Add a function to the device struct to handle config fuses.

Also provide a getconfigfuses implementation for the pif based drivers (pif
and gpio).
This commit is contained in:
Alex Orange 2017-06-14 13:28:07 -06:00
parent 33cd9ba4cd
commit 8a1afe6c91
15 changed files with 176 additions and 109 deletions

View File

@ -411,5 +411,6 @@ const struct device_class device_bsl = {
.getregs = bsl_getregs,
.setregs = bsl_setregs,
.ctl = bsl_ctl,
.poll = bsl_poll
.poll = bsl_poll,
.getconfigfuses = NULL
};

View File

@ -212,6 +212,9 @@ int device_probe_id(device_t dev, const char *force_id)
id.fab = data[3];
id.self = r16le(data + 8);
id.config = data[13] & 0x7f;
if(dev->type->getconfigfuses != NULL) {
id.fuses = dev->type->getconfigfuses(dev);
}
}
printc_dbg("Chip ID data:\n");
@ -221,7 +224,7 @@ int device_probe_id(device_t dev, const char *force_id)
printc_dbg(" fab: %02x\n", id.fab);
printc_dbg(" self: %04x\n", id.self);
printc_dbg(" config: %02x\n", id.config);
//printc_dbg(" fuses: %02x\n", id.fuses);
printc_dbg(" fuses: %02x\n", id.fuses);
//printc_dbg(" activation_key: %08x\n", id.activation_key);
dev->chip = chipinfo_find_by_id(&id);

View File

@ -117,6 +117,9 @@ struct device_class {
/* Wait a little while for the CPU to change state */
device_status_t (*poll)(device_t dev);
/* Get the configuration fuse values */
int (*getconfigfuses)(device_t dev);
};
struct device {

View File

@ -63,7 +63,8 @@ const struct device_class device_rf2500 = {
.getregs = fet_getregs,
.setregs = fet_setregs,
.ctl = fet_ctl,
.poll = fet_poll
.poll = fet_poll,
.getconfigfuses = NULL
};
static device_t fet_open_olimex_iso_mk2(const struct device_args *args)
@ -125,7 +126,8 @@ const struct device_class device_olimex_iso_mk2 = {
.getregs = fet_getregs,
.setregs = fet_setregs,
.ctl = fet_ctl,
.poll = fet_poll
.poll = fet_poll,
.getconfigfuses = NULL
};
static device_t fet_open_olimex(const struct device_args *args)
@ -160,7 +162,8 @@ const struct device_class device_olimex = {
.getregs = fet_getregs,
.setregs = fet_setregs,
.ctl = fet_ctl,
.poll = fet_poll
.poll = fet_poll,
.getconfigfuses = NULL
};
static device_t fet_open_olimex_v1(const struct device_args *args)
@ -230,7 +233,8 @@ const struct device_class device_olimex_iso = {
.getregs = fet_getregs,
.setregs = fet_setregs,
.ctl = fet_ctl,
.poll = fet_poll
.poll = fet_poll,
.getconfigfuses = NULL
};
static device_t fet_open_uif(const struct device_args *args)
@ -260,5 +264,6 @@ const struct device_class device_uif = {
.getregs = fet_getregs,
.setregs = fet_setregs,
.ctl = fet_ctl,
.poll = fet_poll
.poll = fet_poll,
.getconfigfuses = NULL
};

View File

@ -309,5 +309,6 @@ const struct device_class device_ezfet = {
.setregs = fet3_setregs,
.ctl = fet3_ctl,
.poll = fet3_poll,
.erase = fet3_erase
.erase = fet3_erase,
.getconfigfuses = NULL
};

View File

@ -665,5 +665,6 @@ const struct device_class device_flash_bsl = {
.setregs = flash_bsl_setregs,
.ctl = flash_bsl_ctl,
.poll = flash_bsl_poll,
.erase = flash_bsl_erase
.erase = flash_bsl_erase,
.getconfigfuses = NULL
};

