1343SAlexander V. Chernikov * get the difference between two pointer values, i.e. how far apart
218*537d1343SAlexander V. Chernikov * in bytes are the locations they point two. It is assumed that
219*537d1343SAlexander V. Chernikov * ptr1 is greater than ptr2.
220*537d1343SAlexander V. Chernikov */
221*537d1343SAlexander V. Chernikov #define RTE_PTR_DIFF(ptr1, ptr2) ((uintptr_t)(ptr1) - (uintptr_t)(ptr2))
222*537d1343SAlexander V. Chernikov
223*537d1343SAlexander V. Chernikov /**
224*537d1343SAlexander V. Chernikov * Workaround to cast a const field of a structure to non-const type.
225*537d1343SAlexander V. Chernikov */
226*537d1343SAlexander V. Chernikov #define RTE_CAST_FIELD(var, field, type) \
227*537d1343SAlexander V. Chernikov (*(type *)((uintptr_t)(var) + offsetof(typeof(*(var)), field)))
228*537d1343SAlexander V. Chernikov
229*537d1343SAlexander V. Chernikov /*********** Macros/static functions for doing alignment ********/
230*537d1343SAlexander V. Chernikov
231*537d1343SAlexander V. Chernikov
232*537d1343SAlexander V. Chernikov /**
233*537d1343SAlexander V. Chernikov * Macro to align a pointer to a given power-of-two. The resultant
234*537d1343SAlexander V. Chernikov * pointer will be a pointer of the same type as the first parameter, and
235*537d1343SAlexander V. Chernikov * point to an address no higher than the first parameter. Second parameter
236*537d1343SAlexander V. Chernikov * must be a power-of-two value.
237*537d1343SAlexander V. Chernikov */
238*537d1343SAlexander V. Chernikov #define RTE_PTR_ALIGN_FLOOR(ptr, align) \
239*537d1343SAlexander V. Chernikov ((typeof(ptr))RTE_ALIGN_FLOOR((uintptr_t)ptr, align))
240*537d1343SAlexander V. Chernikov
241*537d1343SAlexander V. Chernikov /**
242*537d1343SAlexander V. Chernikov * Macro to align a value to a given power-of-two. The resultant value
243*537d1343SAlexander V. Chernikov * will be of the same type as the first parameter, and will be no
244*537d1343SAlexander V. Chernikov * bigger than the first parameter. Second parameter must be a
245*537d1343SAlexander V. Chernikov * power-of-two value.
246*537d1343SAlexander V. Chernikov */
247*537d1343SAlexander V. Chernikov #define RTE_ALIGN_FLOOR(val, align) \
248*537d1343SAlexander V. Chernikov (typeof(val))((val) & (~((typeof(val))((align) - 1))))
249*537d1343SAlexander V. Chernikov
250*537d1343SAlexander V. Chernikov /**
251*537d1343SAlexander V. Chernikov * Macro to align a pointer to a given power-of-two. The resultant
252*537d1343SAlexander V. Chernikov * pointer will be a pointer of the same type as the first parameter, and
253*537d1343SAlexander V. Chernikov * point to an address no lower than the first parameter. Second parameter
254*537d1343SAlexander V. Chernikov * must be a power-of-two value.
255*537d1343SAlexander V. Chernikov */
256*537d1343SAlexander V. Chernikov #define RTE_PTR_ALIGN_CEIL(ptr, align) \
257*537d1343SAlexander V. Chernikov RTE_PTR_ALIGN_FLOOR((typeof(ptr))RTE_PTR_ADD(ptr, (align) - 1), align)
258*537d1343SAlexander V. Chernikov
259*537d1343SAlexander V. Chernikov /**
260*537d1343SAlexander V. Chernikov * Macro to align a value to a given power-of-two. The resultant value
261*537d1343SAlexander V. Chernikov * will be of the same type as the first parameter, and will be no lower
262*537d1343SAlexander V. Chernikov * than the first parameter. Second parameter must be a power-of-two
263*537d1343SAlexander V. Chernikov * value.
264*537d1343SAlexander V. Chernikov */
265*537d1343SAlexander V. Chernikov #define RTE_ALIGN_CEIL(val, align) \
266*537d1343SAlexander V. Chernikov RTE_ALIGN_FLOOR(((val) + ((typeof(val)) (align) - 1)), align)
267*537d1343SAlexander V. Chernikov
268*537d1343SAlexander V. Chernikov /**
269*537d1343SAlexander V. Chernikov * Macro to align a pointer to a given power-of-two. The resultant
270*537d1343SAlexander V. Chernikov * pointer will be a pointer of the same type as the first parameter, and
271*537d1343SAlexander V. Chernikov * point to an address no lower than the first parameter. Second parameter
272*537d1343SAlexander V. Chernikov * must be a power-of-two value.
273*537d1343SAlexander V. Chernikov * This function is the same as RTE_PTR_ALIGN_CEIL
274*537d1343SAlexander V. Chernikov */
275*537d1343SAlexander V. Chernikov #define RTE_PTR_ALIGN(ptr, align) RTE_PTR_ALIGN_CEIL(ptr, align)
276*537d1343SAlexander V. Chernikov
277*537d1343SAlexander V. Chernikov /**
278*537d1343SAlexander V. Chernikov * Macro to align a value to a given power-of-two. The resultant
279*537d1343SAlexander V. Chernikov * value will be of the same type as the first parameter, and
280*537d1343SAlexander V. Chernikov * will be no lower than the first parameter. Second parameter
281*537d1343SAlexander V. Chernikov * must be a power-of-two value.
