forked from Minki/linux
staging: rtl8723au: Adjust whitespace in and around comments
As the subject indicates, adjust whitespace in and around comments in rtl8723au's rtw_security.c. Signed-off-by: M. Vefa Bicakci <m.v.b@runbox.com> Signed-off-by: Greg Kroah-Hartman <gregkh@linuxfoundation.org>
This commit is contained in:
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268523aa6a
commit
1d6b1ac0b6
@ -135,12 +135,12 @@ static u32 getcrc32(u8 *buf, int len)
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if (bcrc32initialized == 0)
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crc32_init();
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crc = 0xffffffff; /* preload shift register, per CRC-32 spec */
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crc = 0xffffffff; /* preload shift register, per CRC-32 spec */
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for (p = buf; len > 0; ++p, --len)
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crc = crc32_table[(crc ^ *p) & 0xff] ^ (crc >> 8);
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return ~crc; /* transmit complement, per CRC-32 spec */
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return ~crc; /* transmit complement, per CRC-32 spec */
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}
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/* Need to consider the fragment situation */
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@ -152,7 +152,7 @@ void rtw_wep_encrypt23a(struct rtw_adapter *padapter,
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struct arc4context mycontext;
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int curfragnum, length, index;
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u32 keylength;
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u8 *pframe, *payload, *iv; /* wepkey */
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u8 *pframe, *payload, *iv; /* wepkey */
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u8 wepkey[16];
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u8 hw_hdr_offset = 0;
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struct pkt_attrib *pattrib = &pxmitframe->attrib;
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@ -370,15 +370,15 @@ void rtw_seccalctkipmic23a(u8 *key, u8 *header, u8 *data, u32 data_len,
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priority[0] = pri;
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/* Michael MIC pseudo header: DA, SA, 3 x 0, Priority */
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if (header[1]&1) { /* ToDS == 1 */
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rtw_secmicappend23a(&micdata, &header[16], 6); /* DA */
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if (header[1]&2) /* From Ds == 1 */
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if (header[1]&1) { /* ToDS == 1 */
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rtw_secmicappend23a(&micdata, &header[16], 6); /* DA */
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if (header[1]&2) /* From Ds == 1 */
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rtw_secmicappend23a(&micdata, &header[24], 6);
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else
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rtw_secmicappend23a(&micdata, &header[10], 6);
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} else { /* ToDS == 0 */
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rtw_secmicappend23a(&micdata, &header[4], 6); /* DA */
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if (header[1]&2) /* From Ds == 1 */
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} else { /* ToDS == 0 */
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rtw_secmicappend23a(&micdata, &header[4], 6); /* DA */
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if (header[1]&2) /* From Ds == 1 */
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rtw_secmicappend23a(&micdata, &header[16], 6);
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else
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rtw_secmicappend23a(&micdata, &header[10], 6);
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@ -400,7 +400,7 @@ void rtw_seccalctkipmic23a(u8 *key, u8 *header, u8 *data, u32 data_len,
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#define Hi16(v32) ((u16)(((v32) >> 16) & 0xFFFF))
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#define Mk16(hi, lo) ((lo) ^ (((u16)(hi)) << 8))
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/* select the Nth 16-bit word of the temporal key unsigned char array TK[] */
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/* select the Nth 16-bit word of the temporal key unsigned char array TK[] */
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#define TK16(N) Mk16(tk[2 * (N) + 1], tk[2 * (N)])
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/* S-box lookup: 16 bits --> 16 bits */
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@ -507,7 +507,7 @@ static void phase1(u16 *p1k, const u8 *tk, const u8 *ta, u32 iv32)
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{
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int i;
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/* Initialize the 80 bits of P1K[] from IV32 and TA[0..5] */
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/* Initialize the 80 bits of P1K[] from IV32 and TA[0..5] */
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p1k[0] = Lo16(iv32);
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p1k[1] = Hi16(iv32);
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p1k[2] = Mk16(ta[1], ta[0]); /* use TA[] as little-endian */
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@ -523,7 +523,7 @@ static void phase1(u16 *p1k, const u8 *tk, const u8 *ta, u32 iv32)
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p1k[2] += _S_(p1k[1] ^ TK16((i & 1) + 4));
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p1k[3] += _S_(p1k[2] ^ TK16((i & 1) + 6));
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p1k[4] += _S_(p1k[3] ^ TK16((i & 1) + 0));
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p1k[4] += (unsigned short)i; /* avoid "slide attacks" */
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p1k[4] += (unsigned short) i; /* avoid "slide attacks" */
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}
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}
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@ -554,41 +554,41 @@ static void phase1(u16 *p1k, const u8 *tk, const u8 *ta, u32 iv32)
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static void phase2(u8 *rc4key, const u8 *tk, const u16 *p1k, u16 iv16)
