Kaynağa Gözat

[linux] Rewrite headers included in all builds

Rewrite (and relicense) the header files which are included in all
builds of iPXE (including non-Linux builds).

Signed-off-by: Michael Brown <mcb30@ipxe.org>
tags/v1.20.1
Michael Brown 9 yıl önce
ebeveyn
işleme
bfbb2b8f1c

+ 7
- 5
src/include/ipxe/linux/linux_entropy.h Dosyayı Görüntüle

@@ -3,11 +3,11 @@
3 3
 
4 4
 /** @file
5 5
  *
6
- * iPXE entropy API for linux
6
+ * /dev/random-based entropy source
7 7
  *
8 8
  */
9 9
 
10
-FILE_LICENCE(GPL2_OR_LATER_OR_UBDL);
10
+FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
11 11
 
12 12
 #ifdef ENTROPY_LINUX
13 13
 #define ENTROPY_PREFIX_linux
@@ -23,10 +23,12 @@ FILE_LICENCE(GPL2_OR_LATER_OR_UBDL);
23 23
 static inline __always_inline double
24 24
 ENTROPY_INLINE ( linux, min_entropy_per_sample ) ( void ) {
25 25
 
26
-	/* We read single bytes from /dev/random and assume that each
27
-	 * contains full entropy.
26
+	/* linux_get_noise() reads a single byte from /dev/random,
27
+	 * which is supposed to block until a sufficient amount of
28
+	 * entropy is available.  We therefore assume that each sample
29
+	 * contains exactly 8 bits of entropy.
28 30
 	 */
29
-	return 8;
31
+	return 8.0;
30 32
 }
31 33
 
32 34
 #endif /* _IPXE_LINUX_ENTROPY_H */

+ 1
- 1
src/include/ipxe/linux/linux_nap.h Dosyayı Görüntüle

@@ -7,7 +7,7 @@
7 7
  *
8 8
  */
9 9
 
10
-FILE_LICENCE(GPL2_OR_LATER);
10
+FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
11 11
 
12 12
 #ifdef NAP_LINUX
13 13
 #define NAP_PREFIX_linux

+ 2
- 2
src/include/ipxe/linux/linux_smbios.h Dosyayı Görüntüle

@@ -3,11 +3,11 @@
3 3
 
4 4
 /** @file
5 5
  *
6
- * iPXE SMBIOS API for linux
6
+ * iPXE SMBIOS API for Linux
7 7
  *
8 8
  */
9 9
 
10
-FILE_LICENCE(GPL2_OR_LATER);
10
+FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
11 11
 
12 12
 #ifdef SMBIOS_LINUX
13 13
 #define SMBIOS_PREFIX_linux

+ 1
- 1
src/include/ipxe/linux/linux_timer.h Dosyayı Görüntüle

@@ -7,7 +7,7 @@
7 7
  *
8 8
  */
9 9
 
10
-FILE_LICENCE ( GPL2_OR_LATER );
10
+FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
11 11
 
12 12
 #ifdef TIMER_LINUX
13 13
 #define TIMER_PREFIX_linux

+ 59
- 67
src/include/ipxe/linux/linux_uaccess.h Dosyayı Görüntüle

@@ -1,116 +1,108 @@
1
-/*
2
- * Copyright (C) 2010 Piotr Jaroszyński <p.jaroszynski@gmail.com>
3
- *
4
- * This program is free software; you can redistribute it and/or
5
- * modify it under the terms of the GNU General Public License as
6
- * published by the Free Software Foundation; either version 2 of the
7
- * License, or any later version.
8
- *
9
- * This program is distributed in the hope that it will be useful, but
10
- * WITHOUT ANY WARRANTY; without even the implied warranty of
11
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
12
- * General Public License for more details.
13
- *
14
- * You should have received a copy of the GNU General Public License
15
- * along with this program; if not, write to the Free Software
16
- * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
17
- */
18
-
19 1
 #ifndef _IPXE_LINUX_UACCESS_H
20 2
 #define _IPXE_LINUX_UACCESS_H
21 3
 
