Revision 18f5ed365d3f188a91149d528c853000330a4a58 authored by Takashi Sakamoto on 05 August 2015, 00:21:05 UTC, committed by Takashi Iwai on 05 August 2015, 05:52:39 UTC
Fireworks uses TSB43CB43(IceLynx-Micro) as its IEC 61883-1/6 interface. This chip includes ARM7 core, and loads and runs program. The firmware is stored in on-board memory and loaded every powering-on from it. Echo Audio ships several versions of firmwares for each model. These firmwares have each quirk and the quirk changes a sequence of packets. As long as I investigated, AudioFire2/AudioFire4/AudioFirePre8 have a quirk to transfer a first packet with 0x02 in its dbc field. This causes ALSA Fireworks driver to detect discontinuity. In this case, firmware version 5.7.0, 5.7.3 and 5.8.0 are used. Payload CIP CIP quadlets header1 header2 02 00050002 90ffffff <- 42 0005000a 90013000 42 00050012 90014400 42 0005001a 90015800 02 0005001a 90ffffff 42 00050022 90019000 42 0005002a 9001a400 42 00050032 9001b800 02 00050032 90ffffff 42 0005003a 9001d000 42 00050042 9001e400 42 0005004a 9001f800 02 0005004a 90ffffff (AudioFire2 with firmware version 5.7.) $ dmesg snd-fireworks fw1.0: Detect discontinuity of CIP: 00 02 These models, AudioFire8 (since Jul 2009 ) and Gibson Robot Interface Pack series uses the same ARM binary as their firmware. Thus, this quirk may be observed among them. This commit adds a new member for AMDTP structure. This member represents the value of dbc field in a first AMDTP packet. Drivers can set it with a preferred value according to model's quirk. Tested-by: Johannes Oertei <johannes.oertel@uni-due.de> Signed-off-by: Takashi Sakamoto <o-takashi@sakamocchi.jp> Cc: <stable@vger.kernel.org> Signed-off-by: Takashi Iwai <tiwai@suse.de>
1 parent c85523d
err_titan.c
/*
* linux/arch/alpha/kernel/err_titan.c
*
* Copyright (C) 2000 Jeff Wiedemeier (Compaq Computer Corporation)
*
* Error handling code supporting TITAN systems
*/
#include <linux/init.h>
#include <linux/pci.h>
#include <linux/sched.h>
#include <asm/io.h>
#include <asm/core_titan.h>
#include <asm/hwrpb.h>
#include <asm/smp.h>
#include <asm/err_common.h>
#include <asm/err_ev6.h>
#include <asm/irq_regs.h>
#include "err_impl.h"
#include "proto.h"
static int
titan_parse_c_misc(u64 c_misc, int print)
{
#ifdef CONFIG_VERBOSE_MCHECK
char *src;
int nxs = 0;
#endif
int status = MCHK_DISPOSITION_REPORT;
#define TITAN__CCHIP_MISC__NXM (1UL << 28)
#define TITAN__CCHIP_MISC__NXS__S (29)
#define TITAN__CCHIP_MISC__NXS__M (0x7)
if (!(c_misc & TITAN__CCHIP_MISC__NXM))
return MCHK_DISPOSITION_UNKNOWN_ERROR;
#ifdef CONFIG_VERBOSE_MCHECK
if (!print)
return status;
nxs = EXTRACT(c_misc, TITAN__CCHIP_MISC__NXS);
switch(nxs) {
case 0: /* CPU 0 */
case 1: /* CPU 1 */
case 2: /* CPU 2 */
case 3: /* CPU 3 */
src = "CPU";
/* num is already the CPU number */
break;