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{
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int i;
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u16 PPK[6]; /* temporary key for mixing */
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u16 PPK[6]; /* temporary key for mixing */
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/* Note: all adds in the PPK[] equations below are mod 2**16 */
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/* Note: all adds in the PPK[] equations below are mod 2**16 */
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for (i = 0; i < 5; i++)
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PPK[i] = p1k[i]; /* first, copy P1K to PPK */
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PPK[i] = p1k[i]; /* first, copy P1K to PPK */
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PPK[5] = p1k[4] + iv16; /* next, add in IV16 */
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PPK[5] = p1k[4] + iv16; /* next, add in IV16 */
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/* Bijective non-linear mixing of the 96 bits of PPK[0..5] */
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PPK[0] += _S_(PPK[5] ^ TK16(0)); /* Mix key in each "round" */
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PPK[1] += _S_(PPK[0] ^ TK16(1));
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PPK[2] += _S_(PPK[1] ^ TK16(2));
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PPK[3] += _S_(PPK[2] ^ TK16(3));
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PPK[4] += _S_(PPK[3] ^ TK16(4));
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PPK[5] += _S_(PPK[4] ^ TK16(5)); /* Total # S-box lookups == 6 */
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/* Bijective non-linear mixing of the 96 bits of PPK[0..5] */
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PPK[0] += _S_(PPK[5] ^ TK16(0)); /* Mix key in each "round" */
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PPK[1] += _S_(PPK[0] ^ TK16(1));
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PPK[2] += _S_(PPK[1] ^ TK16(2));
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PPK[3] += _S_(PPK[2] ^ TK16(3));
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PPK[4] += _S_(PPK[3] ^ TK16(4));
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PPK[5] += _S_(PPK[4] ^ TK16(5)); /* Total # S-box lookups == 6 */
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/* Final sweep: bijective, "linear". Rotates kill LSB correlations */
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/* Final sweep: bijective, "linear". Rotates kill LSB correlations */
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PPK[0] += RotR1(PPK[5] ^ TK16(6));
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PPK[1] += RotR1(PPK[0] ^ TK16(7)); /* Use all of TK[] in Phase2 */
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PPK[1] += RotR1(PPK[0] ^ TK16(7)); /* Use all of TK[] in Phase2 */
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PPK[2] += RotR1(PPK[1]);
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PPK[3] += RotR1(PPK[2]);
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PPK[4] += RotR1(PPK[3]);
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PPK[5] += RotR1(PPK[4]);
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/* Note: At this point, for a given key TK[0..15], the 96-bit output */
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/* value PPK[0..5] is guaranteed to be unique, as a function */
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/* of the 96-bit "input" value {TA, IV32, IV16}. That is, P1K */
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/* is now a keyed permutation of {TA, IV32, IV16}. */
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/* of the 96-bit "input" value {TA, IV32, IV16}. That is, */
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/* P1K is now a keyed permutation of {TA, IV32, IV16}. */
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/* Set RC4KEY[0..3], which includes "cleartext" portion of RC4 key */
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rc4key[0] = Hi8(iv16); /* RC4KEY[0..2] is the WEP IV */
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rc4key[1] = (Hi8(iv16) | 0x20) & 0x7F; /* Help avoid weak (FMS) keys */
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rc4key[0] = Hi8(iv16); /* RC4KEY[0..2] is the WEP IV */
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rc4key[1] = (Hi8(iv16) | 0x20) & 0x7F; /* Help avoid weak (FMS) keys */
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rc4key[2] = Lo8(iv16);
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rc4key[3] = Lo8((PPK[5] ^ TK16(0)) >> 1);
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/* Copy 96 bits of PPK[0..5] to RC4KEY[4..15] (little-endian) */
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/* Copy 96 bits of PPK[0..5] to RC4KEY[4..15] (little-endian) */
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for (i = 0; i < 6; i++) {
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rc4key[4 + 2 * i] = Lo8(PPK[i]);
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rc4key[5 + 2 * i] = Hi8(PPK[i]);
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@ -671,7 +671,7 @@ int rtw_tkip_encrypt23a(struct rtw_adapter *padapter,
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phase2(&rc4key[0], prwskey, (u16 *)&ttkey[0], pnl);
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if ((curfragnum + 1) == pattrib->nr_frags) { /* 4 the last fragment */
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if ((curfragnum + 1) == pattrib->nr_frags) { /* 4 the last fragment */
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length = (pattrib->last_txcmdsz -
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pattrib->hdrlen -
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pattrib->iv_len -
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@ -681,7 +681,7 @@ int rtw_tkip_encrypt23a(struct rtw_adapter *padapter,
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"pattrib->iv_len =%x, pattrib->icv_len =%x\n",
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pattrib->iv_len,
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pattrib->icv_len);
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*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length));/* modified by Amy*/
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*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length)); /* modified by Amy */
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arcfour_init(&mycontext, rc4key, 16);
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arcfour_encrypt(&mycontext, payload, payload, length);
