From: Michael Welling Date: Sun, 23 Mar 2014 16:16:02 +0000 (-0500) Subject: STAGING: cxt1e1: Fixes comment blocks X-Git-Tag: next-20140428~14^2~277 X-Git-Url: https://git.karo-electronics.de/?a=commitdiff_plain;h=f30629812efe943e6652a82d4773d18a19f694f9;p=karo-tx-linux.git STAGING: cxt1e1: Fixes comment blocks Comment block fixes. Signed-off-by: Michael Welling Signed-off-by: Greg Kroah-Hartman --- diff --git a/drivers/staging/cxt1e1/pmc93x6_eeprom.c b/drivers/staging/cxt1e1/pmc93x6_eeprom.c index a027708994ae..572bd2e8a1e9 100644 --- a/drivers/staging/cxt1e1/pmc93x6_eeprom.c +++ b/drivers/staging/cxt1e1/pmc93x6_eeprom.c @@ -49,10 +49,10 @@ #define EE_LIMIT 128 /* Index to end testing at */ /* Bit Ordering for Instructions -** -** A0, A1, A2, A3, A4, A5, A6, OP0, OP1, SB (lsb, or 1st bit out) -** -*/ + * + * A0, A1, A2, A3, A4, A5, A6, OP0, OP1, SB (lsb, or 1st bit out) + * + */ #define EPROM_EWEN 0x0019 /* Erase/Write enable (reversed) */ #define EPROM_EWDS 0x0001 /* Erase/Write disable (reversed) */ @@ -110,7 +110,8 @@ static u8 mfg_template[sizeof(FLD_TYPE2)] = { static void BuildByteReverse(void) { - long half; /* Used to build by powers to 2 */ + /* Used to build by powers to 2 */ + long half; int i; ByteReverse[0] = 0; @@ -150,12 +151,15 @@ static void eeprom_put_byte(long addr, long data, int count) u_int32_t output; while (--count >= 0) { - output = (data & EPROM_ACTIVE_OUT_BIT) ? 1 : 0; /* Get next data bit */ - output |= EPROM_ENCS; /* Add Chip Select */ + /* Get next data bit */ + output = (data & EPROM_ACTIVE_OUT_BIT) ? 1 : 0; + /* Add Chip Select */ + output |= EPROM_ENCS; data >>= 1; eeprom_delay(); - pci_write_32((u_int32_t *) addr, output); /* Output it */ + /* Output it */ + pci_write_32((u_int32_t *) addr, output); } } @@ -174,10 +178,10 @@ static u_int32_t eeprom_get_byte(long addr) int count; /* Start the Reading of DATA -** -** The first read is a dummy as the data is latched in the -** EPLD and read on the next read access to the EEPROM. -*/ + * + * The first read is a dummy as the data is latched in the + * EPLD and read on the next read access to the EEPROM. + */ input = pci_read_32((u_int32_t *) addr); @@ -187,7 +191,8 @@ static u_int32_t eeprom_get_byte(long addr) eeprom_delay(); input = pci_read_32((u_int32_t *) addr); - data <<= 1; /* Shift data over */ + /* Shift data over */ + data <<= 1; data |= (input & EPROM_ACTIVE_IN_BIT) ? 1 : 0; } @@ -206,8 +211,8 @@ static void disable_pmc_eeprom(long addr) { eeprom_put_byte(addr, EPROM_EWDS, SIZE_ADDR_OP); - pci_write_32((u_int32_t *) addr, 0); /* this removes Chip Select - * from EEPROM */ + /* this removes Chip Select from EEPROM */ + pci_write_32((u_int32_t *) addr, 0); } /*------------------------------------------------------------------------ @@ -221,8 +226,8 @@ static void enable_pmc_eeprom(long addr) { eeprom_put_byte(addr, EPROM_EWEN, SIZE_ADDR_OP); - pci_write_32((u_int32_t *) addr, 0); /* this removes Chip Select - * from EEPROM */ + /* this removes Chip Select from EEPROM */ + pci_write_32((u_int32_t *) addr, 0); } /*------------------------------------------------------------------------ @@ -235,27 +240,35 @@ static void enable_pmc_eeprom(long addr) static u_int32_t pmc_eeprom_read(long addr, long mem_offset) { - u_int32_t data; /* Data from chip */ + /* Data from chip */ + u_int32_t