case 4: /* Pchip 0 */
case 5: /* Pchip 1 */
src = "Pchip";
nxs -= 4;
break;
default:/* reserved */
src = "Unknown, NXS =";
/* leave num untouched */
break;
}
printk("%s Non-existent memory access from: %s %d\n",
err_print_prefix, src, nxs);
#endif /* CONFIG_VERBOSE_MCHECK */
return status;
}
static int
titan_parse_p_serror(int which, u64 serror, int print)
{
int status = MCHK_DISPOSITION_REPORT;
#ifdef CONFIG_VERBOSE_MCHECK
static const char * const serror_src[] = {
"GPCI", "APCI", "AGP HP", "AGP LP"
};
static const char * const serror_cmd[] = {
"DMA Read", "DMA RMW", "SGTE Read", "Reserved"
};
#endif /* CONFIG_VERBOSE_MCHECK */
#define TITAN__PCHIP_SERROR__LOST_UECC (1UL << 0)
#define TITAN__PCHIP_SERROR__UECC (1UL << 1)
#define TITAN__PCHIP_SERROR__CRE (1UL << 2)
#define TITAN__PCHIP_SERROR__NXIO (1UL << 3)
#define TITAN__PCHIP_SERROR__LOST_CRE (1UL << 4)
#define TITAN__PCHIP_SERROR__ECCMASK (TITAN__PCHIP_SERROR__UECC | \
TITAN__PCHIP_SERROR__CRE)
#define TITAN__PCHIP_SERROR__ERRMASK (TITAN__PCHIP_SERROR__LOST_UECC | \
TITAN__PCHIP_SERROR__UECC | \
TITAN__PCHIP_SERROR__CRE | \
TITAN__PCHIP_SERROR__NXIO | \
TITAN__PCHIP_SERROR__LOST_CRE)
#define TITAN__PCHIP_SERROR__SRC__S (52)
#define TITAN__PCHIP_SERROR__SRC__M (0x3)
#define TITAN__PCHIP_SERROR__CMD__S (54)
#define TITAN__PCHIP_SERROR__CMD__M (0x3)
#define TITAN__PCHIP_SERROR__SYN__S (56)
#define TITAN__PCHIP_SERROR__SYN__M (0xff)
#define TITAN__PCHIP_SERROR__ADDR__S (15)
#define TITAN__PCHIP_SERROR__ADDR__M (0xffffffffUL)
if (!(serror & TITAN__PCHIP_SERROR__ERRMASK))
return MCHK_DISPOSITION_UNKNOWN_ERROR;
#ifdef CONFIG_VERBOSE_MCHECK
if (!print)
return status;
printk("%s PChip %d SERROR: %016llx\n",
err_print_prefix, which, serror);
if (serror & TITAN__PCHIP_SERROR__ECCMASK) {
printk("%s %sorrectable ECC Error:\n"
" Source: %-6s Command: %-8s Syndrome: 0x%08x\n"
" Address: 0x%llx\n",
err_print_prefix,
(serror & TITAN__PCHIP_SERROR__UECC) ? "Unc" : "C",
serror_src[EXTRACT(serror, TITAN__PCHIP_SERROR__SRC)],
serror_cmd[EXTRACT(serror, TITAN__PCHIP_SERROR__CMD)],
(unsigned)EXTRACT(serror, TITAN__PCHIP_SERROR__SYN),
EXTRACT(serror, TITAN__PCHIP_SERROR__ADDR));
}
if (serror & TITAN__PCHIP_SERROR__NXIO)
printk("%s Non Existent I/O Error\n", err_print_prefix);
if (serror & TITAN__PCHIP_SERROR__LOST_UECC)
printk("%s Lost Uncorrectable ECC Error\n",
err_print_prefix);
if (serror & TITAN__PCHIP_SERROR__LOST_CRE)
printk("%s Lost Correctable ECC Error\n", err_print_prefix);
#endif /* CONFIG_VERBOSE_MCHECK */
return status;
}
static int
titan_parse_p_perror(int which, int port, u64 perror, int print)
{
int cmd;
unsigned long addr;
int status = MCHK_DISPOSITION_REPORT;
#ifdef CONFIG_VERBOSE_MCHECK
static const char * const perror_cmd[] = {
"Interrupt Acknowledge", "Special Cycle",
"I/O Read", "I/O Write",
"Reserved", "Reserved",