22
-FILE_LICENCE(GPL2_OR_LATER);
23
-
24 4
 /** @file
25 5
  *
26
- * iPXE user access API for linux
6
+ * iPXE user access API for Linux
7
+ *
8
+ * We run with no distinction between internal and external addresses,
9
+ * so can use trivial_virt_to_user() et al.
27 10
  *
28
- * In linux userspace virtual == user == phys addresses.
29
- * Physical addresses also being the same is wrong, but there is no general way
30
- * of converting userspace addresses to physical as what appears to be
31
- * contiguous in userspace is physically fragmented.
32
- * Currently only the DMA memory is special-cased, but its conversion to bus
33
- * addresses is done in phys_to_bus.
34
- * This is known to break virtio as it is passing phys addresses to the virtual
35
- * device.
11
+ * We have no concept of the underlying physical addresses, since
12
+ * these are not exposed to userspace.  We provide a stub
13
+ * implementation of user_to_phys() since this is required by
14
+ * alloc_memblock().  We provide no implementation of phys_to_user();
15
+ * any code attempting to access physical addresses will therefore
16
+ * (correctly) fail to link.
36 17
  */
37 18
 
19
+FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
20
+
38 21
 #ifdef UACCESS_LINUX
39 22
 #define UACCESS_PREFIX_linux
40 23
 #else
41 24
 #define UACCESS_PREFIX_linux __linux_
42 25
 #endif
43 26
 
44
-static inline __always_inline userptr_t
45
-UACCESS_INLINE(linux, phys_to_user)(unsigned long phys_addr)
46
-{
47
-	return phys_addr;
48
-}
49
-
27
+/**
28
+ * Convert user buffer to physical address
29
+ *
30
+ * @v userptr		User pointer
31
+ * @v offset		Offset from user pointer
32
+ * @ret phys_addr	Physical address
33
+ */
50 34
 static inline __always_inline unsigned long
51
-UACCESS_INLINE(linux, user_to_phys)(userptr_t userptr, off_t offset)
52
-{
53
-	return userptr + offset;
35
+UACCESS_INLINE ( linux, user_to_phys ) ( userptr_t userptr, off_t offset ) {
36
+
37
+	/* We do not know the real underlying physical address.  We
38
+	 * provide this stub implementation only because it is
39
+	 * required by alloc_memblock() (which allocates memory with
40
+	 * specified physical address alignment).  We assume that the
41
+	 * low-order bits of virtual addresses match the low-order
42
+	 * bits of physical addresses, and so simply returning the
43
+	 * virtual address will suffice for the purpose of determining
44
+	 * alignment.
45
+	 */
46
+	return ( userptr + offset );
54 47
 }
55 48
 
56 49
 static inline __always_inline userptr_t
57
-UACCESS_INLINE(linux, virt_to_user)(volatile const void *addr)
58
-{
59
-	return trivial_virt_to_user(addr);
50
+UACCESS_INLINE ( linux, virt_to_user ) ( volatile const void *addr ) {
51
+	return trivial_virt_to_user ( addr );
60 52
 }
61 53
 
62 54
 static inline __always_inline void *
63
-UACCESS_INLINE(linux, user_to_virt)(userptr_t userptr, off_t offset)
64
-{
65
-	return trivial_user_to_virt(userptr, offset);
55
+UACCESS_INLINE ( linux, user_to_virt ) ( userptr_t userptr, off_t offset ) {
56
+	return trivial_user_to_virt ( userptr, offset );
66 57
 }
67 58
 
68 59
 static inline __always_inline userptr_t
69
-UACCESS_INLINE(linux, userptr_add)(userptr_t userptr, off_t offset)
70
-{
71
-	return trivial_userptr_add(userptr, offset);
60
+UACCESS_INLINE ( linux, userptr_add ) ( userptr_t userptr, off_t offset ) {
61
+	return trivial_userptr_add ( userptr, offset );
72 62
 }
73 63
 
74 64
 static inline __always_inline off_t
75
-UACCESS_INLINE(linux, userptr_sub)(userptr_t userptr, userptr_t subtrahend)
76
-{
65
+UACCESS_INLINE ( linux, userptr_sub ) ( userptr_t userptr,
66
+					userptr_t subtrahend ) {
77 67
 	return trivial_userptr_sub ( userptr, subtrahend );
78 68
 }
79 69
 