282*537d1343SAlexander V. Chernikov * This function is the same as RTE_ALIGN_CEIL
283*537d1343SAlexander V. Chernikov */
284*537d1343SAlexander V. Chernikov #define RTE_ALIGN(val, align) RTE_ALIGN_CEIL(val, align)
285*537d1343SAlexander V. Chernikov
286*537d1343SAlexander V. Chernikov /**
287*537d1343SAlexander V. Chernikov * Macro to align a value to the multiple of given value. The resultant
288*537d1343SAlexander V. Chernikov * value will be of the same type as the first parameter and will be no lower
289*537d1343SAlexander V. Chernikov * than the first parameter.
290*537d1343SAlexander V. Chernikov */
291*537d1343SAlexander V. Chernikov #define RTE_ALIGN_MUL_CEIL(v, mul) \
292*537d1343SAlexander V. Chernikov (((v + (typeof(v))(mul) - 1) / ((typeof(v))(mul))) * (typeof(v))(mul))
293*537d1343SAlexander V. Chernikov
294*537d1343SAlexander V. Chernikov /**
295*537d1343SAlexander V. Chernikov * Macro to align a value to the multiple of given value. The resultant
296*537d1343SAlexander V. Chernikov * value will be of the same type as the first parameter and will be no higher
297*537d1343SAlexander V. Chernikov * than the first parameter.
298*537d1343SAlexander V. Chernikov */
299*537d1343SAlexander V. Chernikov #define RTE_ALIGN_MUL_FLOOR(v, mul) \
300*537d1343SAlexander V. Chernikov ((v / ((typeof(v))(mul))) * (typeof(v))(mul))
301*537d1343SAlexander V. Chernikov
302*537d1343SAlexander V. Chernikov /**
303*537d1343SAlexander V. Chernikov * Macro to align value to the nearest multiple of the given value.
304*537d1343SAlexander V. Chernikov * The resultant value might be greater than or less than the first parameter
305*537d1343SAlexander V. Chernikov * whichever difference is the lowest.
306*537d1343SAlexander V. Chernikov */
307*537d1343SAlexander V. Chernikov #define RTE_ALIGN_MUL_NEAR(v, mul) \
308*537d1343SAlexander V. Chernikov ({ \
309*537d1343SAlexander V. Chernikov typeof(v) ceil = RTE_ALIGN_MUL_CEIL(v, mul); \
310*537d1343SAlexander V. Chernikov typeof(v) floor = RTE_ALIGN_MUL_FLOOR(v, mul); \
311*537d1343SAlexander V. Chernikov (ceil - v) > (v - floor) ? floor : ceil; \
312*537d1343SAlexander V. Chernikov })
313*537d1343SAlexander V. Chernikov
314*537d1343SAlexander V. Chernikov /**
315*537d1343SAlexander V. Chernikov * Checks if a pointer is aligned to a given power-of-two value
316*537d1343SAlexander V. Chernikov *
317*537d1343SAlexander V. Chernikov * @param ptr
318*537d1343SAlexander V. Chernikov * The pointer whose alignment is to be checked
319*537d1343SAlexander V. Chernikov * @param align
320*537d1343SAlexander V. Chernikov * The power-of-two value to which the ptr should be aligned
321*537d1343SAlexander V. Chernikov *
322*537d1343SAlexander V. Chernikov * @return
323*537d1343SAlexander V. Chernikov * True(1) where the pointer is correctly aligned, false(0) otherwise
324*537d1343SAlexander V. Chernikov */
325*537d1343SAlexander V. Chernikov static inline int
rte_is_aligned(void * ptr,unsigned align)326*537d1343SAlexander V. Chernikov rte_is_aligned(void *ptr, unsigned align)
327*537d1343SAlexander V. Chernikov {
328*537d1343SAlexander V. Chernikov return RTE_PTR_ALIGN(ptr, align) == ptr;
329*537d1343SAlexander V. Chernikov }
330*537d1343SAlexander V. Chernikov
331*537d1343SAlexander V. Chernikov /*********** Macros for compile type checks ********/
332*537d1343SAlexander V. Chernikov
333*537d1343SAlexander V. Chernikov /**
334*537d1343SAlexander V. Chernikov * Triggers an error at compilation time if the condition is true.
335*537d1343SAlexander V. Chernikov */
336*537d1343SAlexander V. Chernikov #define RTE_BUILD_BUG_ON(condition) ((void)sizeof(char[1 - 2*!!(condition)]))
337*537d1343SAlexander V. Chernikov
338*537d1343SAlexander V. Chernikov /*********** Cache line related macros ********/
339*537d1343SAlexander V. Chernikov
340*537d1343SAlexander V. Chernikov /** Cache line mask. */
341*537d1343SAlexander V. Chernikov #define RTE_CACHE_LINE_MASK (RTE_CACHE_LINE_SIZE-1)
342*537d1343SAlexander V. Chernikov
343*537d1343SAlexander V. Chernikov /** Return the first cache-aligned value greater or equal to size. */
344*537d1343SAlexander V. Chernikov #define RTE_CACHE_LINE_ROUNDUP(size) \
345*537d1343SAlexander V. Chernikov (RTE_CACHE_LINE_SIZE * ((size + RTE_CACHE_LINE_SIZE - 1) / \
346*537d1343SAlexander V. Chernikov RTE_CACHE_LINE_SIZE))
347*537d1343SAlexander V. Chernikov
348*537d1343SAlexander V. Chernikov /** Cache line size in terms of log2 */
349*537d1343SAlexander V. Chernikov #if RTE_CACHE_LINE_SIZE == 64
350*537d1343SAlexander V. Chernikov #define RTE_CACHE_LINE_SIZE_LOG2 6
351*537d1343SAlexander V. Chernikov #elif RTE_CACHE_LINE_SIZE == 128
352*537d1343SAlexander V. Chernikov #define RTE_CACHE_LINE_SIZE_LOG2 7
353*537d1343SAlexander V. Chernikov #else
354*537d1343SAlexander V. Chernikov #error "Unsupported cache line size"
355*537d1343SAlexander V. Chernikov #endif
356*537d1343SAlexander V. Chernikov
357*537d1343SAlexander V. Chernikov /** Minimum Cache line size. */
358*537d1343SAlexander V. Chernikov #define RTE_CACHE_LINE_MIN_SIZE 64
359*537d1343SAlexander V. Chernikov
360*537d1343SAlexander V. Chernikov /** Force alignment to cache line. */
361*537d1343SAlexander V. Chernikov #define __rte_cache_aligned __rte_aligned(RTE_CACHE_LINE_SIZE)
362*537d1343SAlexander V. Chernikov
363*537d1343SAlexander V. Chernikov /** Force minimum cache line alignment. */
364*537d1343SAlexander V. Chernikov #define __rte_cache_min_aligned __rte_aligned(RTE_CACHE_LINE_MIN_SIZE)
365*537d1343SAlexander V. Chernikov
366*537d1343SAlexander V. Chernikov /*********** PA/IOVA type definitions ********/
367*537d1343SAlexander V. Chernikov
368*537d1343SAlexander V. Chernikov /** Physical address */
369*537d1343SAlexander V. Chernikov typedef uint64_t phys_addr_t;
370*537d1343SAlexander V. Chernikov #define RTE_BAD_PHYS_ADDR ((phys_addr_t)-1)
371*537d1343SAlexander V. Chernikov
372*537d1343SAlexander V. Chernikov /**
373*537d1343SAlexander V. Chernikov * IO virtual address type.
