| /netbsd/src/usr.sbin/fwctl/ |
| D | eui64.c | 193 e->octet[0]=o0; in eui64_aton()
194 e->octet[1]=o1; in eui64_aton()
195 e->octet[2]=o2; in eui64_aton()
196 e->octet[3]=o3; in eui64_aton()
197 e->octet[4]=o4; in eui64_aton()
198 e->octet[5]=o5; in eui64_aton()
199 e->octet[6]=o6; in eui64_aton()
200 e->octet[7]=o7; in eui64_aton()
214 id->octet[0], id->octet[1], id->octet[2], id->octet[3], in eui64_ntoa()
215 id->octet[4], id->octet[5], id->octet[6], id->octet[7]); in eui64_ntoa()
[all …]
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| /netbsd/src/crypto/external/bsd/netpgp/dist/src/lib/ |
| D | packet-show.c | 379 find_bitfield(pgp_bit_map_t *map, uint8_t octet) in find_bitfield() argument
383 for (row = map; row->string != NULL && row->mask != octet ; row++) { in find_bitfield()
422 add_str_from_octet_map(pgp_text_t *map, char *str, uint8_t octet) in add_str_from_octet_map() argument
443 (void) snprintf(str, len, "0x%x", octet); in add_str_from_octet_map()
495 const char *(*text_fn)(uint8_t octet)) in text_from_bytemapped_octets() argument
655 pgp_show_ss_zpref(uint8_t octet) in pgp_show_ss_zpref() argument
657 return pgp_str_from_map(octet, compression_alg_map); in pgp_show_ss_zpref()
717 pgp_show_ss_skapref(uint8_t octet) in pgp_show_ss_skapref() argument
719 return pgp_str_from_map(octet, symm_alg_map); in pgp_show_ss_skapref()
744 show_ss_feature(uint8_t octet, unsigned offset) in show_ss_feature() argument
[all …]
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| /netbsd/src/crypto/dist/ipsec-tools/src/racoon/ |
| D | prsa_tok.l | 50 octet (([01]?{digit}?{digit})|((2([0-4]{digit}))|(25[0-5])))
51 addr4 {octet}\.{octet}\.{octet}\.{octet}
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| /netbsd/src/crypto/external/bsd/netpgp/dist/ref/ |
| D | draft-ietf-openpgp-rfc2440bis-12.txt | 436 service of converting the raw 8-bit binary octet stream to a stream
462 format. Using n[k] to refer to the kth octet being interpreted, the
463 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
464 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
473 An MPI consists of two pieces: a two-octet scalar that is the length
500 A Key ID is an eight-octet scalar that identifies a key.
516 A time field is an unsigned four-octet number containing the number
574 second gets preloaded with 1 octet of zero, the third is preloaded
592 Octets 2-9: 8-octet salt value
600 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | draft-ietf-openpgp-rfc2440bis-12-ben.txt | 436 service of converting the raw 8-bit binary octet stream to a stream
462 format. Using n[k] to refer to the kth octet being interpreted, the
463 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
464 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
473 An MPI consists of two pieces: a two-octet scalar that is the length
500 A Key ID is an eight-octet scalar that identifies a key.
516 A time field is an unsigned four-octet number containing the number
574 second gets preloaded with 1 octet of zero, the third is preloaded
592 Octets 2-9: 8-octet salt value
600 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | draft-ietf-openpgp-rfc2440bis-15.txt | 436 service of converting the raw 8-bit binary octet stream to a stream
462 format. Using n[k] to refer to the kth octet being interpreted, the
463 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
464 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
473 An MPI consists of two pieces: a two-octet scalar that is the length
502 A Key ID is an eight-octet scalar that identifies a key.
518 A time field is an unsigned four-octet number containing the number
574 second gets preloaded with 1 octet of zero, the third is preloaded
592 Octets 2-9: 8-octet salt value
600 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | draft-ietf-openpgp-rfc2440bis-14.txt | 436 service of converting the raw 8-bit binary octet stream to a stream
