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qemu / skiboot / refs/tags/v7.1 / . / hw / fsp / fsp-console.c
blob: dc23ac46f3c0b83816b23781eca3add23c0d469d [file] [log] [blame]
// SPDX-License-Identifier: Apache-2.0 OR GPL-2.0-or-later
/*
* Flexible Service Processor (FSP) serial console handling code
*
* Copyright 2013-2018 IBM Corp.
*/
#include <skiboot.h>
#include <processor.h>
#include <io.h>
#include <fsp.h>
#include <console.h>
#include <opal.h>
#include <timebase.h>
#include <device.h>
#include <fsp-sysparam.h>
#include <errorlog.h>
#include <lock.h>
DEFINE_LOG_ENTRY(OPAL_RC_CONSOLE_HANG, OPAL_PLATFORM_ERR_EVT, OPAL_CONSOLE,
OPAL_PLATFORM_FIRMWARE,
OPAL_PREDICTIVE_ERR_GENERAL, OPAL_NA);
struct fsp_serbuf_hdr {
__be16 partition_id;
u8 session_id;
u8 hmc_id;
__be16 data_offset;
__be16 last_valid;
__be16 ovf_count;
__be16 next_in;
u8 flags;
u8 reserved;
__be16 next_out;
u8 data[];
};
#define SER_BUF_DATA_SIZE (0x10000 - sizeof(struct fsp_serbuf_hdr))
struct fsp_serial {
bool available;
bool open;
bool has_part0;
bool has_part1;
bool log_port;
bool out_poke;
char loc_code[LOC_CODE_SIZE];
u16 rsrc_id;
struct fsp_serbuf_hdr *in_buf;
struct fsp_serbuf_hdr *out_buf;
struct fsp_msg *poke_msg;
u8 waiting;
u64 irq;
u16 out_buf_prev_len;
u64 out_buf_timeout;
};
#define SER_BUFFER_SIZE 0x00040000UL
#define MAX_SERIAL 4
#define SER_BUFFER_OUT_TIMEOUT 10
static struct fsp_serial fsp_serials[MAX_SERIAL];
static bool got_intf_query;
static struct lock fsp_con_lock = LOCK_UNLOCKED;
static void* ser_buffer = NULL;
static void fsp_console_reinit(void)
{
int i;
void *base;
struct fsp_msg *msg;
/* Initialize out data structure pointers & TCE maps */
base = ser_buffer;
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *ser = &fsp_serials[i];
ser->in_buf = base;
ser->out_buf = base + SER_BUFFER_SIZE/2;
base += SER_BUFFER_SIZE;
}
fsp_tce_map(PSI_DMA_SER0_BASE, ser_buffer,
4 * PSI_DMA_SER0_SIZE);
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
if (!fs->available)
continue;
if (fs->rsrc_id == 0xffff)
continue;
prlog(PR_DEBUG, "FSP: Reassociating HVSI console %d\n", i);
msg = fsp_mkmsg(FSP_CMD_ASSOC_SERIAL, 2,
(fs->rsrc_id << 16) | 1, i);
if (!msg) {
prerror("FSPCON: Failed to allocate associate msg\n");
return;
}
if (fsp_queue_msg(msg, fsp_freemsg)) {
fsp_freemsg(msg);
prerror("FSPCON: Failed to queue associate msg\n");
return;
}
}
}
static void fsp_close_consoles(void)
{
unsigned int i;
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
if (!fs->available)
continue;
lock(&fsp_con_lock);
if (fs->open) {
fs->open = false;
fs->out_poke = false;
if (fs->poke_msg->state != fsp_msg_unused)
fsp_cancelmsg(fs->poke_msg);
fsp_freemsg(fs->poke_msg);
fs->poke_msg = NULL;
}
unlock(&fsp_con_lock);
}
prlog(PR_DEBUG, "FSPCON: Closed consoles due to FSP reset/reload\n");
}
static void fsp_pokemsg_reclaim(struct fsp_msg *msg)
{
struct fsp_serial *fs = msg->user_data;
/*
* The poke_msg might have been "detached" from the console
* in vserial_close, so we need to check whether it's current
* before touching the state, otherwise, just free it
*/
lock(&fsp_con_lock);