80 70
 static inline __always_inline void
81
-UACCESS_INLINE(linux, memcpy_user)(userptr_t dest, off_t dest_off, userptr_t src, off_t src_off, size_t len)
82
-{
83
-	trivial_memcpy_user(dest, dest_off, src, src_off, len);
71
+UACCESS_INLINE ( linux, memcpy_user ) ( userptr_t dest, off_t dest_off,
72
+					userptr_t src, off_t src_off,
73
+					size_t len ) {
74
+	trivial_memcpy_user ( dest, dest_off, src, src_off, len );
84 75
 }
85 76
 
86 77
 static inline __always_inline void
87
-UACCESS_INLINE(linux, memmove_user)(userptr_t dest, off_t dest_off, userptr_t src, off_t src_off, size_t len)
88
-{
89
-	trivial_memmove_user(dest, dest_off, src, src_off, len);
78
+UACCESS_INLINE ( linux, memmove_user ) ( userptr_t dest, off_t dest_off,
79
+					 userptr_t src, off_t src_off,
80
+					 size_t len ) {
81
+	trivial_memmove_user ( dest, dest_off, src, src_off, len );
90 82
 }
91 83
 
92 84
 static inline __always_inline int
93
-UACCESS_INLINE(linux, memcmp_user)(userptr_t first, off_t first_off, userptr_t second, off_t second_off, size_t len)
94
-{
95
-	return trivial_memcmp_user(first, first_off, second, second_off, len);
85
+UACCESS_INLINE ( linux, memcmp_user ) ( userptr_t first, off_t first_off,
86
+					userptr_t second, off_t second_off,
87
+					size_t len ) {
88
+	return trivial_memcmp_user ( first, first_off, second, second_off, len);
96 89
 }
97 90
 
98 91
 static inline __always_inline void
99
-UACCESS_INLINE(linux, memset_user)(userptr_t buffer, off_t offset, int c, size_t len)
100
-{
101
-	trivial_memset_user(buffer, offset, c, len);
92
+UACCESS_INLINE ( linux, memset_user ) ( userptr_t buffer, off_t offset,
93
+					int c, size_t len ) {
94
+	trivial_memset_user ( buffer, offset, c, len );
102 95
 }
103 96
 
104 97
 static inline __always_inline size_t
105
-UACCESS_INLINE(linux, strlen_user)(userptr_t buffer, off_t offset)
106
-{
107
-	return trivial_strlen_user(buffer, offset);
98
+UACCESS_INLINE ( linux, strlen_user ) ( userptr_t buffer, off_t offset ) {
99
+	return trivial_strlen_user ( buffer, offset );
108 100
 }
109 101
 
110 102
 static inline __always_inline off_t
111
-UACCESS_INLINE(linux, memchr_user)(userptr_t buffer, off_t offset, int c, size_t len)
112
-{
113
-	return trivial_memchr_user(buffer, offset, c, len);
103
+UACCESS_INLINE ( linux, memchr_user ) ( userptr_t buffer, off_t offset,
104
+					int c, size_t len ) {
105
+	return trivial_memchr_user ( buffer, offset, c, len );
114 106
 }
115 107
 
116 108
 #endif /* _IPXE_LINUX_UACCESS_H */

+ 3
- 3
src/include/ipxe/linux/linux_umalloc.h Dosyayı Görüntüle

@@ -1,14 +1,14 @@
1 1
 #ifndef _IPXE_LINUX_UMALLOC_H
2 2
 #define _IPXE_LINUX_UMALLOC_H
3 3
 
4
-FILE_LICENCE(GPL2_OR_LATER);
5
-
6 4
 /** @file
7 5
  *
8
- * iPXE user memory allocation API for linux
6
+ * iPXE user memory allocation API for Linux
9 7
  *
10 8
  */
11 9
 
10
+FILE_LICENCE ( GPL2_OR_LATER_OR_UBDL );
11
+
12 12
 #ifdef UMALLOC_LINUX
13 13
 #define UMALLOC_PREFIX_linux
14 14
 #else

+ 0
- 1
src/interface/linux/linux_uaccess.c Dosyayı Görüntüle

@@ -27,7 +27,6 @@ FILE_LICENCE(GPL2_OR_LATER);
27 27
  *
28 28
  */
29 29
 
30
-PROVIDE_UACCESS_INLINE(linux, phys_to_user);
31 30
 PROVIDE_UACCESS_INLINE(linux, user_to_phys);
32 31
 PROVIDE_UACCESS_INLINE(linux, virt_to_user);
33 32
 PROVIDE_UACCESS_INLINE(linux, user_to_virt);

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