462 format. Using n[k] to refer to the kth octet being interpreted, the
463 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
464 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
473 An MPI consists of two pieces: a two-octet scalar that is the length
502 A Key ID is an eight-octet scalar that identifies a key.
518 A time field is an unsigned four-octet number containing the number
574 second gets preloaded with 1 octet of zero, the third is preloaded
592 Octets 2-9: 8-octet salt value
600 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | draft-ietf-openpgp-rfc2440bis-13.txt | 436 service of converting the raw 8-bit binary octet stream to a stream
462 format. Using n[k] to refer to the kth octet being interpreted, the
463 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
464 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
473 An MPI consists of two pieces: a two-octet scalar that is the length
502 A Key ID is an eight-octet scalar that identifies a key.
518 A time field is an unsigned four-octet number containing the number
574 second gets preloaded with 1 octet of zero, the third is preloaded
592 Octets 2-9: 8-octet salt value
600 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | rfc2440.txt | 363 service of converting the raw 8-bit binary octet stream to a stream
402 format. Using n[k] to refer to the kth octet being interpreted, the
403 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
404 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
413 An MPI consists of two pieces: a two-octet scalar that is the length
437 A Key ID is an eight-octet scalar that identifies a key.
457 A time field is an unsigned four-octet number containing the number
492 preloaded with 1 octet of zero, the third is preloaded with two
519 Octets 2-9: 8-octet salt value
527 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | rfc2437.txt | 156 C ciphertext, an octet string
175 EM encoded message, an octet string
189 l intended length of octet string
197 M message, an octet string
203 P encoding parameters, an octet string
213 S signature, an octet string
217 X an octet string corresponding to x
219 \xor bitwise exclusive-or of two octet strings
233 ||.|| octet length operator
321 octet string is an ordered sequence of octets (eight-bit bytes). The
[all …]
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| D | rfc4880.txt | 419 service of converting the raw 8-bit binary octet stream to a stream
441 format. Using n[k] to refer to the kth octet being interpreted, the
442 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
443 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
461 An MPI consists of two pieces: a two-octet scalar that is the length
490 A Key ID is an eight-octet scalar that identifies a key.
513 A time field is an unsigned four-octet number containing the number
575 preloaded with 1 octet of zero, the third is preloaded with two
593 Octets 2-9: 8-octet salt value
601 This includes both a salt and an octet count. The salt is combined
[all …]
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| D | draft-ietf-openpgp-rfc2440bis-22.txt | 499 service of converting the raw 8-bit binary octet stream to a stream
525 format. Using n[k] to refer to the kth octet being interpreted, the
526 value of a two-octet scalar is ((n[0] << 8) + n[1]). The value of a
527 four-octet scalar is ((n[0] << 24) + (n[1] << 16) + (n[2] << 8) +
536 An MPI consists of two pieces: a two-octet scalar that is the length
570 A Key ID is an eight-octet scalar that identifies a key.
582 A time field is an unsigned four-octet number containing the number
640 second gets preloaded with 1 octet of zero, the third is preloaded
658 Octets 2-9: 8-octet salt value
666 This includes both a salt and an octet count. The salt is combined
[all …]
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| /netbsd/src/external/bsd/file/dist/magic/magdir/ |
| D | pascal | 22 #!:mime application/octet-stream
28 #!:mime application/octet-stream
33 #!:mime application/octet-stream
38 #!:mime application/octet-stream
|
| D | microfocus | 13 !:mime application/octet-stream
17 !:mime application/octet-stream
21 !:mime application/octet-stream
|
| D | wordprocessors | 40 #!:mime application/octet-stream
46 #!:mime application/octet-stream
53 #!:mime application/octet-stream
59 #!:mime application/octet-stream
76 #!:mime application/octet-stream
85 #!:mime application/octet-stream