374*537d1343SAlexander V. Chernikov * When the physical addressing mode (IOVA as PA) is in use,
375*537d1343SAlexander V. Chernikov * the translation from an IO virtual address (IOVA) to a physical address
376*537d1343SAlexander V. Chernikov * is a direct mapping, i.e. the same value.
377*537d1343SAlexander V. Chernikov * Otherwise, in virtual mode (IOVA as VA), an IOMMU may do the translation.
378*537d1343SAlexander V. Chernikov */
379*537d1343SAlexander V. Chernikov typedef uint64_t rte_iova_t;
380*537d1343SAlexander V. Chernikov #define RTE_BAD_IOVA ((rte_iova_t)-1)
381*537d1343SAlexander V. Chernikov
382*537d1343SAlexander V. Chernikov /*********** Structure alignment markers ********/
383*537d1343SAlexander V. Chernikov
384*537d1343SAlexander V. Chernikov /** Generic marker for any place in a structure. */
385*537d1343SAlexander V. Chernikov __extension__ typedef void *RTE_MARKER[0];
386*537d1343SAlexander V. Chernikov /** Marker for 1B alignment in a structure. */
387*537d1343SAlexander V. Chernikov __extension__ typedef uint8_t RTE_MARKER8[0];
388*537d1343SAlexander V. Chernikov /** Marker for 2B alignment in a structure. */
389*537d1343SAlexander V. Chernikov __extension__ typedef uint16_t RTE_MARKER16[0];
390*537d1343SAlexander V. Chernikov /** Marker for 4B alignment in a structure. */
391*537d1343SAlexander V. Chernikov __extension__ typedef uint32_t RTE_MARKER32[0];
392*537d1343SAlexander V. Chernikov /** Marker for 8B alignment in a structure. */
393*537d1343SAlexander V. Chernikov __extension__ typedef uint64_t RTE_MARKER64[0];
394*537d1343SAlexander V. Chernikov
395*537d1343SAlexander V. Chernikov /**
396*537d1343SAlexander V. Chernikov * Combines 32b inputs most significant set bits into the least
397*537d1343SAlexander V. Chernikov * significant bits to construct a value with the same MSBs as x
398*537d1343SAlexander V. Chernikov * but all 1's under it.
399*537d1343SAlexander V. Chernikov *
400*537d1343SAlexander V. Chernikov * @param x
401*537d1343SAlexander V. Chernikov * The integer whose MSBs need to be combined with its LSBs
402*537d1343SAlexander V. Chernikov * @return
403*537d1343SAlexander V. Chernikov * The combined value.
404*537d1343SAlexander V. Chernikov */
405*537d1343SAlexander V. Chernikov static inline uint32_t
rte_combine32ms1b(register uint32_t x)406*537d1343SAlexander V. Chernikov rte_combine32ms1b(register uint32_t x)
407*537d1343SAlexander V. Chernikov {
408*537d1343SAlexander V. Chernikov x |= x >> 1;
409*537d1343SAlexander V. Chernikov x |= x >> 2;
410*537d1343SAlexander V. Chernikov x |= x >> 4;
411*537d1343SAlexander V. Chernikov x |= x >> 8;
412*537d1343SAlexander V. Chernikov x |= x >> 16;
413*537d1343SAlexander V. Chernikov
414*537d1343SAlexander V. Chernikov return x;
415*537d1343SAlexander V. Chernikov }
416*537d1343SAlexander V. Chernikov
417*537d1343SAlexander V. Chernikov /**
418*537d1343SAlexander V. Chernikov * Combines 64b inputs most significant set bits into the least
419*537d1343SAlexander V. Chernikov * significant bits to construct a value with the same MSBs as x
420*537d1343SAlexander V. Chernikov * but all 1's under it.
421*537d1343SAlexander V. Chernikov *
422*537d1343SAlexander V. Chernikov * @param v
423*537d1343SAlexander V. Chernikov * The integer whose MSBs need to be combined with its LSBs
424*537d1343SAlexander V. Chernikov * @return
425*537d1343SAlexander V. Chernikov * The combined value.
