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|
/*
* Hermes download helper.
*
* This helper:
* - is capable of writing to the volatile area of the hermes device
* - is currently not capable of writing to non-volatile areas
* - provide helpers to identify and update plugin data
* - is not capable of interpreting a fw image directly. That is up to
* the main card driver.
* - deals with Hermes I devices. It can probably be modified to deal
* with Hermes II devices
*
* Copyright (C) 2007, David Kilroy
*
* Plug data code slightly modified from spectrum_cs driver
* Copyright (C) 2002-2005 Pavel Roskin <proski@gnu.org>
* Portions based on information in wl_lkm_718 Agere driver
* COPYRIGHT (C) 2001-2004 by Agere Systems Inc. All Rights Reserved
*
* The contents of this file are subject to the Mozilla Public License
* Version 1.1 (the "License"); you may not use this file except in
* compliance with the License. You may obtain a copy of the License
* at http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and
* limitations under the License.
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU General Public License version 2 (the "GPL"), in
* which case the provisions of the GPL are applicable instead of the
* above. If you wish to allow the use of your version of this file
* only under the terms of the GPL and not to allow others to use your
* version of this file under the MPL, indicate your decision by
* deleting the provisions above and replace them with the notice and
* other provisions required by the GPL. If you do not delete the
* provisions above, a recipient may use your version of this file
* under either the MPL or the GPL.
*/
#include <linux/module.h>
#include <linux/delay.h>
#include "hermes.h"
#include "hermes_dld.h"
#define PFX "hermes_dld: "
/*
* AUX port access. To unlock the AUX port write the access keys to the
* PARAM0-2 registers, then write HERMES_AUX_ENABLE to the HERMES_CONTROL
* register. Then read it and make sure it's HERMES_AUX_ENABLED.
*/
#define HERMES_AUX_ENABLE 0x8000 /* Enable auxiliary port access */
#define HERMES_AUX_DISABLE 0x4000 /* Disable to auxiliary port access */
#define HERMES_AUX_ENABLED 0xC000 /* Auxiliary port is open */
#define HERMES_AUX_DISABLED 0x0000 /* Auxiliary port is closed */
#define HERMES_AUX_PW0 0xFE01
#define HERMES_AUX_PW1 0xDC23
#define HERMES_AUX_PW2 0xBA45
/* HERMES_CMD_DOWNLD */
#define HERMES_PROGRAM_DISABLE (0x0000 | HERMES_CMD_DOWNLD)
#define HERMES_PROGRAM_ENABLE_VOLATILE (0x0100 | HERMES_CMD_DOWNLD)
#define HERMES_PROGRAM_ENABLE_NON_VOLATILE (0x0200 | HERMES_CMD_DOWNLD)
#define HERMES_PROGRAM_NON_VOLATILE (0x0300 | HERMES_CMD_DOWNLD)
/* End markers used in dblocks */
#define PDI_END 0x00000000 /* End of PDA */
#define BLOCK_END 0xFFFFFFFF /* Last image block */
#define TEXT_END 0x1A /* End of text header */
/*
* PDA == Production Data Area
*
* In principle, the max. size of the PDA is is 4096 words. Currently,
* however, only about 500 bytes of this area are used.
*
* Some USB implementations can't handle sizes in excess of 1016. Note
* that PDA is not actually used in those USB environments, but may be
* retrieved by common code.
*/
#define MAX_PDA_SIZE 1000
/* Limit the amout we try to download in a single shot.
* Size is in bytes.
*/
#define MAX_DL_SIZE 1024
#define LIMIT_PROGRAM_SIZE 0
/*
* The following structures have little-endian fields denoted by
* the leading underscore. Don't access them directly - use inline
* functions defined below.
*/
/*
* The binary image to be downloaded consists of series of data blocks.
* Each block has the following structure.