if (fs->open && fs->poke_msg == msg) {
if (fs->out_poke) {
if (fsp_queue_msg(fs->poke_msg, fsp_pokemsg_reclaim)) {
prerror("FSPCON: failed to queue poke msg\n");
} else {
fs->out_poke = false;
}
} else
fs->poke_msg->state = fsp_msg_unused;
} else
fsp_freemsg(msg);
unlock(&fsp_con_lock);
}
/* Called with the fsp_con_lock held */
static size_t fsp_write_vserial(struct fsp_serial *fs, const char *buf,
size_t len)
{
struct fsp_serbuf_hdr *sb = fs->out_buf;
u16 old_nin = be16_to_cpu(sb->next_in);
u16 space, chunk;
if (!fs->open)
return 0;
space = (be16_to_cpu(sb->next_out) + SER_BUF_DATA_SIZE - old_nin - 1)
% SER_BUF_DATA_SIZE;
if (space < len)
len = space;
if (!len)
return 0;
chunk = SER_BUF_DATA_SIZE - old_nin;
if (chunk > len)
chunk = len;
memcpy(&sb->data[old_nin], buf, chunk);
if (chunk < len)
memcpy(&sb->data[0], buf + chunk, len - chunk);
lwsync();
sb->next_in = cpu_to_be16((old_nin + len) % SER_BUF_DATA_SIZE);
sync();
if (be16_to_cpu(sb->next_out) == old_nin && fs->poke_msg) {
if (fs->poke_msg->state == fsp_msg_unused) {
if (fsp_queue_msg(fs->poke_msg, fsp_pokemsg_reclaim))
prerror("FSPCON: poke msg queuing failed\n");
} else
fs->out_poke = true;
}
#ifndef DISABLE_CON_PENDING_EVT
opal_update_pending_evt(OPAL_EVENT_CONSOLE_OUTPUT,
OPAL_EVENT_CONSOLE_OUTPUT);
#endif
return len;
}
#ifdef DVS_CONSOLE
static int fsp_con_port = -1;
static bool fsp_con_full;
/*
* This is called by the code in console.c without the con_lock
* held. However it can be called as the result of any printf
* thus any other lock might be held including possibly the
* FSP lock
*/
static size_t fsp_con_write(const char *buf, size_t len)
{
size_t written;
if (fsp_con_port < 0)
return 0;
lock(&fsp_con_lock);
written = fsp_write_vserial(&fsp_serials[fsp_con_port], buf, len);
fsp_con_full = (written < len);
unlock(&fsp_con_lock);
return written;
}
static struct con_ops fsp_con_ops = {
.write = fsp_con_write,
};
#endif /* DVS_CONSOLE */
static void fsp_open_vserial(struct fsp_msg *msg)
{
struct fsp_msg *resp;
u16 part_id = fsp_msg_get_data_word(msg, 0) & 0xffff;
u16 sess_id = fsp_msg_get_data_word(msg, 1) & 0xffff;
u8 hmc_sess = msg->data.bytes[0];
u8 hmc_indx = msg->data.bytes[1];
u8 authority = msg->data.bytes[4];
u32 tce_in, tce_out;
struct fsp_serial *fs;
prlog(PR_INFO, "FSPCON: Got VSerial Open\n");
prlog(PR_DEBUG, " part_id = 0x%04x\n", part_id);
prlog(PR_DEBUG, " sess_id = 0x%04x\n", sess_id);
prlog(PR_DEBUG, " hmc_sess = 0x%02x\n", hmc_sess);
prlog(PR_DEBUG, " hmc_indx = 0x%02x\n", hmc_indx);
prlog(PR_DEBUG, " authority = 0x%02x\n", authority);
if (sess_id >= MAX_SERIAL || !fsp_serials[sess_id].available) {
prlog(PR_WARNING, "FSPCON: 0x%04x NOT AVAILABLE!\n", sess_id);
resp = fsp_mkmsg(FSP_RSP_OPEN_VSERIAL | 0x2f, 0);
if (!resp) {
prerror("FSPCON: Response allocation failed\n");
return;
}
if (fsp_queue_msg(resp, fsp_freemsg)) {
fsp_freemsg(resp);
prerror("FSPCON: Failed to queue response msg\n");
}
return;
}
fs = &fsp_serials[sess_id];
/* Hack ! On blades, the console opened via the mm has partition 1
* while the debug DVS generally has partition 0 (though you can
* use what you want really).