"Memory Read", "Memory Write",
"Reserved", "Reserved",
"Configuration Read", "Configuration Write",
"Memory Read Multiple", "Dual Address Cycle",
"Memory Read Line", "Memory Write and Invalidate"
};
#endif /* CONFIG_VERBOSE_MCHECK */
#define TITAN__PCHIP_PERROR__LOST (1UL << 0)
#define TITAN__PCHIP_PERROR__SERR (1UL << 1)
#define TITAN__PCHIP_PERROR__PERR (1UL << 2)
#define TITAN__PCHIP_PERROR__DCRTO (1UL << 3)
#define TITAN__PCHIP_PERROR__SGE (1UL << 4)
#define TITAN__PCHIP_PERROR__APE (1UL << 5)
#define TITAN__PCHIP_PERROR__TA (1UL << 6)
#define TITAN__PCHIP_PERROR__DPE (1UL << 7)
#define TITAN__PCHIP_PERROR__NDS (1UL << 8)
#define TITAN__PCHIP_PERROR__IPTPR (1UL << 9)
#define TITAN__PCHIP_PERROR__IPTPW (1UL << 10)
#define TITAN__PCHIP_PERROR__ERRMASK (TITAN__PCHIP_PERROR__LOST | \
TITAN__PCHIP_PERROR__SERR | \
TITAN__PCHIP_PERROR__PERR | \
TITAN__PCHIP_PERROR__DCRTO | \
TITAN__PCHIP_PERROR__SGE | \
TITAN__PCHIP_PERROR__APE | \
TITAN__PCHIP_PERROR__TA | \
TITAN__PCHIP_PERROR__DPE | \
TITAN__PCHIP_PERROR__NDS | \
TITAN__PCHIP_PERROR__IPTPR | \
TITAN__PCHIP_PERROR__IPTPW)
#define TITAN__PCHIP_PERROR__DAC (1UL << 47)
#define TITAN__PCHIP_PERROR__MWIN (1UL << 48)
#define TITAN__PCHIP_PERROR__CMD__S (52)
#define TITAN__PCHIP_PERROR__CMD__M (0x0f)
#define TITAN__PCHIP_PERROR__ADDR__S (14)
#define TITAN__PCHIP_PERROR__ADDR__M (0x1fffffffful)
if (!(perror & TITAN__PCHIP_PERROR__ERRMASK))
return MCHK_DISPOSITION_UNKNOWN_ERROR;
cmd = EXTRACT(perror, TITAN__PCHIP_PERROR__CMD);
addr = EXTRACT(perror, TITAN__PCHIP_PERROR__ADDR) << 2;
/*
* Initializing the BIOS on a video card on a bus without
* a south bridge (subtractive decode agent) can result in
* master aborts as the BIOS probes the capabilities of the
* card. XFree86 does such initialization. If the error
* is a master abort (No DevSel as PCI Master) and the command
* is an I/O read or write below the address where we start
* assigning PCI I/O spaces (SRM uses 0x1000), then mark the
* error as dismissable so starting XFree86 doesn't result
* in a series of uncorrectable errors being reported. Also
* dismiss master aborts to VGA frame buffer space
* (0xA0000 - 0xC0000) and legacy BIOS space (0xC0000 - 0x100000)
* for the same reason.
*
* Also mark the error dismissible if it looks like the right
* error but only the Lost bit is set. Since the BIOS initialization
* can cause multiple master aborts and the error interrupt can
* be handled on a different CPU than the BIOS code is run on,
* it is possible for a second master abort to occur between the
* time the PALcode reads PERROR and the time it writes PERROR
* to acknowledge the error. If this timing happens, a second
* error will be signalled after the first, and if no additional
* errors occur, will look like a Lost error with no additional
* errors on the same transaction as the previous error.