*/
struct dblock {
__le32 addr; /* adapter address where to write the block */
__le16 len; /* length of the data only, in bytes */
char data[0]; /* data to be written */
} __attribute__ ((packed));
/*
* Plug Data References are located in in the image after the last data
* block. They refer to areas in the adapter memory where the plug data
* items with matching ID should be written.
*/
struct pdr {
__le32 id; /* record ID */
__le32 addr; /* adapter address where to write the data */
__le32 len; /* expected length of the data, in bytes */
char next[0]; /* next PDR starts here */
} __attribute__ ((packed));
/*
* Plug Data Items are located in the EEPROM read from the adapter by
* primary firmware. They refer to the device-specific data that should
* be plugged into the secondary firmware.
*/
struct pdi {
__le16 len; /* length of ID and data, in words */
__le16 id; /* record ID */
char data[0]; /* plug data */
} __attribute__ ((packed));
/*** FW data block access functions ***/
static inline u32
dblock_addr(const struct dblock *blk)
{
return le32_to_cpu(blk->addr);
}
static inline u32
dblock_len(const struct dblock *blk)
{
return le16_to_cpu(blk->len);
}
/*** PDR Access functions ***/
static inline u32
pdr_id(const struct pdr *pdr)
{
return le32_to_cpu(pdr->id);
}
static inline u32
pdr_addr(const struct pdr *pdr)
{
return le32_to_cpu(pdr->addr);
}
static inline u32
pdr_len(const struct pdr *pdr)
{
return le32_to_cpu(pdr->len);
}
/*** PDI Access functions ***/
static inline u32
pdi_id(const struct pdi *pdi)
{
return le16_to_cpu(pdi->id);
}
/* Return length of the data only, in bytes */
static inline u32
pdi_len(const struct pdi *pdi)
{
return 2 * (le16_to_cpu(pdi->len) - 1);
}
/*** Hermes AUX control ***/
static inline void
hermes_aux_setaddr(hermes_t *hw, u32 addr)
{
hermes_write_reg(hw, HERMES_AUXPAGE, (u16) (addr >> 7));
hermes_write_reg(hw, HERMES_AUXOFFSET, (u16) (addr & 0x7F));
}
static inline int
hermes_aux_control(hermes_t *hw, int enabled)
{
int desired_state = enabled ? HERMES_AUX_ENABLED : HERMES_AUX_DISABLED;
int action = enabled ? HERMES_AUX_ENABLE : HERMES_AUX_DISABLE;
int i;
/* Already open? */
if (hermes_read_reg(hw, HERMES_CONTROL) == desired_state)
return 0;
hermes_write_reg(hw, HERMES_PARAM0, HERMES_AUX_PW0);
hermes_write_reg(hw, HERMES_PARAM1, HERMES_AUX_PW1);
hermes_write_reg(hw, HERMES_PARAM2, HERMES_AUX_PW2);
hermes_write_reg(hw, HERMES_CONTROL, action);
for (i = 0; i < 20; i++) {
udelay(10);
if (hermes_read_reg(hw, HERMES_CONTROL) ==
desired_state)
return 0;
}
return -EBUSY;
}
/*** Plug Data Functions ***/
/*
* Scan PDR for the record with the specified RECORD_ID.
* If it's not found, return NULL.
*/
static struct pdr *
hermes_find_pdr(struct pdr *first_pdr, u32 record_id)
{
struct pdr *pdr = first_pdr;
void *end = (void *)first_pdr + MAX_PDA_SIZE;
while (((void *)pdr < end) &&
(pdr_id(pdr) != PDI_END)) {
/*
* PDR area is currently not terminated by PDI_END.
* It's followed by CRC records, which have the type
* field where PDR has length. The type can be 0 or 1.