View File

@ -472,5 +472,6 @@ const struct device_class device_gdbc = {
.getregs = gdbc_getregs,
.setregs = gdbc_setregs,
.ctl = gdbc_ctl,
.poll = gdbc_poll
.poll = gdbc_poll,
.getconfigfuses = NULL
};

View File

@ -580,5 +580,6 @@ const struct device_class device_goodfet = {
.setregs = goodfet_setregs,
.ctl = goodfet_ctl,
.poll = goodfet_poll,
.erase = goodfet_erase
.erase = goodfet_erase,
.getconfigfuses = NULL
};

View File

@ -60,6 +60,8 @@
/* Instructions for the JTAG Fuse */
#define IR_PREPARE_BLOW 0x44 /* 0x22 */
#define IR_EX_BLOW 0x24 /* 0x24 */
/* Instructions for the Configuration Fuse */
#define IR_CONFIG_FUSES 0x94
/* Bypass instruction */
#define IR_BYPASS 0xFF /* 0xFF */
/* Instructions for the EEM */
@ -203,11 +205,37 @@ static unsigned int jtag_ir_shift(struct jtdev *p, unsigned int instruction)
/* JTAG state = Run-Test/Idle */
}
/* Shifts a given 8-bit byte into the JTAG data register through TDI.
* data : 8 bit data
* return: scanned TDO value
*/
static unsigned int jtag_dr_shift_8(struct jtdev *p, unsigned int data)
{
/* JTAG state = Run-Test/Idle */
jtag_tms_set(p);
jtag_tck_clr(p);
jtag_tck_set(p);
/* JTAG state = Select DR-Scan */
jtag_tms_clr(p);
jtag_tck_clr(p);
jtag_tck_set(p);
/* JTAG state = Capture-DR */
jtag_tck_clr(p);
jtag_tck_set(p);
/* JTAG state = Shift-DR, Shift in TDI (16-bit) */
return jtag_shift(p, 8, data);
/* JTAG state = Run-Test/Idle */
}
/* Shifts a given 16-bit word into the JTAG data register through TDI.
* data : 16 bit data
* return: scanned TDO value
*/
static unsigned int jtag_dr_shift(struct jtdev *p, unsigned int data)
static unsigned int jtag_dr_shift_16(struct jtdev *p, unsigned int data)
{
/* JTAG state = Run-Test/Idle */
jtag_tms_set(p);
@ -242,10 +270,10 @@ static int jtag_set_instruction_fetch(struct jtdev *p)
* timeout after limited attempts
*/
for (loop_counter = 50; loop_counter > 0; loop_counter--) {
if ((jtag_dr_shift(p, 0x0000) & 0x0080) == 0x0080)
if ((jtag_dr_shift_16(p, 0x0000) & 0x0080) == 0x0080)
return 1;
jtag_tclk_clr(p); /* The TCLK pulse befor jtag_dr_shift leads to */
jtag_tclk_clr(p); /* The TCLK pulse befor jtag_dr_shift_16 leads to */
jtag_tclk_set(p); /* problems at MEM_QUICK_READ, it's from SLAU265 */
}
@ -263,17 +291,17 @@ static void jtag_halt_cpu(struct jtdev *p)
/* Set device into JTAG mode + read */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
/* Send JMP $ instruction to keep CPU from changing the state */
jtag_ir_shift(p, IR_DATA_16BIT);
jtag_dr_shift(p, 0x3FFF);
jtag_dr_shift_16(p, 0x3FFF);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* Set JTAG_HALT bit */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2409);
jtag_dr_shift_16(p, 0x2409);
jtag_tclk_set(p);
}
@ -284,7 +312,7 @@ static void jtag_release_cpu(struct jtdev *p)
/* clear the HALT_JTAG bit */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
jtag_ir_shift(p, IR_ADDR_CAPTURE);
jtag_tclk_set(p);
}
@ -313,13 +341,13 @@ static int jtag_verify_psa(struct jtdev *p,
jtag_execute_puc(p);
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
jtag_set_instruction_fetch(p);
jtag_ir_shift(p, IR_DATA_16BIT);
jtag_dr_shift(p, 0x4030);
jtag_dr_shift_16(p, 0x4030);
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_dr_shift(p, start_address-2);
jtag_dr_shift_16(p, start_address-2);
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_tclk_set(p);
@ -327,7 +355,7 @@ static int jtag_verify_psa(struct jtdev *p,
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_ir_shift(p, IR_ADDR_CAPTURE);