*/
if (((perror & TITAN__PCHIP_PERROR__NDS) ||
((perror & TITAN__PCHIP_PERROR__ERRMASK) ==
TITAN__PCHIP_PERROR__LOST)) &&
((((cmd & 0xE) == 2) && (addr < 0x1000)) ||
(((cmd & 0xE) == 6) && (addr >= 0xA0000) && (addr < 0x100000)))) {
status = MCHK_DISPOSITION_DISMISS;
}
#ifdef CONFIG_VERBOSE_MCHECK
if (!print)
return status;
printk("%s PChip %d %cPERROR: %016llx\n",
err_print_prefix, which,
port ? 'A' : 'G', perror);
if (perror & TITAN__PCHIP_PERROR__IPTPW)
printk("%s Invalid Peer-to-Peer Write\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__IPTPR)
printk("%s Invalid Peer-to-Peer Read\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__NDS)
printk("%s No DEVSEL as PCI Master [Master Abort]\n",
err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__DPE)
printk("%s Data Parity Error\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__TA)
printk("%s Target Abort\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__APE)
printk("%s Address Parity Error\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__SGE)
printk("%s Scatter-Gather Error, Invalid PTE\n",
err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__DCRTO)
printk("%s Delayed-Completion Retry Timeout\n",
err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__PERR)
printk("%s PERR Asserted\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__SERR)
printk("%s SERR Asserted\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__LOST)
printk("%s Lost Error\n", err_print_prefix);
printk("%s Command: 0x%x - %s\n"
" Address: 0x%lx\n",
err_print_prefix,
cmd, perror_cmd[cmd],
addr);
if (perror & TITAN__PCHIP_PERROR__DAC)
printk("%s Dual Address Cycle\n", err_print_prefix);
if (perror & TITAN__PCHIP_PERROR__MWIN)
printk("%s Hit in Monster Window\n", err_print_prefix);
#endif /* CONFIG_VERBOSE_MCHECK */
return status;
}
static int
titan_parse_p_agperror(int which, u64 agperror, int print)
{
int status = MCHK_DISPOSITION_REPORT;
#ifdef CONFIG_VERBOSE_MCHECK
int cmd, len;
unsigned long addr;
static const char * const agperror_cmd[] = {
"Read (low-priority)", "Read (high-priority)",
"Write (low-priority)", "Write (high-priority)",
"Reserved", "Reserved",
"Flush", "Fence"
};
#endif /* CONFIG_VERBOSE_MCHECK */
#define TITAN__PCHIP_AGPERROR__LOST (1UL << 0)
#define TITAN__PCHIP_AGPERROR__LPQFULL (1UL << 1)
#define TITAN__PCHIP_AGPERROR__HPQFULL (1UL << 2)
#define TITAN__PCHIP_AGPERROR__RESCMD (1UL << 3)
#define TITAN__PCHIP_AGPERROR__IPTE (1UL << 4)
#define TITAN__PCHIP_AGPERROR__PTP (1UL << 5)
#define TITAN__PCHIP_AGPERROR__NOWINDOW (1UL << 6)
#define TITAN__PCHIP_AGPERROR__ERRMASK (TITAN__PCHIP_AGPERROR__LOST | \
TITAN__PCHIP_AGPERROR__LPQFULL | \
TITAN__PCHIP_AGPERROR__HPQFULL | \
TITAN__PCHIP_AGPERROR__RESCMD | \
TITAN__PCHIP_AGPERROR__IPTE | \
TITAN__PCHIP_AGPERROR__PTP | \
TITAN__PCHIP_AGPERROR__NOWINDOW)
#define TITAN__PCHIP_AGPERROR__DAC (1UL << 48)
#define TITAN__PCHIP_AGPERROR__MWIN (1UL << 49)
#define TITAN__PCHIP_AGPERROR__FENCE (1UL << 59)
#define TITAN__PCHIP_AGPERROR__CMD__S (50)
#define TITAN__PCHIP_AGPERROR__CMD__M (0x07)
#define TITAN__PCHIP_AGPERROR__ADDR__S (15)
#define TITAN__PCHIP_AGPERROR__ADDR__M (0xffffffffUL)
#define TITAN__PCHIP_AGPERROR__LEN__S (53)