* We don't want a DVS open/close to crap on the blademm console
* thus if it's a raw console, gets an open with partID 1, we
* set a flag that ignores the close of partid 0
*/
if (fs->rsrc_id == 0xffff) {
if (part_id == 0)
fs->has_part0 = true;
if (part_id == 1)
fs->has_part1 = true;
}
tce_in = PSI_DMA_SER0_BASE + PSI_DMA_SER0_SIZE * sess_id;
tce_out = tce_in + SER_BUFFER_SIZE/2;
lock(&fsp_con_lock);
if (fs->open) {
prlog(PR_DEBUG, " already open, skipping init !\n");
unlock(&fsp_con_lock);
goto already_open;
}
fs->poke_msg = fsp_mkmsg(FSP_CMD_VSERIAL_OUT, 2,
fsp_msg_get_data_word(msg, 0),
fsp_msg_get_data_word(msg, 1) & 0xffff);
if (fs->poke_msg == NULL) {
prerror("FSPCON: Failed to allocate poke_msg\n");
unlock(&fsp_con_lock);
return;
}
fs->open = true;
fs->poke_msg->user_data = fs;
fs->in_buf->partition_id = fs->out_buf->partition_id = cpu_to_be16(part_id);
fs->in_buf->session_id = fs->out_buf->session_id = sess_id;
fs->in_buf->hmc_id = fs->out_buf->hmc_id = hmc_indx;
fs->in_buf->data_offset = fs->out_buf->data_offset =
cpu_to_be16(sizeof(struct fsp_serbuf_hdr));
fs->in_buf->last_valid = fs->out_buf->last_valid =
cpu_to_be16(SER_BUF_DATA_SIZE - 1);
fs->in_buf->ovf_count = fs->out_buf->ovf_count = 0;
fs->in_buf->next_in = fs->out_buf->next_in = 0;
fs->in_buf->flags = fs->out_buf->flags = 0;
fs->in_buf->reserved = fs->out_buf->reserved = 0;
fs->in_buf->next_out = fs->out_buf->next_out = 0;
fs->out_buf_prev_len = 0;
fs->out_buf_timeout = 0;
unlock(&fsp_con_lock);
already_open:
resp = fsp_mkmsg(FSP_RSP_OPEN_VSERIAL, 6, fsp_msg_get_data_word(msg, 0),
fsp_msg_get_data_word(msg, 1) & 0xffff, 0, tce_in, 0, tce_out);
if (!resp) {
prerror("FSPCON: Failed to allocate open msg response\n");
return;
}
if (fsp_queue_msg(resp, fsp_freemsg)) {
fsp_freemsg(resp);
prerror("FSPCON: Failed to queue open msg response\n");
return;
}
#ifdef DVS_CONSOLE
prlog(PR_DEBUG, " log_port = %d\n", fs->log_port);
if (fs->log_port) {
fsp_con_port = sess_id;
sync();
/*
* We mark the FSP lock as being in the console
* path. We do that only once, we never unmark it
* (there is really no much point)
*/
fsp_used_by_console();
fsp_con_lock.in_con_path = true;
/* See comment in fsp_used_by_console */
lock(&fsp_con_lock);
unlock(&fsp_con_lock);
set_console(&fsp_con_ops);
}
#endif
}
static void fsp_close_vserial(struct fsp_msg *msg)
{
u16 part_id = fsp_msg_get_data_word(msg, 0) & 0xffff;
u16 sess_id = fsp_msg_get_data_word(msg, 1) & 0xffff;
u8 hmc_sess = msg->data.bytes[0];
u8 hmc_indx = msg->data.bytes[1];
u8 authority = msg->data.bytes[4];
struct fsp_serial *fs;
struct fsp_msg *resp;
prlog(PR_INFO, "FSPCON: Got VSerial Close\n");
prlog(PR_DEBUG, " part_id = 0x%04x\n", part_id);