*/
if (pdr_len(pdr) < 2)
return NULL;
/* If the record ID matches, we are done */
if (pdr_id(pdr) == record_id)
return pdr;
pdr = (struct pdr *) pdr->next;
}
return NULL;
}
/* Scan production data items for a particular entry */
static struct pdi *
hermes_find_pdi(struct pdi *first_pdi, u32 record_id)
{
struct pdi *pdi = first_pdi;
while (pdi_id(pdi) != PDI_END) {
/* If the record ID matches, we are done */
if (pdi_id(pdi) == record_id)
return pdi;
pdi = (struct pdi *) &pdi->data[pdi_len(pdi)];
}
return NULL;
}
/* Process one Plug Data Item - find corresponding PDR and plug it */
static int
hermes_plug_pdi(hermes_t *hw, struct pdr *first_pdr, const struct pdi *pdi)
{
struct pdr *pdr;
/* Find the PDR corresponding to this PDI */
pdr = hermes_find_pdr(first_pdr, pdi_id(pdi));
/* No match is found, safe to ignore */
if (!pdr)
return 0;
/* Lengths of the data in PDI and PDR must match */
if (pdi_len(pdi) != pdr_len(pdr))
return -EINVAL;
/* do the actual plugging */
hermes_aux_setaddr(hw, pdr_addr(pdr));
hermes_write_bytes(hw, HERMES_AUXDATA, pdi->data, pdi_len(pdi));
return 0;
}
/* Read PDA from the adapter */
int hermes_read_pda(hermes_t *hw,
__le16 *pda,
u32 pda_addr,
u16 pda_len,
int use_eeprom) /* can we get this into hw? */
{
int ret;
u16 pda_size;
u16 data_len = pda_len;
__le16 *data = pda;
if (use_eeprom) {
/* PDA of spectrum symbol is in eeprom */
/* Issue command to read EEPROM */
ret = hermes_docmd_wait(hw, HERMES_CMD_READMIF, 0, NULL);
if (ret)
return ret;
} else {
/* wl_lkm does not include PDA size in the PDA area.
* We will pad the information into pda, so other routines
* don't have to be modified */
pda[0] = cpu_to_le16(pda_len - 2);
/* Includes CFG_PROD_DATA but not itself */
pda[1] = cpu_to_le16(0x0800); /* CFG_PROD_DATA */
data_len = pda_len - 4;
data = pda + 2;
}
/* Open auxiliary port */
ret = hermes_aux_control(hw, 1);
printk(KERN_DEBUG PFX "AUX enable returned %d\n", ret);
if (ret)
return ret;
/* read PDA from EEPROM */
hermes_aux_setaddr(hw, pda_addr);
hermes_read_words(hw, HERMES_AUXDATA, data, data_len / 2);
/* Close aux port */
ret = hermes_aux_control(hw, 0);
printk(KERN_DEBUG PFX "AUX disable returned %d\n", ret);
/* Check PDA length */
pda_size = le16_to_cpu(pda[0]);
printk(KERN_DEBUG PFX "Actual PDA length %d, Max allowed %d\n",
pda_size, pda_len);
if (pda_size > pda_len)
return -EINVAL;
return 0;
}
/* Parse PDA and write the records into the adapter
*
* Attempt to write every records that is in the specified pda
* which also has a valid production data record for the firmware.
*/
int hermes_apply_pda(hermes_t *hw,
const char *first_pdr,
const __le16 *pda)
{
int ret;
const struct pdi *pdi;
struct pdr *pdr;
pdr = (struct pdr *) first_pdr;
/* Go through every PDI and plug them into the adapter */
pdi = (const struct pdi *) (pda + 2);
while (pdi_id(pdi) != PDI_END) {
ret = hermes_plug_pdi(hw, pdr, pdi);
if (ret)
return ret;
/* Increment to the next PDI */
pdi = (const struct pdi *) &pdi->data[pdi_len(pdi)];
}
return 0;
}
/* Identify the total number of bytes in all blocks
* including the header data.