426*537d1343SAlexander V. Chernikov */
427*537d1343SAlexander V. Chernikov static inline uint64_t
rte_combine64ms1b(register uint64_t v)428*537d1343SAlexander V. Chernikov rte_combine64ms1b(register uint64_t v)
429*537d1343SAlexander V. Chernikov {
430*537d1343SAlexander V. Chernikov v |= v >> 1;
431*537d1343SAlexander V. Chernikov v |= v >> 2;
432*537d1343SAlexander V. Chernikov v |= v >> 4;
433*537d1343SAlexander V. Chernikov v |= v >> 8;
434*537d1343SAlexander V. Chernikov v |= v >> 16;
435*537d1343SAlexander V. Chernikov v |= v >> 32;
436*537d1343SAlexander V. Chernikov
437*537d1343SAlexander V. Chernikov return v;
438*537d1343SAlexander V. Chernikov }
439*537d1343SAlexander V. Chernikov
440*537d1343SAlexander V. Chernikov /*********** Macros to work with powers of 2 ********/
441*537d1343SAlexander V. Chernikov
442*537d1343SAlexander V. Chernikov /**
443*537d1343SAlexander V. Chernikov * Macro to return 1 if n is a power of 2, 0 otherwise
444*537d1343SAlexander V. Chernikov */
445*537d1343SAlexander V. Chernikov #define RTE_IS_POWER_OF_2(n) ((n) && !(((n) - 1) & (n)))
446*537d1343SAlexander V. Chernikov
447*537d1343SAlexander V. Chernikov /**
448*537d1343SAlexander V. Chernikov * Returns true if n is a power of 2
449*537d1343SAlexander V. Chernikov * @param n
450*537d1343SAlexander V. Chernikov * Number to check
451*537d1343SAlexander V. Chernikov * @return 1 if true, 0 otherwise
452*537d1343SAlexander V. Chernikov */
453*537d1343SAlexander V. Chernikov static inline int
rte_is_power_of_2(uint32_t n)454*537d1343SAlexander V. Chernikov rte_is_power_of_2(uint32_t n)
455*537d1343SAlexander V. Chernikov {
456*537d1343SAlexander V. Chernikov return n && !(n & (n - 1));
457*537d1343SAlexander V. Chernikov }
458*537d1343SAlexander V. Chernikov
459*537d1343SAlexander V. Chernikov /**
460*537d1343SAlexander V. Chernikov * Aligns input parameter to the next power of 2
461*537d1343SAlexander V. Chernikov *
462*537d1343SAlexander V. Chernikov * @param x
463*537d1343SAlexander V. Chernikov * The integer value to align
464*537d1343SAlexander V. Chernikov *
465*537d1343SAlexander V. Chernikov * @return
466*537d1343SAlexander V. Chernikov * Input parameter aligned to the next power of 2
467*537d1343SAlexander V. Chernikov */
468*537d1343SAlexander V. Chernikov static inline uint32_t
rte_align32pow2(uint32_t x)469*537d1343SAlexander V. Chernikov rte_align32pow2(uint32_t x)
470*537d1343SAlexander V. Chernikov {
471*537d1343SAlexander V. Chernikov x--;
472*537d1343SAlexander V. Chernikov x = rte_combine32ms1b(x);
473*537d1343SAlexander V. Chernikov
474*537d1343SAlexander V. Chernikov return x + 1;
475*537d1343SAlexander V. Chernikov }
476*537d1343SAlexander V. Chernikov
477*537d1343SAlexander V. Chernikov /**
478*537d1343SAlexander V. Chernikov * Aligns input parameter to the previous power of 2
479*537d1343SAlexander V. Chernikov *
480*537d1343SAlexander V. Chernikov * @param x
481*537d1343SAlexander V. Chernikov * The integer value to align
482*537d1343SAlexander V. Chernikov *
483*537d1343SAlexander V. Chernikov * @return
484*537d1343SAlexander V. Chernikov * Input parameter aligned to the previous power of 2
485*537d1343SAlexander V. Chernikov */
486*537d1343SAlexander V. Chernikov static inline uint32_t
rte_align32prevpow2(uint32_t x)487*537d1343SAlexander V. Chernikov rte_align32prevpow2(uint32_t x)
488*537d1343SAlexander V. Chernikov {
489*537d1343SAlexander V. Chernikov x = rte_combine32ms1b(x);
490*537d1343SAlexander V. Chernikov
491*537d1343SAlexander V. Chernikov return x - (x >> 1);
492*537d1343SAlexander V. Chernikov }
493*537d1343SAlexander V. Chernikov
494*537d1343SAlexander V. Chernikov /**
495*537d1343SAlexander V. Chernikov * Aligns 64b input parameter to the next power of 2
496*537d1343SAlexander V. Chernikov *
497*537d1343SAlexander V. Chernikov * @param v
498*537d1343SAlexander V. Chernikov * The 64b value to align
499*537d1343SAlexander V. Chernikov *
500*537d1343SAlexander V. Chernikov * @return
501*537d1343SAlexander V. Chernikov * Input parameter aligned to the next power of 2
502*537d1343SAlexander V. Chernikov */
503*537d1343SAlexander V. Chernikov static inline uint64_t
rte_align64pow2(uint64_t v)504*537d1343SAlexander V. Chernikov rte_align64pow2(uint64_t v)
505*537d1343SAlexander V. Chernikov {
506*537d1343SAlexander V. Chernikov v--;
507*537d1343SAlexander V. Chernikov v = rte_combine64ms1b(v);
508*537d1343SAlexander V. Chernikov
509*537d1343SAlexander V. Chernikov return v + 1;
510*537d1343SAlexander V. Chernikov }
511*537d1343SAlexander V. Chernikov
512*537d1343SAlexander V. Chernikov /**
513*537d1343SAlexander V. Chernikov * Aligns 64b input parameter to the previous power of 2
514*537d1343SAlexander V. Chernikov *
515*537d1343SAlexander V. Chernikov * @param v
516*537d1343SAlexander V. Chernikov * The 64b value to align