prlog(PR_DEBUG, " sess_id = 0x%04x\n", sess_id);
prlog(PR_DEBUG, " hmc_sess = 0x%02x\n", hmc_sess);
prlog(PR_DEBUG, " hmc_indx = 0x%02x\n", hmc_indx);
prlog(PR_DEBUG, " authority = 0x%02x\n", authority);
if (sess_id >= MAX_SERIAL || !fsp_serials[sess_id].available) {
prlog(PR_WARNING, "FSPCON: 0x%04x NOT AVAILABLE!\n", sess_id);
goto skip_close;
}
fs = &fsp_serials[sess_id];
/* See "HACK" comment in open */
if (fs->rsrc_id == 0xffff) {
if (part_id == 0)
fs->has_part0 = false;
if (part_id == 1)
fs->has_part1 = false;
if (fs->has_part0 || fs->has_part1) {
prlog(PR_DEBUG, " skipping close !\n");
goto skip_close;
}
}
#ifdef DVS_CONSOLE
if (fs->log_port) {
fsp_con_port = -1;
set_console(NULL);
}
#endif
lock(&fsp_con_lock);
if (fs->open) {
fs->open = false;
fs->out_poke = false;
if (fs->poke_msg && fs->poke_msg->state == fsp_msg_unused) {
fsp_freemsg(fs->poke_msg);
fs->poke_msg = NULL;
}
}
unlock(&fsp_con_lock);
skip_close:
resp = fsp_mkmsg(FSP_RSP_CLOSE_VSERIAL, 2, fsp_msg_get_data_word(msg, 0),
fsp_msg_get_data_word(msg, 1) & 0xffff);
if (!resp) {
prerror("FSPCON: Failed to allocate close msg response\n");
return;
}
if (fsp_queue_msg(resp, fsp_freemsg)) {
fsp_freemsg(resp);
prerror("FSPCON: Failed to queue close msg response\n");
}
}
static bool fsp_con_msg_hmc(u32 cmd_sub_mod, struct fsp_msg *msg)
{
struct fsp_msg *resp;
/* Associate response */
if ((cmd_sub_mod >> 8) == 0xe08a) {
prlog(PR_TRACE, "FSPCON: Got associate response, status"
" 0x%02x\n", cmd_sub_mod & 0xff);
return true;
}
if ((cmd_sub_mod >> 8) == 0xe08b) {
prlog(PR_TRACE, "Got unassociate response, status 0x%02x\n",
cmd_sub_mod & 0xff);
return true;
}
switch(cmd_sub_mod) {
case FSP_CMD_OPEN_VSERIAL:
fsp_open_vserial(msg);
return true;
case FSP_CMD_CLOSE_VSERIAL:
fsp_close_vserial(msg);
return true;
case FSP_CMD_HMC_INTF_QUERY:
prlog(PR_DEBUG, "FSPCON: Got HMC interface query\n");
got_intf_query = true;
resp = fsp_mkmsg(FSP_RSP_HMC_INTF_QUERY, 1,
fsp_msg_get_data_word(msg, 0) & 0x00ffffff);
if (!resp) {
prerror("FSPCON: Failed to allocate hmc intf response\n");
return true;
}
if (fsp_queue_msg(resp, fsp_freemsg)) {
fsp_freemsg(resp);
prerror("FSPCON: Failed to queue hmc intf response\n");
}
return true;
}
return false;
}
static bool fsp_con_msg_vt(u32 cmd_sub_mod, struct fsp_msg *msg)
{
u16 sess_id = fsp_msg_get_data_word(msg, 1) & 0xffff;
if (cmd_sub_mod == FSP_CMD_VSERIAL_IN && sess_id < MAX_SERIAL) {
struct fsp_serial *fs = &fsp_serials[sess_id];
if (!fs->open)
return true;
/* FSP is signaling some incoming data. We take the console
* lock to avoid racing with a simultaneous read, though we
* might want to consider to simplify all that locking into
* one single lock that covers the console and the pending
* events.