*/
size_t
hermes_blocks_length(const char *first_block)
{
const struct dblock *blk = (const struct dblock *) first_block;
int total_len = 0;
int len;
/* Skip all blocks to locate Plug Data References
* (Spectrum CS) */
while (dblock_addr(blk) != BLOCK_END) {
len = dblock_len(blk);
total_len += sizeof(*blk) + len;
blk = (struct dblock *) &blk->data[len];
}
return total_len;
}
/*** Hermes programming ***/
/* About to start programming data (Hermes I)
* offset is the entry point
*
* Spectrum_cs' Symbol fw does not require this
* wl_lkm Agere fw does
* Don't know about intersil
*/
int hermesi_program_init(hermes_t *hw, u32 offset)
{
int err;
/* Disable interrupts?*/
/*hw->inten = 0x0;*/
/*hermes_write_regn(hw, INTEN, 0);*/
/*hermes_set_irqmask(hw, 0);*/
/* Acknowledge any outstanding command */
hermes_write_regn(hw, EVACK, 0xFFFF);
/* Using doicmd_wait rather than docmd_wait */
err = hermes_doicmd_wait(hw,
0x0100 | HERMES_CMD_INIT,
0, 0, 0, NULL);
if (err)
return err;
err = hermes_doicmd_wait(hw,
0x0000 | HERMES_CMD_INIT,
0, 0, 0, NULL);
if (err)
return err;
err = hermes_aux_control(hw, 1);
printk(KERN_DEBUG PFX "AUX enable returned %d\n", err);
if (err)
return err;
printk(KERN_DEBUG PFX "Enabling volatile, EP 0x%08x\n", offset);
err = hermes_doicmd_wait(hw,
HERMES_PROGRAM_ENABLE_VOLATILE,
offset & 0xFFFFu,
offset >> 16,
0,
NULL);
printk(KERN_DEBUG PFX "PROGRAM_ENABLE returned %d\n",
err);
return err;
}
/* Done programming data (Hermes I)
*
* Spectrum_cs' Symbol fw does not require this
* wl_lkm Agere fw does
* Don't know about intersil
*/
int hermesi_program_end(hermes_t *hw)
{
struct hermes_response resp;
int rc = 0;
int err;
rc = hermes_docmd_wait(hw, HERMES_PROGRAM_DISABLE, 0, &resp);
printk(KERN_DEBUG PFX "PROGRAM_DISABLE returned %d, "
"r0 0x%04x, r1 0x%04x, r2 0x%04x\n",
rc, resp.resp0, resp.resp1, resp.resp2);
if ((rc == 0) &&
((resp.status & HERMES_STATUS_CMDCODE) != HERMES_CMD_DOWNLD))
rc = -EIO;
err = hermes_aux_control(hw, 0);
printk(KERN_DEBUG PFX "AUX disable returned %d\n", err);
/* Acknowledge any outstanding command */
hermes_write_regn(hw, EVACK, 0xFFFF);
/* Reinitialise, ignoring return */
(void) hermes_doicmd_wait(hw, 0x0000 | HERMES_CMD_INIT,
0, 0, 0, NULL);
return rc ? rc : err;
}
/* Program the data blocks */
int hermes_program(hermes_t *hw, const char *first_block, const char *end)
{
const struct dblock *blk;
u32 blkaddr;
u32 blklen;
#if LIMIT_PROGRAM_SIZE
u32 addr;
u32 len;
#endif
blk = (const struct dblock *) first_block;
if ((const char *) blk > (end - sizeof(*blk)))
return -EIO;
blkaddr = dblock_addr(blk);
blklen = dblock_len(blk);
while ((blkaddr != BLOCK_END) &&
(((const char *) blk + blklen) <= end)) {
printk(KERN_DEBUG PFX
"Programming block of length %d to address 0x%08x\n",
blklen, blkaddr);
#if !LIMIT_PROGRAM_SIZE
/* wl_lkm driver splits this into writes of 2000 bytes */
hermes_aux_setaddr(hw, blkaddr);
hermes_write_bytes(hw, HERMES_AUXDATA, blk->data,
blklen);
#else
len = (blklen < MAX_DL_SIZE) ? blklen : MAX_DL_SIZE;
addr = blkaddr;
while (addr < (blkaddr + blklen)) {
printk(KERN_DEBUG PFX
"Programming subblock of length %d "
"to address 0x%08x. Data @ %p\n",
len, addr, &blk->data[addr - blkaddr]);
hermes_aux_setaddr(hw, addr);
hermes_write_bytes(hw, HERMES_AUXDATA,
&blk->data[addr - blkaddr],
len);
addr += len;
len = ((blkaddr + blklen - addr) < MAX_DL_SIZE) ?