517*537d1343SAlexander V. Chernikov *
518*537d1343SAlexander V. Chernikov * @return
519*537d1343SAlexander V. Chernikov * Input parameter aligned to the previous power of 2
520*537d1343SAlexander V. Chernikov */
521*537d1343SAlexander V. Chernikov static inline uint64_t
rte_align64prevpow2(uint64_t v)522*537d1343SAlexander V. Chernikov rte_align64prevpow2(uint64_t v)
523*537d1343SAlexander V. Chernikov {
524*537d1343SAlexander V. Chernikov v = rte_combine64ms1b(v);
525*537d1343SAlexander V. Chernikov
526*537d1343SAlexander V. Chernikov return v - (v >> 1);
527*537d1343SAlexander V. Chernikov }
528*537d1343SAlexander V. Chernikov
529*537d1343SAlexander V. Chernikov /*********** Macros for calculating min and max **********/
530*537d1343SAlexander V. Chernikov
531*537d1343SAlexander V. Chernikov /**
532*537d1343SAlexander V. Chernikov * Macro to return the minimum of two numbers
533*537d1343SAlexander V. Chernikov */
534*537d1343SAlexander V. Chernikov #define RTE_MIN(a, b) \
535*537d1343SAlexander V. Chernikov __extension__ ({ \
536*537d1343SAlexander V. Chernikov typeof (a) _a = (a); \
537*537d1343SAlexander V. Chernikov typeof (b) _b = (b); \
538*537d1343SAlexander V. Chernikov _a < _b ? _a : _b; \
539*537d1343SAlexander V. Chernikov })
540*537d1343SAlexander V. Chernikov
541*537d1343SAlexander V. Chernikov /**
542*537d1343SAlexander V. Chernikov * Macro to return the maximum of two numbers
543*537d1343SAlexander V. Chernikov */
544*537d1343SAlexander V. Chernikov #define RTE_MAX(a, b) \
545*537d1343SAlexander V. Chernikov __extension__ ({ \
546*537d1343SAlexander V. Chernikov typeof (a) _a = (a); \
547*537d1343SAlexander V. Chernikov typeof (b) _b = (b); \
548*537d1343SAlexander V. Chernikov _a > _b ? _a : _b; \
549*537d1343SAlexander V. Chernikov })
550*537d1343SAlexander V. Chernikov
551*537d1343SAlexander V. Chernikov /*********** Other general functions / macros ********/
552*537d1343SAlexander V. Chernikov
553*537d1343SAlexander V. Chernikov /**
554*537d1343SAlexander V. Chernikov * Searches the input parameter for the least significant set bit
555*537d1343SAlexander V. Chernikov * (starting from zero).
556*537d1343SAlexander V. Chernikov * If a least significant 1 bit is found, its bit index is returned.
557*537d1343SAlexander V. Chernikov * If the content of the input parameter is zero, then the content of the return
558*537d1343SAlexander V. Chernikov * value is undefined.
559*537d1343SAlexander V. Chernikov * @param v
560*537d1343SAlexander V. Chernikov * input parameter, should not be zero.
561*537d1343SAlexander V. Chernikov * @return
562*537d1343SAlexander V. Chernikov * least significant set bit in the input parameter.
563*537d1343SAlexander V. Chernikov */
564*537d1343SAlexander V. Chernikov static inline uint32_t
rte_bsf32(uint32_t v)565*537d1343SAlexander V. Chernikov rte_bsf32(uint32_t v)
566*537d1343SAlexander V. Chernikov {
567*537d1343SAlexander V. Chernikov return (uint32_t)__builtin_ctz(v);
568*537d1343SAlexander V. Chernikov }
569*537d1343SAlexander V. Chernikov
570*537d1343SAlexander V. Chernikov /**
571*537d1343SAlexander V. Chernikov * Searches the input parameter for the least significant set bit
572*537d1343SAlexander V. Chernikov * (starting from zero). Safe version (checks for input parameter being zero).
573*537d1343SAlexander V. Chernikov *
574*537d1343SAlexander V. Chernikov * @warning ``pos`` must be a valid pointer. It is not checked!
575*537d1343SAlexander V. Chernikov *
576*537d1343SAlexander V. Chernikov * @param v
577*537d1343SAlexander V. Chernikov * The input parameter.
578*537d1343SAlexander V. Chernikov * @param pos
579*537d1343SAlexander V. Chernikov * If ``v`` was not 0, this value will contain position of least significant
580*537d1343SAlexander V. Chernikov * bit within the input parameter.
581*537d1343SAlexander V. Chernikov * @return
582*537d1343SAlexander V. Chernikov * Returns 0 if ``v`` was 0, otherwise returns 1.
583*537d1343SAlexander V. Chernikov */
584*537d1343SAlexander V. Chernikov static inline int
rte_bsf32_safe(uint64_t v,uint32_t * pos)585*537d1343SAlexander V. Chernikov rte_bsf32_safe(uint64_t v, uint32_t *pos)
586*537d1343SAlexander V. Chernikov {
587*537d1343SAlexander V. Chernikov if (v == 0)
588*537d1343SAlexander V. Chernikov return 0;
589*537d1343SAlexander V. Chernikov
590*537d1343SAlexander V. Chernikov *pos = rte_bsf32(v);
591*537d1343SAlexander V. Chernikov return 1;
592*537d1343SAlexander V. Chernikov }
593*537d1343SAlexander V. Chernikov
594*537d1343SAlexander V. Chernikov /**
595*537d1343SAlexander V. Chernikov * Return the rounded-up log2 of a integer.
596*537d1343SAlexander V. Chernikov *
597*537d1343SAlexander V. Chernikov * @note Contrary to the logarithm mathematical operation,
598*537d1343SAlexander V. Chernikov * rte_log2_u32(0) == 0 and not -inf.