jtag_dr_shift(p, 0x0000);
jtag_dr_shift_16(p, 0x0000);
jtag_ir_shift(p, IR_DATA_PSA);
for (index = 0; index < length; index++) {
@ -369,7 +397,7 @@ static int jtag_verify_psa(struct jtdev *p,
/* Read out the PSA value */
jtag_ir_shift(p, IR_SHIFT_OUT_PSA);
psa_value = jtag_dr_shift(p, 0x0000);
psa_value = jtag_dr_shift_16(p, 0x0000);
jtag_tclk_set(p);
return (psa_value == psa_crc) ? 1 : 0;
@ -436,14 +464,14 @@ unsigned int jtag_get_device(struct jtdev *p)
/* Set device into JTAG mode + read */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
/* Wait until CPU is synchronized,
* timeout after a limited number of attempts
*/
jtag_id = jtag_ir_shift(p, IR_CNTRL_SIG_CAPTURE);
for ( loop_counter = 50; loop_counter > 0; loop_counter--) {
if ( (jtag_dr_shift(p, 0x0000) & 0x0200) == 0x0200 ) {
if ( (jtag_dr_shift_16(p, 0x0000) & 0x0200) == 0x0200 ) {
break;
}
}
@ -491,20 +519,20 @@ uint16_t jtag_read_mem(struct jtdev *p,
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
if (format == 16) {
/* set word read */
jtag_dr_shift(p, 0x2409);
jtag_dr_shift_16(p, 0x2409);
} else {
/* set byte read */
jtag_dr_shift(p, 0x2419);
jtag_dr_shift_16(p, 0x2419);
}
/* set address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, address);
jtag_dr_shift_16(p, address);
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* shift out 16 bits */
content = jtag_dr_shift(p, 0x0000);
content = jtag_dr_shift_16(p, 0x0000);
jtag_tclk_set(p); /* is also the first instruction in jtag_release_cpu() */
jtag_release_cpu(p);
if (format == 8)
@ -532,14 +560,14 @@ void jtag_read_mem_quick(struct jtdev *p,
/* set RW to read */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2409);
jtag_dr_shift_16(p, 0x2409);
jtag_ir_shift(p, IR_DATA_QUICK);
for (index = 0; index < length; index++) {
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* shift out the data from the target */
data[index] = jtag_dr_shift(p, 0x0000);
data[index] = jtag_dr_shift_16(p, 0x0000);
}
jtag_tclk_set(p);
@ -562,19 +590,19 @@ void jtag_write_mem(struct jtdev *p,
if (format == 16)
/* Set word write */
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
else
/* Set byte write */
jtag_dr_shift(p, 0x2418);
jtag_dr_shift_16(p, 0x2418);
jtag_ir_shift(p, IR_ADDR_16BIT);
/* Set addr */
jtag_dr_shift(p, address);
jtag_dr_shift_16(p, address);
jtag_ir_shift(p, IR_DATA_TO_ADDR);
/* Shift in 16 bits */
jtag_dr_shift(p, data);
jtag_dr_shift_16(p, data);
jtag_tclk_set(p);
jtag_release_cpu(p);
}
@ -598,12 +626,12 @@ void jtag_write_mem_quick(struct jtdev *p,
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
/* Set RW to write */
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
jtag_ir_shift(p, IR_DATA_QUICK);
for (index = 0; index < length; index++) {
/* Write data */
jtag_dr_shift(p, data[index]);
jtag_dr_shift_16(p, data[index]);
/* Increment PC by 2 */
jtag_tclk_set(p);
@ -625,7 +653,7 @@ int jtag_is_fuse_blown (struct jtdev *p)
/* First trial could be wrong */
for (loop_counter = 3; loop_counter > 0; loop_counter--) {
jtag_ir_shift(p, IR_CNTRL_SIG_CAPTURE);
if (jtag_dr_shift(p, 0xAAAA) == 0x5555)
if (jtag_dr_shift_16(p, 0xAAAA) == 0x5555)
/* Fuse is blown */
return 1;
}
@ -644,8 +672,8 @@ unsigned int jtag_execute_puc(struct jtdev *p)
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
/* Apply and remove reset */
jtag_dr_shift(p, 0x2C01);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2C01);
jtag_dr_shift_16(p, 0x2401);
jtag_tclk_clr(p);