(blkaddr + blklen - addr) : MAX_DL_SIZE;
}
#endif
blk = (const struct dblock *) &blk->data[blklen];
if ((const char *) blk > (end - sizeof(*blk)))
return -EIO;
blkaddr = dblock_addr(blk);
blklen = dblock_len(blk);
}
return 0;
}
/*** Default plugging data for Hermes I ***/
/* Values from wl_lkm_718/hcf/dhf.c */
#define DEFINE_DEFAULT_PDR(pid, length, data) \
static const struct { \
__le16 len; \
__le16 id; \
u8 val[length]; \
} __attribute__ ((packed)) default_pdr_data_##pid = { \
cpu_to_le16((sizeof(default_pdr_data_##pid)/ \
sizeof(__le16)) - 1), \
cpu_to_le16(pid), \
data \
}
#define DEFAULT_PDR(pid) default_pdr_data_##pid
/* HWIF Compatiblity */
DEFINE_DEFAULT_PDR(0x0005, 10, "\x00\x00\x06\x00\x01\x00\x01\x00\x01\x00");
/* PPPPSign */
DEFINE_DEFAULT_PDR(0x0108, 4, "\x00\x00\x00\x00");
/* PPPPProf */
DEFINE_DEFAULT_PDR(0x0109, 10, "\x00\x00\x00\x00\x03\x00\x00\x00\x00\x00");
/* Antenna diversity */
DEFINE_DEFAULT_PDR(0x0150, 2, "\x00\x3F");
/* Modem VCO band Set-up */
DEFINE_DEFAULT_PDR(0x0160, 28,
"\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00\x00\x00\x00\x00"
"\x00\x00\x00\x00");
/* Modem Rx Gain Table Values */
DEFINE_DEFAULT_PDR(0x0161, 256,
"\x3F\x01\x3F\01\x3F\x01\x3F\x01"
"\x3F\x01\x3F\01\x3F\x01\x3F\x01"
"\x3F\x01\x3F\01\x3F\x01\x3F\x01"
"\x3F\x01\x3F\01\x3F\x01\x3F\x01"
"\x3F\x01\x3E\01\x3E\x01\x3D\x01"
"\x3D\x01\x3C\01\x3C\x01\x3B\x01"
"\x3B\x01\x3A\01\x3A\x01\x39\x01"
"\x39\x01\x38\01\x38\x01\x37\x01"
"\x37\x01\x36\01\x36\x01\x35\x01"
"\x35\x01\x34\01\x34\x01\x33\x01"
"\x33\x01\x32\x01\x32\x01\x31\x01"
"\x31\x01\x30\x01\x30\x01\x7B\x01"
"\x7B\x01\x7A\x01\x7A\x01\x79\x01"
"\x79\x01\x78\x01\x78\x01\x77\x01"
"\x77\x01\x76\x01\x76\x01\x75\x01"
"\x75\x01\x74\x01\x74\x01\x73\x01"
"\x73\x01\x72\x01\x72\x01\x71\x01"
"\x71\x01\x70\x01\x70\x01\x68\x01"
"\x68\x01\x67\x01\x67\x01\x66\x01"
"\x66\x01\x65\x01\x65\x01\x57\x01"
"\x57\x01\x56\x01\x56\x01\x55\x01"
"\x55\x01\x54\x01\x54\x01\x53\x01"
"\x53\x01\x52\x01\x52\x01\x51\x01"
"\x51\x01\x50\x01\x50\x01\x48\x01"
"\x48\x01\x47\x01\x47\x01\x46\x01"
"\x46\x01\x45\x01\x45\x01\x44\x01"
"\x44\x01\x43\x01\x43\x01\x42\x01"
"\x42\x01\x41\x01\x41\x01\x40\x01"
"\x40\x01\x40\x01\x40\x01\x40\x01"
"\x40\x01\x40\x01\x40\x01\x40\x01"
"\x40\x01\x40\x01\x40\x01\x40\x01"
"\x40\x01\x40\x01\x40\x01\x40\x01");
/* Write PDA according to certain rules.