599*537d1343SAlexander V. Chernikov *
600*537d1343SAlexander V. Chernikov * @param v
601*537d1343SAlexander V. Chernikov * The input parameter.
602*537d1343SAlexander V. Chernikov * @return
603*537d1343SAlexander V. Chernikov * The rounded-up log2 of the input, or 0 if the input is 0.
604*537d1343SAlexander V. Chernikov */
605*537d1343SAlexander V. Chernikov static inline uint32_t
rte_log2_u32(uint32_t v)606*537d1343SAlexander V. Chernikov rte_log2_u32(uint32_t v)
607*537d1343SAlexander V. Chernikov {
608*537d1343SAlexander V. Chernikov if (v == 0)
609*537d1343SAlexander V. Chernikov return 0;
610*537d1343SAlexander V. Chernikov v = rte_align32pow2(v);
611*537d1343SAlexander V. Chernikov return rte_bsf32(v);
612*537d1343SAlexander V. Chernikov }
613*537d1343SAlexander V. Chernikov
614*537d1343SAlexander V. Chernikov
615*537d1343SAlexander V. Chernikov /**
616*537d1343SAlexander V. Chernikov * Return the last (most-significant) bit set.
617*537d1343SAlexander V. Chernikov *
618*537d1343SAlexander V. Chernikov * @note The last (most significant) bit is at position 32.
619*537d1343SAlexander V. Chernikov * @note rte_fls_u32(0) = 0, rte_fls_u32(1) = 1, rte_fls_u32(0x80000000) = 32
620*537d1343SAlexander V. Chernikov *
621*537d1343SAlexander V. Chernikov * @param x
622*537d1343SAlexander V. Chernikov * The input parameter.
623*537d1343SAlexander V. Chernikov * @return
624*537d1343SAlexander V. Chernikov * The last (most-significant) bit set, or 0 if the input is 0.
625*537d1343SAlexander V. Chernikov */
626*537d1343SAlexander V. Chernikov static inline int
rte_fls_u32(uint32_t x)627*537d1343SAlexander V. Chernikov rte_fls_u32(uint32_t x)
628*537d1343SAlexander V. Chernikov {
629*537d1343SAlexander V. Chernikov return (x == 0) ? 0 : 32 - __builtin_clz(x);
630*537d1343SAlexander V. Chernikov }
631*537d1343SAlexander V. Chernikov
632*537d1343SAlexander V. Chernikov /**
633*537d1343SAlexander V. Chernikov * Searches the input parameter for the least significant set bit
634*537d1343SAlexander V. Chernikov * (starting from zero).
635*537d1343SAlexander V. Chernikov * If a least significant 1 bit is found, its bit index is returned.
636*537d1343SAlexander V. Chernikov * If the content of the input parameter is zero, then the content of the return
637*537d1343SAlexander V. Chernikov * value is undefined.
638*537d1343SAlexander V. Chernikov * @param v
639*537d1343SAlexander V. Chernikov * input parameter, should not be zero.
640*537d1343SAlexander V. Chernikov * @return
641*537d1343SAlexander V. Chernikov * least significant set bit in the input parameter.
642*537d1343SAlexander V. Chernikov */
643*537d1343SAlexander V. Chernikov static inline int
rte_bsf64(uint64_t v)644*537d1343SAlexander V. Chernikov rte_bsf64(uint64_t v)
645*537d1343SAlexander V. Chernikov {
646*537d1343SAlexander V. Chernikov return (uint32_t)__builtin_ctzll(v);
647*537d1343SAlexander V. Chernikov }
648*537d1343SAlexander V. Chernikov
649*537d1343SAlexander V. Chernikov /**
650*537d1343SAlexander V. Chernikov * Searches the input parameter for the least significant set bit
651*537d1343SAlexander V. Chernikov * (starting from zero). Safe version (checks for input parameter being zero).
652*537d1343SAlexander V. Chernikov *
653*537d1343SAlexander V. Chernikov * @warning ``pos`` must be a valid pointer. It is not checked!
654*537d1343SAlexander V. Chernikov *
655*537d1343SAlexander V. Chernikov * @param v
656*537d1343SAlexander V. Chernikov * The input parameter.
657*537d1343SAlexander V. Chernikov * @param pos
658*537d1343SAlexander V. Chernikov * If ``v`` was not 0, this value will contain position of least significant
659*537d1343SAlexander V. Chernikov * bit within the input parameter.
660*537d1343SAlexander V. Chernikov * @return
661*537d1343SAlexander V. Chernikov * Returns 0 if ``v`` was 0, otherwise returns 1.
662*537d1343SAlexander V. Chernikov */
663*537d1343SAlexander V. Chernikov static inline int
rte_bsf64_safe(uint64_t v,uint32_t * pos)664*537d1343SAlexander V. Chernikov rte_bsf64_safe(uint64_t v, uint32_t *pos)
665*537d1343SAlexander V. Chernikov {
666*537d1343SAlexander V. Chernikov if (v == 0)
667*537d1343SAlexander V. Chernikov return 0;
668*537d1343SAlexander V. Chernikov
669*537d1343SAlexander V. Chernikov *pos = rte_bsf64(v);
670*537d1343SAlexander V. Chernikov return 1;
671*537d1343SAlexander V. Chernikov }
672*537d1343SAlexander V. Chernikov
673*537d1343SAlexander V. Chernikov /**
674*537d1343SAlexander V. Chernikov * Return the last (most-significant) bit set.
675*537d1343SAlexander V. Chernikov *
676*537d1343SAlexander V. Chernikov * @note The last (most significant) bit is at position 64.