90 #!:mime application/octet-stream
97 #!:mime application/octet-stream
109 #!:mime application/octet-stream
121 #!:mime application/octet-stream
[all …]
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| D | maple | 14 #!:mime application/octet-stream
22 #!:mime application/octet-stream
28 #!:mime application/octet-stream
61 #!:mime application/octet-stream
|
| D | mcrypt | 12 #!:mime application/octet-stream
22 #!:mime application/octet-stream
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| /netbsd/src/external/ibm-public/postfix/dist/src/util/ |
| D | valid_hostname.ref | 3 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet value: 123456789012345678901234567890…
6 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet value: 123456789012345678901234567890…
16 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet value: 321.255.255.255
23 ./valid_hostname: warning: valid_ipv4_hostaddr: bad initial octet value: 0.255.255.255
26 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet value: 1.2.3.321
29 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet count: 1.2.3
32 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet count: 1.2.3.4.5
44 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet count: 1
53 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet value: 321
127 ./valid_hostname: warning: valid_ipv4_hostaddr: invalid octet count: 1.2.3
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| /netbsd/src/external/bsd/wpa/dist/src/common/ |
| D | dpp_pkex.c | 593 u8 octet; in dpp_pkex_build_commit_reveal_req() local
660 octet = 0; in dpp_pkex_build_commit_reveal_req()
661 addr[1] = &octet; in dpp_pkex_build_commit_reveal_req()
662 len[1] = sizeof(octet); in dpp_pkex_build_commit_reveal_req()
913 u8 octet; in dpp_pkex_build_commit_reveal_resp() local
981 octet = 1; in dpp_pkex_build_commit_reveal_resp()
982 addr[1] = &octet; in dpp_pkex_build_commit_reveal_resp()
983 len[1] = sizeof(octet); in dpp_pkex_build_commit_reveal_resp()
1031 u8 octet; in dpp_pkex_rx_commit_reveal_req() local
1068 octet = 0; in dpp_pkex_rx_commit_reveal_req()
[all …]
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| /netbsd/src/sys/net/ |
| D | if_llatbl.c | 809 uint8_t octet[6]; in llatbl_lle_show() local
828 memcopy(octet, &lle->ll_addr.mac16, sizeof(octet)); in llatbl_lle_show()
830 octet[0], octet[1], octet[2], octet[3], octet[4], octet[5]); in llatbl_lle_show()
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| /netbsd/src/crypto/external/bsd/heimdal/dist/doc/ |
| D | layman.asc | 90 Terminology and notation. In this note, an octet is an eight-
91 bit unsigned integer. Bit 8 of the octet is the most
99 denotes an octet value in hexadecimal
244 length is not known in advance (e.g., an octet string value
321 one or more ways to represent any ASN.1 value as an octet
375 Low-tag-number form. One octet. Bits 8 and 7 specify
389 High-tag-number form. Two or more octets. First octet
394 with the bit 8 of each octet except the last set
401 Short form. One octet. Bit 8 has value "0" and bits 7-1
404 Long form. Two to 127 octets. Bit 8 of first octet has
[all …]
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| /netbsd/src/lib/libc/net/ |
| D | getnetnamadr.c | 135 unsigned long octet[4]; in parse_reversed_addr() local
146 octet[octidx] = strtoul(sp, &ep, 10); in parse_reversed_addr()
151 if (octet[octidx] > 255) in parse_reversed_addr()
162 *result |= (in_addr_t)(octet[octidx] & 0xff); in parse_reversed_addr()
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| /netbsd/src/crypto/external/bsd/heimdal/dist/lib/hdb/ |
| D | hdb.schema | 103 DESC 'Encoded ASN1 Key as an octet string'
118 DESC 'Encoded ASN1 HDB Extension Attributes as an octet string'
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| /netbsd/src/sbin/ifconfig/ |
| D | parse.c | 239 uint8_t octet = 0, val; in parse_linkaddr() local
257 sdl->sdl_data[i++] = octet; in parse_linkaddr()
269 sdl->sdl_data[i++] = octet; in parse_linkaddr()
285 octet <<= 4; in parse_linkaddr()
286 octet |= val; in parse_linkaddr()
291 octet = val; in parse_linkaddr()
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| /netbsd/src/sys/dev/pci/cxgb/ |
| D | cxgb_xgmac.c | 290 int hash = 0, octet, bit, i = 0, c; in hash_hw_addr() local
292 for (octet = 0; octet < 6; ++octet) in hash_hw_addr()
293 for (c = addr[octet], bit = 0; bit < 8; c >>= 1, ++bit) { in hash_hw_addr()
|