*/
lock(&fsp_con_lock);
opal_update_pending_evt(OPAL_EVENT_CONSOLE_INPUT,
OPAL_EVENT_CONSOLE_INPUT);
opal_update_pending_evt(fs->irq, fs->irq);
unlock(&fsp_con_lock);
}
return true;
}
static bool fsp_con_msg_rr(u32 cmd_sub_mod, struct fsp_msg *msg)
{
assert(msg == NULL);
switch (cmd_sub_mod) {
case FSP_RESET_START:
fsp_close_consoles();
return true;
case FSP_RELOAD_COMPLETE:
fsp_console_reinit();
return true;
}
return false;
}
static struct fsp_client fsp_con_client_hmc = {
.message = fsp_con_msg_hmc,
};
static struct fsp_client fsp_con_client_vt = {
.message = fsp_con_msg_vt,
};
static struct fsp_client fsp_con_client_rr = {
.message = fsp_con_msg_rr,
};
static void fsp_serial_add(int index, u16 rsrc_id, const char *loc_code,
bool log_port)
{
struct fsp_serial *ser;
struct fsp_msg *msg;
lock(&fsp_con_lock);
ser = &fsp_serials[index];
if (ser->available) {
unlock(&fsp_con_lock);
return;
}
ser->rsrc_id = rsrc_id;
memset(ser->loc_code, 0x00, LOC_CODE_SIZE);
strncpy(ser->loc_code, loc_code, LOC_CODE_SIZE - 1);
ser->available = true;
ser->log_port = log_port;
unlock(&fsp_con_lock);
/* DVS doesn't have that */
if (rsrc_id != 0xffff) {
msg = fsp_mkmsg(FSP_CMD_ASSOC_SERIAL, 2,
(rsrc_id << 16) | 1, index);
if (!msg) {
prerror("FSPCON: Assoc serial alloc failed\n");
return;
}
if (fsp_queue_msg(msg, fsp_freemsg)) {
fsp_freemsg(msg);
prerror("FSPCON: Assoc serial queue failed\n");
return;
}
}
}
void fsp_console_preinit(void)
{
int i;
void *base;
if (!fsp_present())
return;
ser_buffer = memalign(TCE_PSIZE, SER_BUFFER_SIZE * MAX_SERIAL);
/* Initialize out data structure pointers & TCE maps */
base = ser_buffer;
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *ser = &fsp_serials[i];
ser->in_buf = base;
ser->out_buf = base + SER_BUFFER_SIZE/2;
base += SER_BUFFER_SIZE;
}
fsp_tce_map(PSI_DMA_SER0_BASE, ser_buffer,
4 * PSI_DMA_SER0_SIZE);
/* Register for class E0 and E1 */
fsp_register_client(&fsp_con_client_hmc, FSP_MCLASS_HMC_INTFMSG);
fsp_register_client(&fsp_con_client_vt, FSP_MCLASS_HMC_VT);
fsp_register_client(&fsp_con_client_rr, FSP_MCLASS_RR_EVENT);
/* Add DVS ports. We currently have session 0 and 3, 0 is for
* OS use. 3 is our debug port. We need to add those before
* we complete the OPL or we'll potentially miss the
* console setup on Firebird blades.
*/
fsp_serial_add(0, 0xffff, "DVS_OS", false);
op_display(OP_LOG, OP_MOD_FSPCON, 0x0001);
fsp_serial_add(3, 0xffff, "DVS_FW", true);
op_display(OP_LOG, OP_MOD_FSPCON, 0x0002);
}
static int64_t fsp_console_write(int64_t term_number, __be64 *__length,
const uint8_t *buffer)
{
struct fsp_serial *fs;
size_t written, requested;
if (term_number < 0 || term_number >= MAX_SERIAL)
return OPAL_PARAMETER;
fs = &fsp_serials[term_number];
if (!fs->available || fs->log_port)
return OPAL_PARAMETER;
lock(&fsp_con_lock);
if (!fs->open) {
unlock(&fsp_con_lock);
return OPAL_CLOSED;
}
/* Clamp to a reasonable size */
requested = be64_to_cpu(*__length);
if (requested > 0x1000)
requested = 0x1000;
written = fsp_write_vserial(fs, buffer, requested);
if (written) {
/* If we wrote anything, reset timeout */
fs->out_buf_prev_len = 0;
fs->out_buf_timeout = 0;
}
#ifdef OPAL_DEBUG_CONSOLE_IO
prlog(PR_TRACE, "OPAL: console write req=%ld written=%ld"
" ni=%d no=%d\n",