677*537d1343SAlexander V. Chernikov * @note rte_fls_u64(0) = 0, rte_fls_u64(1) = 1,
678*537d1343SAlexander V. Chernikov * rte_fls_u64(0x8000000000000000) = 64
679*537d1343SAlexander V. Chernikov *
680*537d1343SAlexander V. Chernikov * @param x
681*537d1343SAlexander V. Chernikov * The input parameter.
682*537d1343SAlexander V. Chernikov * @return
683*537d1343SAlexander V. Chernikov * The last (most-significant) bit set, or 0 if the input is 0.
684*537d1343SAlexander V. Chernikov */
685*537d1343SAlexander V. Chernikov static inline int
rte_fls_u64(uint64_t x)686*537d1343SAlexander V. Chernikov rte_fls_u64(uint64_t x)
687*537d1343SAlexander V. Chernikov {
688*537d1343SAlexander V. Chernikov return (x == 0) ? 0 : 64 - __builtin_clzll(x);
689*537d1343SAlexander V. Chernikov }
690*537d1343SAlexander V. Chernikov
691*537d1343SAlexander V. Chernikov /**
692*537d1343SAlexander V. Chernikov * Return the rounded-up log2 of a 64-bit integer.
693*537d1343SAlexander V. Chernikov *
694*537d1343SAlexander V. Chernikov * @note Contrary to the logarithm mathematical operation,
695*537d1343SAlexander V. Chernikov * rte_log2_u64(0) == 0 and not -inf.
696*537d1343SAlexander V. Chernikov *
697*537d1343SAlexander V. Chernikov * @param v
698*537d1343SAlexander V. Chernikov * The input parameter.
699*537d1343SAlexander V. Chernikov * @return
700*537d1343SAlexander V. Chernikov * The rounded-up log2 of the input, or 0 if the input is 0.
701*537d1343SAlexander V. Chernikov */
702*537d1343SAlexander V. Chernikov static inline uint32_t
rte_log2_u64(uint64_t v)703*537d1343SAlexander V. Chernikov rte_log2_u64(uint64_t v)
704*537d1343SAlexander V. Chernikov {
705*537d1343SAlexander V. Chernikov if (v == 0)
706*537d1343SAlexander V. Chernikov return 0;
707*537d1343SAlexander V. Chernikov v = rte_align64pow2(v);
708*537d1343SAlexander V. Chernikov /* we checked for v being 0 already, so no undefined behavior */
709*537d1343SAlexander V. Chernikov return rte_bsf64(v);
710*537d1343SAlexander V. Chernikov }
711*537d1343SAlexander V. Chernikov
712*537d1343SAlexander V. Chernikov #ifndef offsetof
713*537d1343SAlexander V. Chernikov /** Return the offset of a field in a structure. */
714*537d1343SAlexander V. Chernikov #define offsetof(TYPE, MEMBER) __builtin_offsetof (TYPE, MEMBER)
715*537d1343SAlexander V. Chernikov #endif
716*537d1343SAlexander V. Chernikov
717*537d1343SAlexander V. Chernikov /**
718*537d1343SAlexander V. Chernikov * Return pointer to the wrapping struct instance.
719*537d1343SAlexander V. Chernikov *
720*537d1343SAlexander V. Chernikov * Example:
721*537d1343SAlexander V. Chernikov *
722*537d1343SAlexander V. Chernikov * struct wrapper {
723*537d1343SAlexander V. Chernikov * ...
724*537d1343SAlexander V. Chernikov * struct child c;
725*537d1343SAlexander V. Chernikov * ...
726*537d1343SAlexander V. Chernikov * };
727*537d1343SAlexander V. Chernikov *
728*537d1343SAlexander V. Chernikov * struct child *x = obtain(...);
729*537d1343SAlexander V. Chernikov * struct wrapper *w = container_of(x, struct wrapper, c);
730*537d1343SAlexander V. Chernikov */
731*537d1343SAlexander V. Chernikov #ifndef container_of
732*537d1343SAlexander V. Chernikov #define container_of(ptr, type, member) __extension__ ({ \
733*537d1343SAlexander V. Chernikov const typeof(((type *)0)->member) *_ptr = (ptr); \
734*537d1343SAlexander V. Chernikov __rte_unused type *_target_ptr = \
735*537d1343SAlexander V. Chernikov (type *)(ptr); \
736*537d1343SAlexander V. Chernikov (type *)(((uintptr_t)_ptr) - offsetof(type, member)); \
737*537d1343SAlexander V. Chernikov })
738*537d1343SAlexander V. Chernikov #endif
739*537d1343SAlexander V. Chernikov
740*537d1343SAlexander V. Chernikov /**
741*537d1343SAlexander V. Chernikov * Get the size of a field in a structure.
742*537d1343SAlexander V. Chernikov *
743*537d1343SAlexander V. Chernikov * @param type
744*537d1343SAlexander V. Chernikov * The type of the structure.
745*537d1343SAlexander V. Chernikov * @param field
746*537d1343SAlexander V. Chernikov * The field in the structure.
747*537d1343SAlexander V. Chernikov * @return
748*537d1343SAlexander V. Chernikov * The size of the field in the structure, in bytes.
749*537d1343SAlexander V. Chernikov */
750*537d1343SAlexander V. Chernikov #define RTE_SIZEOF_FIELD(type, field) (sizeof(((type *)0)->field))
751*537d1343SAlexander V. Chernikov
752*537d1343SAlexander V. Chernikov #define _RTE_STR(x) #x
753*537d1343SAlexander V. Chernikov /** Take a macro value and get a string version of it */
754*537d1343SAlexander V. Chernikov #define RTE_STR(x) _RTE_STR(x)
755*537d1343SAlexander V. Chernikov
756*537d1343SAlexander V. Chernikov /**
757*537d1343SAlexander V. Chernikov * ISO C helpers to modify format strings using variadic macros.
758*537d1343SAlexander V. Chernikov * This is a replacement for the ", ## __VA_ARGS__" GNU extension.