#define TITAN__PCHIP_AGPERROR__LEN__M (0x3f)
if (!(agperror & TITAN__PCHIP_AGPERROR__ERRMASK))
return MCHK_DISPOSITION_UNKNOWN_ERROR;
#ifdef CONFIG_VERBOSE_MCHECK
if (!print)
return status;
cmd = EXTRACT(agperror, TITAN__PCHIP_AGPERROR__CMD);
addr = EXTRACT(agperror, TITAN__PCHIP_AGPERROR__ADDR) << 3;
len = EXTRACT(agperror, TITAN__PCHIP_AGPERROR__LEN);
printk("%s PChip %d AGPERROR: %016llx\n", err_print_prefix,
which, agperror);
if (agperror & TITAN__PCHIP_AGPERROR__NOWINDOW)
printk("%s No Window\n", err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__PTP)
printk("%s Peer-to-Peer set\n", err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__IPTE)
printk("%s Invalid PTE\n", err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__RESCMD)
printk("%s Reserved Command\n", err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__HPQFULL)
printk("%s HP Transaction Received while Queue Full\n",
err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__LPQFULL)
printk("%s LP Transaction Received while Queue Full\n",
err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__LOST)
printk("%s Lost Error\n", err_print_prefix);
printk("%s Command: 0x%x - %s, %d Quadwords%s\n"
" Address: 0x%lx\n",
err_print_prefix, cmd, agperror_cmd[cmd], len,
(agperror & TITAN__PCHIP_AGPERROR__FENCE) ? ", FENCE" : "",
addr);
if (agperror & TITAN__PCHIP_AGPERROR__DAC)
printk("%s Dual Address Cycle\n", err_print_prefix);
if (agperror & TITAN__PCHIP_AGPERROR__MWIN)
printk("%s Hit in Monster Window\n", err_print_prefix);
#endif /* CONFIG_VERBOSE_MCHECK */
return status;
}
static int
titan_parse_p_chip(int which, u64 serror, u64 gperror,
u64 aperror, u64 agperror, int print)
{
int status = MCHK_DISPOSITION_UNKNOWN_ERROR;
status |= titan_parse_p_serror(which, serror, print);
status |= titan_parse_p_perror(which, 0, gperror, print);
status |= titan_parse_p_perror(which, 1, aperror, print);
status |= titan_parse_p_agperror(which, agperror, print);
return status;
}
int
titan_process_logout_frame(struct el_common *mchk_header, int print)
{
struct el_TITAN_sysdata_mcheck *tmchk =
(struct el_TITAN_sysdata_mcheck *)
((unsigned long)mchk_header + mchk_header->sys_offset);
int status = MCHK_DISPOSITION_UNKNOWN_ERROR;
status |= titan_parse_c_misc(tmchk->c_misc, print);
status |= titan_parse_p_chip(0, tmchk->p0_serror, tmchk->p0_gperror,
tmchk->p0_aperror, tmchk->p0_agperror,
print);
status |= titan_parse_p_chip(1, tmchk->p1_serror, tmchk->p1_gperror,
tmchk->p1_aperror, tmchk->p1_agperror,
print);
return status;
}
void
titan_machine_check(unsigned long vector, unsigned long la_ptr)
{
struct el_common *mchk_header = (struct el_common *)la_ptr;
struct el_TITAN_sysdata_mcheck *tmchk =
(struct el_TITAN_sysdata_mcheck *)
((unsigned long)mchk_header + mchk_header->sys_offset);
u64 irqmask;
/*
* Mask of Titan interrupt sources which are reported as machine checks
*
* 63 - CChip Error
* 62 - PChip 0 H_Error
* 61 - PChip 1 H_Error
* 60 - PChip 0 C_Error
* 59 - PChip 1 C_Error
*/
#define TITAN_MCHECK_INTERRUPT_MASK 0xF800000000000000UL
/*
* Sync the processor
*/
mb();
draina();
/*
* Only handle system errors here
*/
if ((vector != SCB_Q_SYSMCHK) && (vector != SCB_Q_SYSERR)) {