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@ -693,7 +693,7 @@ int rtw_tkip_encrypt23a(struct rtw_adapter *padapter,
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pattrib->iv_len -
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pattrib->icv_len);
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*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length));/* modified by Amy*/
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*((u32 *)crc) = cpu_to_le32(getcrc32(payload, length)); /* modified by Amy */
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arcfour_init(&mycontext, rc4key, 16);
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arcfour_encrypt(&mycontext, payload, payload, length);
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arcfour_encrypt(&mycontext, payload + length, crc, 4);
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@ -934,12 +934,12 @@ static void mix_column(u8 *in, u8 *out)
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add1b[i] = 0x00;
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}
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swap_halfs[0] = in[2]; /* Swap halfs */
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swap_halfs[0] = in[2]; /* Swap halfs */
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swap_halfs[1] = in[3];
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swap_halfs[2] = in[0];
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swap_halfs[3] = in[1];
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rotl[0] = in[3]; /* Rotate left 8 bits */
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rotl[0] = in[3]; /* Rotate left 8 bits */
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rotl[1] = in[0];
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rotl[2] = in[1];
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rotl[3] = in[2];
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@ -961,7 +961,7 @@ static void mix_column(u8 *in, u8 *out)
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xor_32(in, add1bf7, rotr);
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temp[0] = rotr[0]; /* Rotate right 8 bits */
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temp[0] = rotr[0]; /* Rotate right 8 bits */
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rotr[0] = rotr[1];
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rotr[1] = rotr[2];
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rotr[2] = rotr[3];
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@ -1017,9 +1017,9 @@ static void construct_mic_iv(u8 *mic_iv, int qc_exists, int a4_exists, u8 *mpdu,
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mic_iv[0] = 0x59;
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if (qc_exists && a4_exists)
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mic_iv[1] = mpdu[30] & 0x0f; /* QoS_TC */
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mic_iv[1] = mpdu[30] & 0x0f; /* QoS_TC */
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if (qc_exists && !a4_exists)
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mic_iv[1] = mpdu[24] & 0x0f; /* mute bits 7-4 */
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mic_iv[1] = mpdu[24] & 0x0f; /* mute bits 7-4 */
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if (!qc_exists)
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mic_iv[1] = 0x00;
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for (i = 2; i < 8; i++)
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@ -1039,15 +1039,15 @@ static void construct_mic_header1(u8 *mic_header1, int header_length, u8 *mpdu)
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{
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mic_header1[0] = (u8)((header_length - 2) / 256);
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mic_header1[1] = (u8)((header_length - 2) % 256);
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mic_header1[2] = mpdu[0] & 0xcf; /* Mute CF poll & CF ack bits */
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mic_header1[3] = mpdu[1] & 0xc7; /* Mute retry, more data and pwr mgt bits */
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mic_header1[4] = mpdu[4]; /* A1 */
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mic_header1[2] = mpdu[0] & 0xcf; /* Mute CF poll & CF ack bits */
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mic_header1[3] = mpdu[1] & 0xc7; /* Mute retry, more data and pwr mgt bits */
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mic_header1[4] = mpdu[4]; /* A1 */
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mic_header1[5] = mpdu[5];
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mic_header1[6] = mpdu[6];
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mic_header1[7] = mpdu[7];
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mic_header1[8] = mpdu[8];
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mic_header1[9] = mpdu[9];
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mic_header1[10] = mpdu[10]; /* A2 */
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mic_header1[10] = mpdu[10]; /* A2 */
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mic_header1[11] = mpdu[11];
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mic_header1[12] = mpdu[12];
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mic_header1[13] = mpdu[13];
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@ -1057,7 +1057,7 @@ static void construct_mic_header1(u8 *mic_header1, int header_length, u8 *mpdu)
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}
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/************************************************/
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/* construct_mic_header2() */
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/* construct_mic_header2() */
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/* Builds the last MIC header block from */
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/* header fields. */
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/************************************************/
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@ -1069,7 +1069,7 @@ static void construct_mic_header2(u8 *mic_header2, u8 *mpdu, int a4_exists,
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for (i = 0; i < 16; i++)
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mic_header2[i] = 0x00;
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mic_header2[0] = mpdu[16]; /* A3 */
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mic_header2[0] = mpdu[16]; /* A3 */
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mic_header2[1] = mpdu[17];