jtag_tclk_set(p);
jtag_tclk_clr(p);
@ -681,8 +709,8 @@ void jtag_release_device(struct jtdev *p, address_t address)
jtag_set_breakpoint(p,-1,0);
/* issue reset */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2C01);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2C01);
jtag_dr_shift_16(p, 0x2401);
break;
default: /* Set target CPU's PC */
jtag_write_reg(p, 0, address);
@ -692,11 +720,11 @@ void jtag_release_device(struct jtdev *p, address_t address)
jtag_set_instruction_fetch(p);
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE);
jtag_dr_shift(p, BREAKREACT + READ);
jtag_dr_shift(p, 0x0000);
jtag_dr_shift_16(p, BREAKREACT + READ);
jtag_dr_shift_16(p, 0x0000);
jtag_ir_shift(p, IR_EMEX_WRITE_CONTROL);
jtag_dr_shift(p, 0x000f);
jtag_dr_shift_16(p, 0x000f);
jtag_ir_shift(p, IR_CNTRL_SIG_RELEASE);
}
@ -746,56 +774,56 @@ void jtag_write_flash(struct jtdev *p,
/* Set RW to write */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
/* FCTL1 register */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x0128);
jtag_dr_shift_16(p, 0x0128);
/* Enable FLASH write */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA540);
jtag_dr_shift_16(p, 0xA540);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* FCTL2 register */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x012A);
jtag_dr_shift_16(p, 0x012A);
/* Select MCLK as source, DIV=1 */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA540);
jtag_dr_shift_16(p, 0xA540);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* FCTL3 register */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x012C);
jtag_dr_shift_16(p, 0x012C);
/* Clear FCTL3 register */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA500);
jtag_dr_shift_16(p, 0xA500);
jtag_tclk_set(p);
jtag_tclk_clr(p);
for (index = 0; index < length; index++) {
/* Set RW to write */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
/* Set address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, address);
jtag_dr_shift_16(p, address);
/* Set data */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, data[index]);
jtag_dr_shift_16(p, data[index]);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* Set RW to read */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2409);
jtag_dr_shift_16(p, 0x2409);
/* provide TCLKs
* min. 33 for F149 and F449
@ -809,15 +837,15 @@ void jtag_write_flash(struct jtdev *p,
/* Set RW to write */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
/* FCTL1 register */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x0128);
jtag_dr_shift_16(p, 0x0128);
/* Disable FLASH write */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA500);
jtag_dr_shift_16(p, 0xA500);
jtag_tclk_set(p);
jtag_release_cpu(p);
@ -853,66 +881,66 @@ void jtag_erase_flash(struct jtdev *p,
/* Set RW to write */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
/* FCTL1 address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x0128);
jtag_dr_shift_16(p, 0x0128);
/* Enable erase mode */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, erase_mode);
jtag_dr_shift_16(p, erase_mode);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* FCTL2 address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x012A);
jtag_dr_shift_16(p, 0x012A);
/* MCLK is source, DIV=1 */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA540);
jtag_dr_shift_16(p, 0xA540);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* FCTL3 address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x012C);