ev6_machine_check(vector, la_ptr);
return;
}
/*
* It's a system error, handle it here
*
* The PALcode has already cleared the error, so just parse it
*/
/*
* Parse the logout frame without printing first. If the only error(s)
* found are classified as "dismissable", then just dismiss them and
* don't print any message
*/
if (titan_process_logout_frame(mchk_header, 0) !=
MCHK_DISPOSITION_DISMISS) {
char *saved_err_prefix = err_print_prefix;
err_print_prefix = KERN_CRIT;
/*
* Either a nondismissable error was detected or no
* recognized error was detected in the logout frame
* -- report the error in either case
*/
printk("%s"
"*System %s Error (Vector 0x%x) reported on CPU %d:\n",
err_print_prefix,
(vector == SCB_Q_SYSERR)?"Correctable":"Uncorrectable",
(unsigned int)vector, (int)smp_processor_id());
#ifdef CONFIG_VERBOSE_MCHECK
titan_process_logout_frame(mchk_header, alpha_verbose_mcheck);
if (alpha_verbose_mcheck)
dik_show_regs(get_irq_regs(), NULL);
#endif /* CONFIG_VERBOSE_MCHECK */
err_print_prefix = saved_err_prefix;
/*
* Convert any pending interrupts which report as system
* machine checks to interrupts
*/
irqmask = tmchk->c_dirx & TITAN_MCHECK_INTERRUPT_MASK;
titan_dispatch_irqs(irqmask);
}
/*
* Release the logout frame
*/
wrmces(0x7);
mb();
}
/*
* Subpacket Annotations
*/
static char *el_titan_pchip0_extended_annotation[] = {
"Subpacket Header", "P0_SCTL", "P0_SERREN",
"P0_APCTL", "P0_APERREN", "P0_AGPERREN",
"P0_ASPRST", "P0_AWSBA0", "P0_AWSBA1",
"P0_AWSBA2", "P0_AWSBA3", "P0_AWSM0",
"P0_AWSM1", "P0_AWSM2", "P0_AWSM3",
"P0_ATBA0", "P0_ATBA1", "P0_ATBA2",
"P0_ATBA3", "P0_GPCTL", "P0_GPERREN",
"P0_GSPRST", "P0_GWSBA0", "P0_GWSBA1",
"P0_GWSBA2", "P0_GWSBA3", "P0_GWSM0",
"P0_GWSM1", "P0_GWSM2", "P0_GWSM3",
"P0_GTBA0", "P0_GTBA1", "P0_GTBA2",
"P0_GTBA3", NULL
};
static char *el_titan_pchip1_extended_annotation[] = {
"Subpacket Header", "P1_SCTL", "P1_SERREN",
"P1_APCTL", "P1_APERREN", "P1_AGPERREN",
"P1_ASPRST", "P1_AWSBA0", "P1_AWSBA1",
"P1_AWSBA2", "P1_AWSBA3", "P1_AWSM0",
"P1_AWSM1", "P1_AWSM2", "P1_AWSM3",
"P1_ATBA0", "P1_ATBA1", "P1_ATBA2",
"P1_ATBA3", "P1_GPCTL", "P1_GPERREN",
"P1_GSPRST", "P1_GWSBA0", "P1_GWSBA1",
"P1_GWSBA2", "P1_GWSBA3", "P1_GWSM0",
"P1_GWSM1", "P1_GWSM2", "P1_GWSM3",
"P1_GTBA0", "P1_GTBA1", "P1_GTBA2",
"P1_GTBA3", NULL
};
static char *el_titan_memory_extended_annotation[] = {
"Subpacket Header", "AAR0", "AAR1",
"AAR2", "AAR3", "P0_SCTL",
"P0_GPCTL", "P0_APCTL", "P1_SCTL",
"P1_GPCTL", "P1_SCTL", NULL
};
static struct el_subpacket_annotation el_titan_annotations[] = {
SUBPACKET_ANNOTATION(EL_CLASS__REGATTA_FAMILY,
EL_TYPE__REGATTA__TITAN_PCHIP0_EXTENDED,
1,
"Titan PChip 0 Extended Frame",
el_titan_pchip0_extended_annotation),
SUBPACKET_ANNOTATION(EL_CLASS__REGATTA_FAMILY,
EL_TYPE__REGATTA__TITAN_PCHIP1_EXTENDED,
1,
"Titan PChip 1 Extended Frame",
el_titan_pchip1_extended_annotation),
SUBPACKET_ANNOTATION(EL_CLASS__REGATTA_FAMILY,
EL_TYPE__REGATTA__TITAN_MEMORY_EXTENDED,
1,
"Titan Memory Extended Frame",
el_titan_memory_extended_annotation),
SUBPACKET_ANNOTATION(EL_CLASS__REGATTA_FAMILY,
EL_TYPE__TERMINATION__TERMINATION,
1,
"Termination Subpacket",
NULL)
};
static struct el_subpacket *