*
* For every production data record, look for a previous setting in
* the pda, and use that.
*
* For certain records, use defaults if they are not found in pda.
*/
int hermes_apply_pda_with_defaults(hermes_t *hw,
const char *first_pdr,
const __le16 *pda)
{
const struct pdr *pdr = (const struct pdr *) first_pdr;
struct pdi *first_pdi = (struct pdi *) &pda[2];
struct pdi *pdi;
struct pdi *default_pdi = NULL;
struct pdi *outdoor_pdi;
void *end = (void *)first_pdr + MAX_PDA_SIZE;
int record_id;
while (((void *)pdr < end) &&
(pdr_id(pdr) != PDI_END)) {
/*
* For spectrum_cs firmwares,
* PDR area is currently not terminated by PDI_END.
* It's followed by CRC records, which have the type
* field where PDR has length. The type can be 0 or 1.
*/
if (pdr_len(pdr) < 2)
break;
record_id = pdr_id(pdr);
pdi = hermes_find_pdi(first_pdi, record_id);
if (pdi)
printk(KERN_DEBUG PFX "Found record 0x%04x at %p\n",
record_id, pdi);
switch (record_id) {
case 0x110: /* Modem REFDAC values */
case 0x120: /* Modem VGDAC values */
outdoor_pdi = hermes_find_pdi(first_pdi, record_id + 1);
default_pdi = NULL;
if (outdoor_pdi) {
pdi = outdoor_pdi;
printk(KERN_DEBUG PFX
"Using outdoor record 0x%04x at %p\n",
record_id + 1, pdi);
}
break;
case 0x5: /* HWIF Compatiblity */
default_pdi = (struct pdi *) &DEFAULT_PDR(0x0005);
break;
case 0x108: /* PPPPSign */
default_pdi = (struct pdi *) &DEFAULT_PDR(0x0108);
break;
case 0x109: /* PPPPProf */
default_pdi = (struct pdi *) &DEFAULT_PDR(0x0109);
break;
case 0x150: /* Antenna diversity */
default_pdi = (struct pdi *) &DEFAULT_PDR(0x0150);
break;
case 0x160: /* Modem VCO band Set-up */
default_pdi = (struct pdi *) &DEFAULT_PDR(0x0160);
break;
case 0x161: /* Modem Rx Gain Table Values */
default_pdi = (struct pdi *) &DEFAULT_PDR(0x0161);
break;
default:
default_pdi = NULL;
break;
}
if (!pdi && default_pdi) {
/* Use default */
pdi = default_pdi;
printk(KERN_DEBUG PFX
"Using default record 0x%04x at %p\n",
record_id, pdi);
}
if (pdi) {
/* Lengths of the data in PDI and PDR must match */
if (pdi_len(pdi) == pdr_len(pdr)) {
/* do the actual plugging */
hermes_aux_setaddr(hw, pdr_addr(pdr));
hermes_write_bytes(hw, HERMES_AUXDATA,
pdi->data, pdi_len(pdi));
}
}
pdr++;
}
return 0;
}
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