| /Linux-v5.15/crypto/ |
| D | khazad.c | 803 u8 *ciphertext, const u8 *plaintext) in khazad_crypt() argument
806 __be64 *dst = (__be64 *)ciphertext; in khazad_crypt()
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| D | anubis.c | 573 u8 *ciphertext, const u8 *plaintext, const int R) in anubis_crypt() argument
576 __be32 *dst = (__be32 *)ciphertext; in anubis_crypt()
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| D | Kconfig | 442 with the plaintext blocks to get the ciphertext. Flipping a bit in the
443 ciphertext produces a flipped bit in the plaintext at the same
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| /Linux-v5.15/fs/ksmbd/ |
| D | ntlmssp.h | 165 unsigned char ciphertext[CIFS_CPHTXT_SIZE]; member
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| /Linux-v5.15/Documentation/crypto/ |
| D | userspace-if.rst | 94 ciphertext in different memory locations, all a consumer needs to do is
237 with the plaintext / ciphertext. See below for the memory structure.
263 - plaintext or ciphertext
279 - AEAD decryption input: AAD \|\| ciphertext \|\| authentication tag
284 - AEAD encryption output: ciphertext \|\| authentication tag
388 provided ciphertext is assumed to contain an authentication tag of
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| D | devel-algos.rst | 132 contains the plaintext and will contain the ciphertext. Please refer
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| /Linux-v5.15/drivers/staging/r8188eu/core/ |
| D | rtw_security.c | 713 static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext);
857 static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext) in aes128k128d() argument
869 xor_128(round_key, data, ciphertext); in aes128k128d()
872 byte_sub(ciphertext, intermediatea); in aes128k128d()
874 xor_128(intermediateb, round_key, ciphertext); in aes128k128d()
876 byte_sub(ciphertext, intermediatea); in aes128k128d()
882 xor_128(intermediatea, round_key, ciphertext); in aes128k128d()
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| /Linux-v5.15/drivers/staging/rtl8712/ |
| D | rtl871x_security.c | 859 static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext) in aes128k128d() argument
871 xor_128(round_key, data, ciphertext); in aes128k128d()
874 byte_sub(ciphertext, intermediatea); in aes128k128d()
876 xor_128(intermediateb, round_key, ciphertext); in aes128k128d()
878 byte_sub(ciphertext, intermediatea); in aes128k128d()
884 xor_128(intermediatea, round_key, ciphertext); in aes128k128d()
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| /Linux-v5.15/Documentation/filesystems/ |
| D | fscrypt.rst | 118 "locked", i.e. in ciphertext or encrypted form.
221 resulting ciphertext is used as the derived key. If the ciphertext is
242 files doesn't map to the same ciphertext, or vice versa. In most
363 with ciphertext expansion.
804 be in plaintext form or in ciphertext form) is global. This mismatch
1073 for an encrypted file contains the plaintext, not the ciphertext.
1085 listed in an encoded form derived from their ciphertext. The
1188 read the ciphertext into the page cache and decrypt it in-place. The
1226 directories.) Instead, filesystems hash the ciphertext filenames,
1229 the user-supplied name to get the ciphertext.
[all …]
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| D | fsverity.rst | 496 the ciphertext. This is necessary in order to make the fs-verity file
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| /Linux-v5.15/arch/x86/crypto/ |
| D | aesni-intel_avx-x86_64.S | 299 mov arg5, %r13 # save the number of bytes of plaintext/ciphertext
485 vpshufb SHUF_MASK(%rip), %xmm9, %xmm9 # shuffle xmm9 back to output as ciphertext
844 # shuffle xmm9 back to output as ciphertext
987 ## encrypt the initial num_initial_blocks blocks and apply ghash on the ciphertext
1048 … vmovdqu reg_i, (arg3 , %r11) # write back ciphertext for num_initial_blocks blocks
1053 vpshufb SHUF_MASK(%rip), reg_i, reg_i # prepare ciphertext for GHASH computations
1207 …pxor TMP1(%rsp), \XMM1, \XMM1 # combine GHASHed value with the corresponding ciphertext
1223 # ghash the 8 previously encrypted ciphertext blocks
1592 # GHASH the last 4 ciphertext blocks.
1935 ## encrypt the initial num_initial_blocks blocks and apply ghash on the ciphertext
[all …]
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| D | aesni-intel_asm.S | 405 # shuffle xmm0 back to output as ciphertext
741 # shuffle xmm9 back to output as ciphertext
833 # write back plaintext/ciphertext for num_initial_blocks
841 # prepare plaintext/ciphertext for GHASH computation
961 # combine GHASHed value with the corresponding ciphertext
1125 movdqu \XMM1, (%arg3,%r11,1) # Write to the ciphertext buffer
1126 movdqu \XMM2, 16(%arg3,%r11,1) # Write to the ciphertext buffer
1127 movdqu \XMM3, 32(%arg3,%r11,1) # Write to the ciphertext buffer
1128 movdqu \XMM4, 48(%arg3,%r11,1) # Write to the ciphertext buffer
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| /Linux-v5.15/Documentation/block/ |
| D | inline-encryption.rst | 114 blk-crypto-fallback is used, the ciphertext written to disk (and hence the
249 re-generate the integrity info from the ciphertext data and store that on disk
254 ciphertext, not that of the plaintext).
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| /Linux-v5.15/drivers/staging/rtl8723bs/core/ |
| D | rtw_security.c | 669 static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext);
677 static void aes128k128d(u8 *key, u8 *data, u8 *ciphertext) in aes128k128d() argument
682 aes_encrypt(&ctx, ciphertext, data); in aes128k128d()
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| /Linux-v5.15/Documentation/admin-guide/device-mapper/ |
| D | dm-crypt.rst | 107 the leak of information about the ciphertext device (filesystem type,
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| /Linux-v5.15/fs/cifs/ |
| D | cifsencrypt.c | 702 cifs_arc4_crypt(ctx_arc4, ses->ntlmssp->ciphertext, sec_key, in calc_seckey()
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| D | cifsglob.h | 153 unsigned char ciphertext[CIFS_CPHTXT_SIZE]; /* sent to server */ member
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| D | sess.c | 762 memcpy(tmp, ses->ntlmssp->ciphertext, CIFS_CPHTXT_SIZE); in build_ntlmssp_auth_blob()
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| /Linux-v5.15/Documentation/virt/kvm/ |
| D | amd-memory-encryption.rst | 200 … SEV_STATE_SECRET, /* guest is being launched and ready to accept the ciphertext data */
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| D | api.rst | 4334 moving ciphertext of those pages will not result in plaintext being
4339 swap or migrate (move) ciphertext pages. Hence, for now we pin the guest
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