jtag_dr_shift_16(p, 0x012C);
/* Clear FCTL3 */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA500);
jtag_dr_shift_16(p, 0xA500);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* Set erase address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, erase_address);
jtag_dr_shift_16(p, erase_address);
/* Dummy write to start erase */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0x55AA);
jtag_dr_shift_16(p, 0x55AA);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* Set RW to read */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2409);
jtag_dr_shift_16(p, 0x2409);
/* provide TCLKs */
p->f->jtdev_tclk_strobe(p, number_of_strobes);
/* Set RW to write */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2408);
jtag_dr_shift_16(p, 0x2408);
/* FCTL1 address */
jtag_ir_shift(p, IR_ADDR_16BIT);
jtag_dr_shift(p, 0x0128);
jtag_dr_shift_16(p, 0x0128);
/* Disable erase */
jtag_ir_shift(p, IR_DATA_TO_ADDR);
jtag_dr_shift(p, 0xA500);
jtag_dr_shift_16(p, 0xA500);
jtag_tclk_set(p);
jtag_release_cpu(p);
}
@ -927,7 +955,7 @@ address_t jtag_read_reg(struct jtdev *p, int reg)
/* CPU controls RW & BYTE */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x3401);
jtag_dr_shift_16(p, 0x3401);
/* Set CPU into instruction fetch mode */
jtag_set_instruction_fetch(p);
@ -937,7 +965,7 @@ address_t jtag_read_reg(struct jtdev *p, int reg)
/* "jmp $-4" instruction */
/* PC - 4 -> PC */
/* needs 2 clock cycles */
jtag_dr_shift(p, 0x3ffd);
jtag_dr_shift_16(p, 0x3ffd);
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_tclk_set(p);
@ -950,10 +978,10 @@ address_t jtag_read_reg(struct jtdev *p, int reg)
* it's a ROM address, write has no effect, but
* the registers value is placed on the databus
*/
jtag_dr_shift(p, 0x4082 | (((unsigned int)reg << 8) & 0x0f00) );
jtag_dr_shift_16(p, 0x4082 | (((unsigned int)reg << 8) & 0x0f00) );
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_dr_shift(p, 0x01fe);
jtag_dr_shift_16(p, 0x01fe);
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_tclk_set(p);
@ -963,11 +991,11 @@ address_t jtag_read_reg(struct jtdev *p, int reg)
/* Read databus which contains the registers value */
jtag_ir_shift(p, IR_DATA_CAPTURE);
value = jtag_dr_shift(p, 0x0000);
value = jtag_dr_shift_16(p, 0x0000);
/* JTAG controls RW & BYTE */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
jtag_tclk_set(p);
@ -980,7 +1008,7 @@ void jtag_write_reg(struct jtdev *p, int reg, address_t value)
{
/* CPU controls RW & BYTE */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x3401);
jtag_dr_shift_16(p, 0x3401);
/* Set CPU into instruction fetch mode */
jtag_set_instruction_fetch(p);
@ -990,7 +1018,7 @@ void jtag_write_reg(struct jtdev *p, int reg, address_t value)
/* "jmp $-4" instruction */
/* PC - 4 -> PC */
/* needs 4 clock cycles */
jtag_dr_shift(p, 0x3ffd);
jtag_dr_shift_16(p, 0x3ffd);
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_tclk_set(p);
@ -1001,16 +1029,16 @@ void jtag_write_reg(struct jtdev *p, int reg, address_t value)
* PC is advanced 4 bytes by this instruction
* needs 2 clock cycles
*/
jtag_dr_shift(p, 0x4030 | (reg & 0x000f) );
jtag_dr_shift_16(p, 0x4030 | (reg & 0x000f) );
jtag_tclk_set(p);
jtag_tclk_clr(p);
jtag_dr_shift(p, value);
jtag_dr_shift_16(p, value);
jtag_tclk_set(p);
jtag_tclk_clr(p);
/* JTAG controls RW & BYTE */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
jtag_tclk_set(p);
}
@ -1022,7 +1050,7 @@ void jtag_single_step( struct jtdev *p )