data; if (!ByteReverseBuilt) BuildByteReverse(); - mem_offset = ByteReverse[0x7F & mem_offset]; /* Reverse address */ + /* Reverse address */ + mem_offset = ByteReverse[0x7F & mem_offset]; + /* - * NOTE: The max offset address is 128 or half the reversal table. So the - * LSB is always zero and counts as a built in shift of one bit. So even - * though we need to shift 3 bits to make room for the command, we only - * need to shift twice more because of the built in shift. + * NOTE: The max offset address is 128 or half the reversal table. So + * the LSB is always zero and counts as a built in shift of one bit. + * So even though we need to shift 3 bits to make room for the command, + * we only need to shift twice more because of the built in shift. */ - mem_offset <<= 2; /* Shift for command */ - mem_offset |= EPROM_READ; /* Add command */ - eeprom_put_byte(addr, mem_offset, SIZE_ADDR_OP); /* Output chip address */ + /* Shift for command */ + mem_offset <<= 2; + /* Add command */ + mem_offset |= EPROM_READ; - data = eeprom_get_byte(addr); /* Read chip data */ + /* Output chip address */ + eeprom_put_byte(addr, mem_offset, SIZE_ADDR_OP); - pci_write_32((u_int32_t *) addr, 0); /* Remove Chip Select from - * EEPROM */ + /* Read chip data */ + data = eeprom_get_byte(addr); + + /* Remove Chip Select from EEPROM */ + pci_write_32((u_int32_t *) addr, 0); return (data & 0x000000FF); } @@ -279,38 +292,48 @@ static int pmc_eeprom_write(long addr, long mem_offset, u_int32_t data) if (!ByteReverseBuilt) BuildByteReverse(); - mem_offset = ByteReverse[0x7F & mem_offset]; /* Reverse address */ + /* Reverse address */ + mem_offset = ByteReverse[0x7F & mem_offset]; + /* - * NOTE: The max offset address is 128 or half the reversal table. So the - * LSB is always zero and counts as a built in shift of one bit. So even - * though we need to shift 3 bits to make room for the command, we only - * need to shift twice more because of the built in shift. + * NOTE: The max offset address is 128 or half the reversal table. So + * the LSB is always zero and counts as a built in shift of one bit. + * So even though we need to shift 3 bits to make room for the command, + * we only need to shift twice more because of the built in shift. */ - mem_offset <<= 2; /* Shift for command */ - mem_offset |= EPROM_WRITE; /* Add command */ - eeprom_put_byte(addr, mem_offset, SIZE_ADDR_OP); /* Output chip address */ + /* Shift for command */ + mem_offset <<= 2; + /* Add command */ + mem_offset |= EPROM_WRITE; - data = ByteReverse[0xFF & data]; /* Reverse data */ - eeprom_put_byte(addr, data, NUM_OF_BITS); /* Output chip data */ + /* Output chip address */ + eeprom_put_byte(addr, mem_offset, SIZE_ADDR_OP); - pci_write_32((u_int32_t *) addr, 0); /* Remove Chip Select from - * EEPROM */ + /* Reverse data */ + data = ByteReverse[0xFF & data]; + /* Output chip data */ + eeprom_put_byte(addr, data, NUM_OF_BITS); + + /* Remove Chip Select from EEPROM */ + pci_write_32((u_int32_t *) addr, 0); /* -** Must see Data In at a low state before completing this transaction. -** -** Afterwards, the data bit will return to a high state, ~6 ms, terminating -** the operation. -*/ - pci_write_32((u_int32_t *) addr, EPROM_ENCS); /* Re-enable Chip Select */ - temp = pci_read_32((u_int32_t *) addr); /* discard first read */ + * Must