requested, written, be16_to_cpu(fs->out_buf->next_in),
be16_to_cpu(fs->out_buf->next_out));
prlog(PR_TRACE, " %02x %02x %02x %02x "
"%02x \'%c\' %02x \'%c\' %02x \'%c\'.%02x \'%c\'..\n",
buffer[0], buffer[1], buffer[2], buffer[3],
buffer[4], buffer[4], buffer[5], buffer[5],
buffer[6], buffer[6], buffer[7], buffer[7]);
#endif /* OPAL_DEBUG_CONSOLE_IO */
*__length = cpu_to_be64(written);
unlock(&fsp_con_lock);
if (written)
return OPAL_SUCCESS;
return OPAL_HARDWARE;
}
static int64_t fsp_console_write_buffer_space(int64_t term_number,
__be64 *__length)
{
static bool elog_generated = false;
struct fsp_serial *fs;
struct fsp_serbuf_hdr *sb;
int64_t length;
if (term_number < 0 || term_number >= MAX_SERIAL)
return OPAL_PARAMETER;
fs = &fsp_serials[term_number];
if (!fs->available || fs->log_port)
return OPAL_PARAMETER;
lock(&fsp_con_lock);
if (!fs->open) {
unlock(&fsp_con_lock);
return OPAL_CLOSED;
}
sb = fs->out_buf;
length = (be16_to_cpu(sb->next_out) + SER_BUF_DATA_SIZE
- be16_to_cpu(sb->next_in) - 1)
% SER_BUF_DATA_SIZE;
unlock(&fsp_con_lock);
/* Console buffer has enough space to write incoming data */
if (length != fs->out_buf_prev_len) {
fs->out_buf_prev_len = length;
fs->out_buf_timeout = 0;
*__length = cpu_to_be64(length);
return OPAL_SUCCESS;
}
/*
* Buffer is full, start internal timer. We will continue returning
* SUCCESS until timeout happens, hoping FSP will consume data within
* timeout period.
*/
if (fs->out_buf_timeout == 0) {
fs->out_buf_timeout = mftb() +
secs_to_tb(SER_BUFFER_OUT_TIMEOUT);
}
if (tb_compare(mftb(), fs->out_buf_timeout) != TB_AAFTERB) {
*__length = cpu_to_be64(length);
return OPAL_SUCCESS;
}
/*
* FSP is still active but not reading console data. Hence
* our console buffer became full. Most likely IPMI daemon
* on FSP is buggy. Lets log error and return OPAL_RESOURCE
* to payload (Linux).
*/
if (!elog_generated) {
elog_generated = true;
log_simple_error(&e_info(OPAL_RC_CONSOLE_HANG), "FSPCON: Console "
"buffer is full, dropping console data\n");
}
/* Timeout happened. Lets drop incoming data */
return OPAL_RESOURCE;
}
static int64_t fsp_console_read(int64_t term_number, __be64 *__length,
uint8_t *buffer)
{
struct fsp_serial *fs;
struct fsp_serbuf_hdr *sb;
bool pending = false;
uint32_t old_nin, n, i, chunk, req = be64_to_cpu(*__length);
int rc = OPAL_SUCCESS;
if (term_number < 0 || term_number >= MAX_SERIAL)
return OPAL_PARAMETER;
fs = &fsp_serials[term_number];
if (!fs->available || fs->log_port)
return OPAL_PARAMETER;
lock(&fsp_con_lock);
if (!fs->open) {
rc = OPAL_CLOSED;
goto clr_flag;
}
if (fs->waiting)
fs->waiting = 0;
sb = fs->in_buf;
old_nin = be16_to_cpu(sb->next_in);
lwsync();
n = (old_nin + SER_BUF_DATA_SIZE - be16_to_cpu(sb->next_out))
% SER_BUF_DATA_SIZE;
if (n > req) {
pending = true;
n = req;
}
*__length = cpu_to_be64(n);
chunk = SER_BUF_DATA_SIZE - be16_to_cpu(sb->next_out);
if (chunk > n)
chunk = n;
memcpy(buffer, &sb->data[be16_to_cpu(sb->next_out)], chunk);
if (chunk < n)
memcpy(buffer + chunk, &sb->data[0], n - chunk);
sb->next_out = cpu_to_be16(((be16_to_cpu(sb->next_out)) + n) % SER_BUF_DATA_SIZE);
#ifdef OPAL_DEBUG_CONSOLE_IO
prlog(PR_TRACE, "OPAL: console read req=%d read=%d ni=%d no=%d\n",
req, n, be16_to_cpu(sb->next_in), be16_to_cpu(sb->next_out));