759*537d1343SAlexander V. Chernikov * An empty %s argument is appended to avoid a dangling comma.
760*537d1343SAlexander V. Chernikov */
761*537d1343SAlexander V. Chernikov #define RTE_FMT(fmt, ...) fmt "%.0s", __VA_ARGS__ ""
762*537d1343SAlexander V. Chernikov #define RTE_FMT_HEAD(fmt, ...) fmt
763*537d1343SAlexander V. Chernikov #define RTE_FMT_TAIL(fmt, ...) __VA_ARGS__
764*537d1343SAlexander V. Chernikov
765*537d1343SAlexander V. Chernikov /** Mask value of type "tp" for the first "ln" bit set. */
766*537d1343SAlexander V. Chernikov #define RTE_LEN2MASK(ln, tp) \
767*537d1343SAlexander V. Chernikov ((tp)((uint64_t)-1 >> (sizeof(uint64_t) * CHAR_BIT - (ln))))
768*537d1343SAlexander V. Chernikov
769*537d1343SAlexander V. Chernikov /** Number of elements in the array. */
770*537d1343SAlexander V. Chernikov #define RTE_DIM(a) (sizeof (a) / sizeof ((a)[0]))
771*537d1343SAlexander V. Chernikov
772*537d1343SAlexander V. Chernikov /**
773*537d1343SAlexander V. Chernikov * Converts a numeric string to the equivalent uint64_t value.
774*537d1343SAlexander V. Chernikov * As well as straight number conversion, also recognises the suffixes
775*537d1343SAlexander V. Chernikov * k, m and g for kilobytes, megabytes and gigabytes respectively.
776*537d1343SAlexander V. Chernikov *
777*537d1343SAlexander V. Chernikov * If a negative number is passed in i.e. a string with the first non-black
778*537d1343SAlexander V. Chernikov * character being "-", zero is returned. Zero is also returned in the case of
779*537d1343SAlexander V. Chernikov * an error with the strtoull call in the function.
780*537d1343SAlexander V. Chernikov *
781*537d1343SAlexander V. Chernikov * @param str
782*537d1343SAlexander V. Chernikov * String containing number to convert.
783*537d1343SAlexander V. Chernikov * @return
784*537d1343SAlexander V. Chernikov * Number.
785*537d1343SAlexander V. Chernikov */
786*537d1343SAlexander V. Chernikov #if 0
787*537d1343SAlexander V. Chernikov static inline uint64_t
788*537d1343SAlexander V. Chernikov rte_str_to_size(const char *str)
789*537d1343SAlexander V. Chernikov {
790*537d1343SAlexander V. Chernikov char *endptr;
791*537d1343SAlexander V. Chernikov unsigned long long size;
792*537d1343SAlexander V. Chernikov
793*537d1343SAlexander V. Chernikov while (isspace((int)*str))
794*537d1343SAlexander V. Chernikov str++;
795*537d1343SAlexander V. Chernikov if (*str == '-')
796*537d1343SAlexander V. Chernikov return 0;
797*537d1343SAlexander V. Chernikov
798*537d1343SAlexander V. Chernikov errno = 0;
799*537d1343SAlexander V. Chernikov size = strtoull(str, &endptr, 0);
800*537d1343SAlexander V. Chernikov if (errno)
801*537d1343SAlexander V. Chernikov return 0;
802*537d1343SAlexander V. Chernikov
803*537d1343SAlexander V. Chernikov if (*endptr == ' ')
804*537d1343SAlexander V. Chernikov endptr++; /* allow 1 space gap */
805*537d1343SAlexander V. Chernikov
806*537d1343SAlexander V. Chernikov switch (*endptr){
807*537d1343SAlexander V. Chernikov case 'G': case 'g': size *= 1024; /* fall-through */
808*537d1343SAlexander V. Chernikov case 'M': case 'm': size *= 1024; /* fall-through */
809*537d1343SAlexander V. Chernikov case 'K': case 'k': size *= 1024; /* fall-through */
810*537d1343SAlexander V. Chernikov default:
811*537d1343SAlexander V. Chernikov break;
812*537d1343SAlexander V. Chernikov }
813*537d1343SAlexander V. Chernikov return size;
814*537d1343SAlexander V. Chernikov }
815*537d1343SAlexander V. Chernikov #endif
816*537d1343SAlexander V. Chernikov
817*537d1343SAlexander V. Chernikov /**
818*537d1343SAlexander V. Chernikov * Function to terminate the application immediately, printing an error
819*537d1343SAlexander V. Chernikov * message and returning the exit_code back to the shell.
820*537d1343SAlexander V. Chernikov *
821*537d1343SAlexander V. Chernikov * This function never returns
822*537d1343SAlexander V. Chernikov *
823*537d1343SAlexander V. Chernikov * @param exit_code
824*537d1343SAlexander V. Chernikov * The exit code to be returned by the application
825*537d1343SAlexander V. Chernikov * @param format
826*537d1343SAlexander V. Chernikov * The format string to be used for printing the message. This can include
827*537d1343SAlexander V. Chernikov * printf format characters which will be expanded using any further parameters
828*537d1343SAlexander V. Chernikov * to the function.
829*537d1343SAlexander V. Chernikov */
830*537d1343SAlexander V. Chernikov __rte_noreturn void
831*537d1343SAlexander V. Chernikov rte_exit(int exit_code, const char *format, ...)
832*537d1343SAlexander V. Chernikov __rte_format_printf(2, 3);
833*537d1343SAlexander V. Chernikov
834*537d1343SAlexander V. Chernikov #ifdef __cplusplus
835*537d1343SAlexander V. Chernikov }
836*537d1343SAlexander V. Chernikov #endif
837*537d1343SAlexander V. Chernikov
838*537d1343SAlexander V. Chernikov #endif
839