el_process_regatta_subpacket(struct el_subpacket *header)
{
if (header->class != EL_CLASS__REGATTA_FAMILY) {
printk("%s ** Unexpected header CLASS %d TYPE %d, aborting\n",
err_print_prefix,
header->class, header->type);
return NULL;
}
switch(header->type) {
case EL_TYPE__REGATTA__PROCESSOR_ERROR_FRAME:
case EL_TYPE__REGATTA__SYSTEM_ERROR_FRAME:
case EL_TYPE__REGATTA__ENVIRONMENTAL_FRAME:
case EL_TYPE__REGATTA__PROCESSOR_DBL_ERROR_HALT:
case EL_TYPE__REGATTA__SYSTEM_DBL_ERROR_HALT:
printk("%s ** Occurred on CPU %d:\n",
err_print_prefix,
(int)header->by_type.regatta_frame.cpuid);
privateer_process_logout_frame((struct el_common *)
header->by_type.regatta_frame.data_start, 1);
break;
default:
printk("%s ** REGATTA TYPE %d SUBPACKET\n",
err_print_prefix, header->type);
el_annotate_subpacket(header);
break;
}
return (struct el_subpacket *)((unsigned long)header + header->length);
}
static struct el_subpacket_handler titan_subpacket_handler =
SUBPACKET_HANDLER_INIT(EL_CLASS__REGATTA_FAMILY,
el_process_regatta_subpacket);
void __init
titan_register_error_handlers(void)
{
size_t i;
for (i = 0; i < ARRAY_SIZE (el_titan_annotations); i++)
cdl_register_subpacket_annotation(&el_titan_annotations[i]);
cdl_register_subpacket_handler(&titan_subpacket_handler);
ev6_register_error_handlers();
}
/*
* Privateer
*/
static int
privateer_process_680_frame(struct el_common *mchk_header, int print)
{
int status = MCHK_DISPOSITION_UNKNOWN_ERROR;
#ifdef CONFIG_VERBOSE_MCHECK
struct el_PRIVATEER_envdata_mcheck *emchk =
(struct el_PRIVATEER_envdata_mcheck *)
((unsigned long)mchk_header + mchk_header->sys_offset);
/* TODO - categorize errors, for now, no error */
if (!print)
return status;
/* TODO - decode instead of just dumping... */
printk("%s Summary Flags: %016llx\n"
" CChip DIRx: %016llx\n"
" System Management IR: %016llx\n"
" CPU IR: %016llx\n"
" Power Supply IR: %016llx\n"
" LM78 Fault Status: %016llx\n"
" System Doors: %016llx\n"
" Temperature Warning: %016llx\n"
" Fan Control: %016llx\n"
" Fatal Power Down Code: %016llx\n",
err_print_prefix,
emchk->summary,
emchk->c_dirx,
emchk->smir,
emchk->cpuir,
emchk->psir,
emchk->fault,
emchk->sys_doors,
emchk->temp_warn,
emchk->fan_ctrl,
emchk->code);
#endif /* CONFIG_VERBOSE_MCHECK */
return status;
}
int
privateer_process_logout_frame(struct el_common *mchk_header, int print)
{
struct el_common_EV6_mcheck *ev6mchk =
(struct el_common_EV6_mcheck *)mchk_header;
int status = MCHK_DISPOSITION_UNKNOWN_ERROR;
/*
* Machine check codes
*/
#define PRIVATEER_MCHK__CORR_ECC 0x86 /* 630 */
#define PRIVATEER_MCHK__DC_TAG_PERR 0x9E /* 630 */
#define PRIVATEER_MCHK__PAL_BUGCHECK 0x8E /* 670 */
#define PRIVATEER_MCHK__OS_BUGCHECK 0x90 /* 670 */
#define PRIVATEER_MCHK__PROC_HRD_ERR 0x98 /* 670 */
#define PRIVATEER_MCHK__ISTREAM_CMOV_PRX 0xA0 /* 670 */
#define PRIVATEER_MCHK__ISTREAM_CMOV_FLT 0xA2 /* 670 */
#define PRIVATEER_MCHK__SYS_HRD_ERR 0x202 /* 660 */
#define PRIVATEER_MCHK__SYS_CORR_ERR 0x204 /* 620 */
#define PRIVATEER_MCHK__SYS_ENVIRON 0x206 /* 680 */
switch(ev6mchk->MCHK_Code) {
/*
* Vector 630 - Processor, Correctable
*/
case PRIVATEER_MCHK__CORR_ECC:
case PRIVATEER_MCHK__DC_TAG_PERR:
/*
* Fall through to vector 670 for processing...