prlog(PR_TRACE, " %02x %02x %02x %02x %02x %02x %02x %02x ...\n",
buffer[0], buffer[1], buffer[2], buffer[3],
buffer[4], buffer[5], buffer[6], buffer[7]);
#endif /* OPAL_DEBUG_CONSOLE_IO */
clr_flag:
/* Might clear the input pending flag */
for (i = 0; i < MAX_SERIAL && !pending; i++) {
struct fsp_serial *fs = &fsp_serials[i];
struct fsp_serbuf_hdr *sb = fs->in_buf;
if (fs->log_port || !fs->open)
continue;
if (sb->next_out != sb->next_in) {
/*
* HACK: Some kernels (4.1+) may fail to properly
* register hvc1 and will never read it. This can lead
* to RCU stalls, so if we notice this console is not
* being read, do not set OPAL_EVENT_CONSOLE_INPUT even
* if it has data
*/
if (fs->waiting < 5) {
pending = true;
fs->waiting++;
}
}
}
if (!pending) {
opal_update_pending_evt(fs->irq, 0);
opal_update_pending_evt(OPAL_EVENT_CONSOLE_INPUT, 0);
}
unlock(&fsp_con_lock);
return rc;
}
void fsp_console_poll(void *data __unused)
{
#ifdef OPAL_DEBUG_CONSOLE_POLL
static int debug;
#endif
/*
* We don't get messages for out buffer being consumed, so we
* need to poll. We also defer sending of poke messages from
* the sapphire console to avoid a locking nightmare with
* beging called from printf() deep into an existing lock nest
* stack.
*/
if (fsp_con_full ||
(opal_pending_events & OPAL_EVENT_CONSOLE_OUTPUT)) {
unsigned int i;
bool pending = false;
/* We take the console lock. This is somewhat inefficient
* but it guarantees we aren't racing with a write, and
* thus clearing an event improperly
*/
lock(&fsp_con_lock);
for (i = 0; i < MAX_SERIAL && !pending; i++) {
struct fsp_serial *fs = &fsp_serials[i];
struct fsp_serbuf_hdr *sb = fs->out_buf;
if (!fs->open)
continue;
if (sb->next_out == sb->next_in) {
continue;
}
if (fs->log_port) {
flush_console();
} else {
#ifdef OPAL_DEBUG_CONSOLE_POLL
if (debug < 5) {
prlog(PR_DEBUG,"OPAL: %d still pending"
" ni=%d no=%d\n",
i, be16_to_cpu(sb->next_in),
be16_to_cpu(sb->next_out));
debug++;
}
#endif /* OPAL_DEBUG_CONSOLE_POLL */
pending = true;
}
}
if (!pending) {
opal_update_pending_evt(OPAL_EVENT_CONSOLE_OUTPUT, 0);
#ifdef OPAL_DEBUG_CONSOLE_POLL
debug = 0;
#endif
}
unlock(&fsp_con_lock);
}
}
void fsp_console_init(void)
{
struct dt_node *serials, *ser;
int i;
if (!fsp_present())
return;
/* Wait until we got the intf query before moving on */
while (!got_intf_query)
opal_run_pollers();
op_display(OP_LOG, OP_MOD_FSPCON, 0x0000);
/* Register poller */
opal_add_poller(fsp_console_poll, NULL);
/* Register OPAL console backend */
set_opal_console(&fsp_opal_con);
/* Parse serial port data */
serials = dt_find_by_path(dt_root, "ipl-params/fsp-serial");
if (!serials) {
prerror("FSPCON: No FSP serial ports in device-tree\n");
return;
}
i = 1;
dt_for_each_child(serials, ser) {
u32 rsrc_id = dt_prop_get_u32(ser, "reg");
const void *lc = dt_prop_get(ser, "ibm,loc-code");
prlog(PR_NOTICE, "FSPCON: Serial %d rsrc: %04x loc: %s\n",
i, rsrc_id, (const char *)lc);
fsp_serial_add(i++, rsrc_id, lc, false);
op_display(OP_LOG, OP_MOD_FSPCON, 0x0010 + i);
}
op_display(OP_LOG, OP_MOD_FSPCON, 0x0005);
}
static int64_t fsp_console_flush(int64_t terminal __unused)
{
/* FIXME: There's probably something we can do here... */
return OPAL_PARAMETER;
}
struct opal_con_ops fsp_opal_con = {
.name = "FSP OPAL console",