/* CPU controls RW & BYTE */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x3401);
jtag_dr_shift_16(p, 0x3401);
/* clock CPU until next instruction fetch cycle */
/* failure after 10 clock cycles */
@ -1031,14 +1059,14 @@ void jtag_single_step( struct jtdev *p )
for (loop_counter = 10; loop_counter > 0; loop_counter--) {
jtag_tclk_clr(p);
jtag_tclk_set(p);
if ((jtag_dr_shift(p, 0x0000) & 0x0080) == 0x0080) {
if ((jtag_dr_shift_16(p, 0x0000) & 0x0080) == 0x0080) {
break;
}
}
/* JTAG controls RW & BYTE */
jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
jtag_dr_shift(p, 0x2401);
jtag_dr_shift_16(p, 0x2401);
if (loop_counter == 0) {
/* timeout reached */
@ -1071,42 +1099,42 @@ unsigned int jtag_set_breakpoint( struct jtdev *p,int bp_num, address_t bp_addr
/* disable all breakpoints by deleting the BREAKREACT
* register */
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE);
jtag_dr_shift(p, BREAKREACT + WRITE);
jtag_dr_shift(p, 0x0000);
jtag_dr_shift_16(p, BREAKREACT + WRITE);
jtag_dr_shift_16(p, 0x0000);
return 1;
}
/* set breakpoint */
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE);
jtag_dr_shift(p, GENCTRL + WRITE);
jtag_dr_shift(p, EEM_EN + CLEAR_STOP + EMU_CLK_EN + EMU_FEAT_EN);
jtag_dr_shift_16(p, GENCTRL + WRITE);
jtag_dr_shift_16(p, EEM_EN + CLEAR_STOP + EMU_CLK_EN + EMU_FEAT_EN);
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE); //repeating may not needed
jtag_dr_shift(p, 8*bp_num + MBTRIGxVAL + WRITE);
jtag_dr_shift(p, bp_addr);
jtag_dr_shift_16(p, 8*bp_num + MBTRIGxVAL + WRITE);
jtag_dr_shift_16(p, bp_addr);
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE); //repeating may not needed
jtag_dr_shift(p, 8*bp_num + MBTRIGxCTL + WRITE);
jtag_dr_shift(p, MAB + TRIG_0 + CMP_EQUAL);
jtag_dr_shift_16(p, 8*bp_num + MBTRIGxCTL + WRITE);
jtag_dr_shift_16(p, MAB + TRIG_0 + CMP_EQUAL);
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE); //repeating may not needed
jtag_dr_shift(p, 8*bp_num + MBTRIGxMSK + WRITE);
jtag_dr_shift(p, NO_MASK);
jtag_dr_shift_16(p, 8*bp_num + MBTRIGxMSK + WRITE);
jtag_dr_shift_16(p, NO_MASK);
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE); //repeating may not needed
jtag_dr_shift(p, 8*bp_num + MBTRIGxCMB + WRITE);
jtag_dr_shift(p, 1<<bp_num);
jtag_dr_shift_16(p, 8*bp_num + MBTRIGxCMB + WRITE);
jtag_dr_shift_16(p, 1<<bp_num);
/* read the actual setting of the BREAKREACT register */
/* while reading a 1 is automatically shifted into LSB */
/* this will be undone and the bit for the new breakpoint set */
/* then the updated value is stored back */
jtag_ir_shift(p, IR_EMEX_DATA_EXCHANGE); //repeating may not needed
breakreact = jtag_dr_shift(p, BREAKREACT + READ);
breakreact += jtag_dr_shift(p, 0x000);
breakreact = jtag_dr_shift_16(p, BREAKREACT + READ);
breakreact += jtag_dr_shift_16(p, 0x000);
breakreact = (breakreact >> 1) | (1 << bp_num);
jtag_dr_shift(p, BREAKREACT + WRITE);
jtag_dr_shift(p, breakreact);
jtag_dr_shift_16(p, BREAKREACT + WRITE);
jtag_dr_shift_16(p, breakreact);
return 1;
}
@ -1115,9 +1143,17 @@ unsigned int jtag_cpu_state( struct jtdev *p )
{
jtag_ir_shift(p, IR_EMEX_READ_CONTROL);
if ((jtag_dr_shift(p, 0x0000) & 0x0080) == 0x0080) {
if ((jtag_dr_shift_16(p, 0x0000) & 0x0080) == 0x0080) {
return 1; /* halted */
} else {
return 0; /* running */
}
}
/*----------------------------------------------------------------------------*/
int jtag_get_config_fuses( struct jtdev *p )
{
jtag_ir_shift(p, IR_CONFIG_FUSES);
return jtag_dr_shift_8(p, 0);
}