*/
/*
* Vector 670 - Processor, Uncorrectable
*/
case PRIVATEER_MCHK__PAL_BUGCHECK:
case PRIVATEER_MCHK__OS_BUGCHECK:
case PRIVATEER_MCHK__PROC_HRD_ERR:
case PRIVATEER_MCHK__ISTREAM_CMOV_PRX:
case PRIVATEER_MCHK__ISTREAM_CMOV_FLT:
status |= ev6_process_logout_frame(mchk_header, print);
break;
/*
* Vector 620 - System, Correctable
*/
case PRIVATEER_MCHK__SYS_CORR_ERR:
/*
* Fall through to vector 660 for processing...
*/
/*
* Vector 660 - System, Uncorrectable
*/
case PRIVATEER_MCHK__SYS_HRD_ERR:
status |= titan_process_logout_frame(mchk_header, print);
break;
/*
* Vector 680 - System, Environmental
*/
case PRIVATEER_MCHK__SYS_ENVIRON: /* System, Environmental */
status |= privateer_process_680_frame(mchk_header, print);
break;
/*
* Unknown
*/
default:
status |= MCHK_DISPOSITION_REPORT;
if (print) {
printk("%s** Unknown Error, frame follows\n",
err_print_prefix);
mchk_dump_logout_frame(mchk_header);
}
}
return status;
}
void
privateer_machine_check(unsigned long vector, unsigned long la_ptr)
{
struct el_common *mchk_header = (struct el_common *)la_ptr;
struct el_TITAN_sysdata_mcheck *tmchk =
(struct el_TITAN_sysdata_mcheck *)
(la_ptr + mchk_header->sys_offset);
u64 irqmask;
char *saved_err_prefix = err_print_prefix;
#define PRIVATEER_680_INTERRUPT_MASK (0xE00UL)
#define PRIVATEER_HOTPLUG_INTERRUPT_MASK (0xE00UL)
/*
* Sync the processor.
*/
mb();
draina();
/*
* Only handle system events here.
*/
if (vector != SCB_Q_SYSEVENT)
return titan_machine_check(vector, la_ptr);
/*
* Report the event - System Events should be reported even if no
* error is indicated since the event could indicate the return
* to normal status.
*/
err_print_prefix = KERN_CRIT;
printk("%s*System Event (Vector 0x%x) reported on CPU %d:\n",
err_print_prefix,
(unsigned int)vector, (int)smp_processor_id());
privateer_process_680_frame(mchk_header, 1);
err_print_prefix = saved_err_prefix;
/*
* Convert any pending interrupts which report as 680 machine
* checks to interrupts.
*/
irqmask = tmchk->c_dirx & PRIVATEER_680_INTERRUPT_MASK;
/*
* Dispatch the interrupt(s).
*/
titan_dispatch_irqs(irqmask);
/*
* Release the logout frame.
*/
wrmces(0x7);
mb();
}
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