see Data In at a low state before completing this transaction. + * + * Afterwards, the data bit will return to a high state, ~6 ms, terminating + * the operation. + */ + /* Re-enable Chip Select */ + pci_write_32((u_int32_t *) addr, EPROM_ENCS); + /* discard first read */ + temp = pci_read_32((u_int32_t *) addr); temp = pci_read_32((u_int32_t *) addr); if (temp & EPROM_ACTIVE_IN_BIT) { temp = pci_read_32((u_int32_t *) addr); if (temp & EPROM_ACTIVE_IN_BIT) { - pci_write_32((u_int32_t *) addr, 0); /* Remove Chip Select - * from EEPROM */ + /* Remove Chip Select from EEPROM */ + pci_write_32((u_int32_t *) addr, 0); return (1); } } @@ -398,7 +421,8 @@ pmc_eeprom_write_buffer(long addr, long mem_offset, char *dest_ptr, int size) static u_int32_t pmcCalcCrc_T01(void *bufp) { FLD_TYPE2 *buf = bufp; - u_int32_t crc; /* CRC of the structure */ + /* CRC of the structure */ + u_int32_t crc; /* Calc CRC for type and length fields */ sbeCrc((u_int8_t *) & buf->type, @@ -406,7 +430,8 @@ static u_int32_t pmcCalcCrc_T01(void *bufp) (u_int32_t) 0, (u_int32_t *) & crc); #ifdef EEPROM_TYPE_DEBUG - pr_info("sbeCrc: crc 1 calculated as %08x\n", crc); /* RLD DEBUG */ + /* RLD DEBUG */ + pr_info("sbeCrc: crc 1 calculated as %08x\n", crc); #endif return ~crc; } @@ -414,7 +439,8 @@ static u_int32_t pmcCalcCrc_T01(void *bufp) static u_int32_t pmcCalcCrc_T02(void *bufp) { FLD_TYPE2 *buf = bufp; - u_int32_t crc; /* CRC of the structure */ + /* CRC of the structure */ + u_int32_t crc; /* Calc CRC for type and length fields */ sbeCrc((u_int8_t *) & buf->type, @@ -427,7 +453,8 @@ static u_int32_t pmcCalcCrc_T02(void *bufp) (u_int32_t) crc, (u_int32_t *) & crc); #ifdef EEPROM_TYPE_DEBUG - pr_info("sbeCrc: crc 2 calculated as %08x\n", crc); /* RLD DEBUG */ + /* RLD DEBUG */ + pr_info("sbeCrc: crc 2 calculated as %08x\n", crc); #endif return crc; } @@ -444,8 +471,10 @@ static u_int32_t pmcCalcCrc_T02(void *bufp) void pmc_init_seeprom(u_int32_t addr, u_int32_t serialNum) { - PROMFORMAT buffer; /* Memory image of structure */ - u_int32_t crc; /* CRC of structure */ + /* Memory image of structure */ + PROMFORMAT buffer; + /* CRC of structure */ + u_int32_t crc; time_t createTime; createTime = get_seconds(); @@ -477,12 +506,14 @@ char pmc_verify_cksum(void *bufp) { FLD_TYPE1 *buf1 = bufp; FLD_TYPE2 *buf2 = bufp; - u_int32_t crc1, crc2; /* CRC read from EEPROM */ + /* CRC read from EEPROM */ + u_int32_t crc1, crc2; /* Retrieve contents of CRC field */ crc1 = pmcGetBuffValue(&buf1->Crc32[0], sizeof(buf1->Crc32)); #ifdef EEPROM_TYPE_DEBUG - pr_info("EEPROM: chksum 1 reads as %08x\n", crc1); /* RLD DEBUG */ + /* RLD DEBUG */ + pr_info("EEPROM: chksum 1 reads as %08x\n", crc1); #endif if ((buf1->type == PROM_FORMAT_TYPE1) && (pmcCalcCrc_T01((void *)buf1) == crc1)) @@ -490,13 +521,13 @@ char pmc_verify_cksum(void *bufp) crc2 = pmcGetBuffValue(&buf2->Crc32[0], sizeof(buf2->Crc32)); #ifdef EEPROM_TYPE_DEBUG - pr_info("EEPROM: chksum 2 reads as %08x\n", crc2); /* RLD DEBUG */ + /* RLD DEBUG */ + pr_info("EEPROM: chksum 2 reads as %08x\n", crc2); #endif if ((buf2->type == PROM_FORMAT_TYPE2) && (pmcCalcCrc_T02((void *)buf2) == crc2)) return PROM_FORMAT_TYPE2; /* checksum type 2 verified */ - return PROM_FORMAT_Unk; /* failed to validate */ + /* failed to validate */ + return PROM_FORMAT_Unk; } - -/*** End-of-File ***/