View File

@ -115,5 +115,6 @@ void jtag_single_step(struct jtdev *p);
unsigned int jtag_set_breakpoint(struct jtdev *p,
int bp_num, address_t bp_addr);
unsigned int jtag_cpu_state(struct jtdev *p);
int jtag_get_config_fuses(struct jtdev *p);
#endif

View File

@ -472,5 +472,6 @@ const struct device_class device_loadbsl = {
.getregs = loadbsl_getregs,
.setregs = loadbsl_setregs,
.ctl = loadbsl_ctl,
.poll = loadbsl_poll
.poll = loadbsl_poll,
.getconfigfuses = NULL
};

View File

@ -312,6 +312,14 @@ static int pif_erase( device_t dev_base,
return dev->jtag.failed ? -1 : 0;
}
/*----------------------------------------------------------------------------*/
static int pif_getconfigfuses(device_t dev_base)
{
struct pif_device *dev = (struct pif_device *)dev_base;
return jtag_get_config_fuses(&dev->jtag);
}
/*----------------------------------------------------------------------------*/
@ -423,7 +431,8 @@ const struct device_class device_pif = {
.setregs = pif_setregs,
.ctl = pif_ctl,
.poll = pif_poll,
.erase = pif_erase
.erase = pif_erase,
.getconfigfuses = pif_getconfigfuses
};
const struct device_class device_gpio = {
@ -437,5 +446,6 @@ const struct device_class device_gpio = {
.setregs = pif_setregs,
.ctl = pif_ctl,
.poll = pif_poll,
.erase = pif_erase
.erase = pif_erase,
.getconfigfuses = pif_getconfigfuses
};

View File

@ -512,5 +512,6 @@ const struct device_class device_rom_bsl = {
.getregs = rom_bsl_getregs,
.setregs = rom_bsl_setregs,
.ctl = rom_bsl_ctl,
.poll = rom_bsl_poll
.poll = rom_bsl_poll,
.getconfigfuses = NULL
};

View File

@ -817,5 +817,6 @@ const struct device_class device_sim = {
.getregs = sim_getregs,
.setregs = sim_setregs,
.ctl = sim_ctl,
.poll = sim_poll
.poll = sim_poll,
.getconfigfuses = NULL
};

View File

@ -642,5 +642,6 @@ const struct device_class device_tilib = {
.getregs = tilib_getregs,
.setregs = tilib_setregs,
.ctl = tilib_ctl,
.poll = tilib_poll
.poll = tilib_poll,
.getconfigfuses = NULL
};