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mic_header2[2] = mpdu[18];
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mic_header2[3] = mpdu[19];
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@ -1081,7 +1081,7 @@ static void construct_mic_header2(u8 *mic_header2, u8 *mpdu, int a4_exists,
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if (!qc_exists && a4_exists) {
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for (i = 0; i < 6; i++)
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mic_header2[8+i] = mpdu[24+i]; /* A4 */
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mic_header2[8+i] = mpdu[24+i]; /* A4 */
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}
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if (qc_exists && !a4_exists) {
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@ -1091,7 +1091,7 @@ static void construct_mic_header2(u8 *mic_header2, u8 *mpdu, int a4_exists,
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if (qc_exists && a4_exists) {
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for (i = 0; i < 6; i++)
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mic_header2[8+i] = mpdu[24+i]; /* A4 */
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mic_header2[8+i] = mpdu[24+i]; /* A4 */
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mic_header2[14] = mpdu[30] & 0x0f;
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mic_header2[15] = mpdu[31] & 0x00;
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@ -1114,16 +1114,16 @@ static void construct_ctr_preload(u8 *ctr_preload, int a4_exists, int qc_exists,
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i = 0;
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ctr_preload[0] = 0x01; /* flag */
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ctr_preload[0] = 0x01; /* flag */
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if (qc_exists && a4_exists)
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ctr_preload[1] = mpdu[30] & 0x0f; /* QoC_Control */
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ctr_preload[1] = mpdu[30] & 0x0f; /* QoC_Control */
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if (qc_exists && !a4_exists)
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ctr_preload[1] = mpdu[24] & 0x0f;
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for (i = 2; i < 8; i++)
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ctr_preload[i] = mpdu[i + 8]; /* ctr_preload[2:7] = A2[0:5] = mpdu[10:15] */
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ctr_preload[i] = mpdu[i + 8]; /* ctr_preload[2:7] = A2[0:5] = mpdu[10:15] */
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for (i = 8; i < 14; i++)
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ctr_preload[i] = pn_vector[13 - i]; /* ctr_preload[8:13] = PN[5:0] */
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ctr_preload[i] = pn_vector[13 - i]; /* ctr_preload[8:13] = PN[5:0] */
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ctr_preload[14] = (unsigned char) (c / 256); /* Ctr */
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ctr_preload[15] = (unsigned char) (c % 256);
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@ -1287,11 +1287,11 @@ static int aes_cipher(u8 *key, uint hdrlen, u8 *pframe, uint plen)
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int rtw_aes_encrypt23a(struct rtw_adapter *padapter,
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struct xmit_frame *pxmitframe)
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{ /* exclude ICV */
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{ /* exclude ICV */
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/* Intermediate Buffers */
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int curfragnum, length;
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u32 prwskeylen;
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u8 *pframe, *prwskey; /* *payload,*iv */
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u8 *pframe, *prwskey; /* *payload, *iv */
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u8 hw_hdr_offset = 0;
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struct sta_info *stainfo;
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struct pkt_attrib *pattrib = &pxmitframe->attrib;
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@ -1427,7 +1427,7 @@ static int aes_decipher(u8 *key, uint hdrlen, u8 *pframe, uint plen)
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qc_exists = 0;
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}
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/* now, decrypt pframe with hdrlen offset and plen long */
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/* now, decrypt pframe with hdrlen offset and plen long */
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payload_index = hdrlen + 8; /* 8 is for extiv */
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@ -1577,7 +1577,7 @@ int rtw_aes_decrypt23a(struct rtw_adapter *padapter,
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struct security_priv *psecuritypriv = &padapter->securitypriv;
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struct sk_buff *skb = precvframe->pkt;
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int length;
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u8 *pframe, *prwskey; /* *payload,*iv */
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u8 *pframe, *prwskey; /* *payload, *iv */
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int res = _SUCCESS;
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pframe = skb->data;
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@ -1597,8 +1597,9 @@ int rtw_aes_decrypt23a(struct rtw_adapter *padapter,
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"rtw_aes_decrypt23a: stainfo!= NULL!!!\n");
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if (is_multicast_ether_addr(prxattrib->ra)) {
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/* in concurrent we should use sw decrypt in group key,
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so we remove this message */
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/* in concurrent we should use sw decrypt in
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* group key, so we remove this message
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*/
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if (!psecuritypriv->binstallGrpkey) {
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res = _FAIL;
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DBG_8723A("%s:rx bc/mc packets, but didn't install "
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