.init = NULL, /* all the required setup is done in fsp_console_init() */
.read = fsp_console_read,
.write = fsp_console_write,
.space = fsp_console_write_buffer_space,
.flush = fsp_console_flush,
};
static void flush_all_input(void)
{
unsigned int i;
lock(&fsp_con_lock);
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
struct fsp_serbuf_hdr *sb = fs->in_buf;
if (fs->log_port)
continue;
sb->next_out = sb->next_in;
}
unlock(&fsp_con_lock);
}
static bool send_all_hvsi_close(void)
{
unsigned int i;
bool has_hvsi = false;
static const uint8_t close_packet[] = { 0xfe, 6, 0, 1, 0, 3 };
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
struct fsp_serbuf_hdr *sb = fs->out_buf;
unsigned int space, timeout = 10;
if (fs->log_port)
continue;
if (fs->rsrc_id == 0xffff)
continue;
has_hvsi = true;
/* Do we have room ? Wait a bit if not */
while(timeout--) {
space = (be16_to_cpu(sb->next_out) + SER_BUF_DATA_SIZE -
be16_to_cpu(sb->next_in) - 1) % SER_BUF_DATA_SIZE;
if (space >= 6)
break;
time_wait_ms(500);
}
lock(&fsp_con_lock);
fsp_write_vserial(fs, close_packet, 6);
unlock(&fsp_con_lock);
}
return has_hvsi;
}
static void reopen_all_hvsi(void)
{
unsigned int i;
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
if (!fs->available)
continue;
if (fs->rsrc_id == 0xffff)
continue;
prlog(PR_NOTICE, "FSP: Deassociating HVSI console %d\n", i);
fsp_sync_msg(fsp_mkmsg(FSP_CMD_UNASSOC_SERIAL, 1,
(i << 16) | 1), true);
}
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
if (!fs->available)
continue;
if (fs->rsrc_id == 0xffff)
continue;
prlog(PR_NOTICE, "FSP: Reassociating HVSI console %d\n", i);
fsp_sync_msg(fsp_mkmsg(FSP_CMD_ASSOC_SERIAL, 2,
(fs->rsrc_id << 16) | 1, i), true);
}
}
void fsp_console_reset(void)
{
if (!fsp_present())
return;
prlog(PR_NOTICE, "FSP: Console reset !\n");
/* This is called on a fast-reset. To work around issues with HVSI
* initial negotiation, before we reboot the kernel, we flush all
* input and send an HVSI close packet.
*/
flush_all_input();
/* Returns false if there is no HVSI console */
if (!send_all_hvsi_close())
return;
time_wait_ms(500);
reopen_all_hvsi();
}
void fsp_console_add_nodes(void)
{
struct dt_node *opal_event;
unsigned int i;
opal_event = dt_find_by_name(opal_node, "event");
for (i = 0; i < MAX_SERIAL; i++) {
struct fsp_serial *fs = &fsp_serials[i];
struct dt_node *fs_node;
const char *type;
if (fs->log_port || !fs->available)
continue;
if (fs->rsrc_id == 0xffff)
type = "raw";
else
type = "hvsi";
fs_node = add_opal_console_node(i, type, SER_BUF_DATA_SIZE);
fs->irq = opal_dynamic_event_alloc();
dt_add_property_cells(fs_node, "interrupts", ilog2(fs->irq));
if (opal_event)
dt_add_property_cells(fs_node, "interrupt-parent",
opal_event->phandle);
}
}
void fsp_console_select_stdout(void)
{
bool use_serial = false;
int rc;
u8 param;
if (!fsp_present())
return;
rc = fsp_get_sys_param(SYS_PARAM_CONSOLE_SELECT,
&param, 1, NULL, NULL);
if (rc != 1) {
prerror("FSPCON: Failed to get console"
" sysparam rc %d\n", rc);
} else {
switch(param) {
case 0:
use_serial = false;
break;
case 1:
use_serial = true;
break;
default:
prerror("FSPCON: Unknown console"
" sysparam %d\n", param);
}
}
dt_check_del_prop(dt_chosen, "linux,stdout-path");
if (fsp_serials[1].open && use_serial) {
dt_add_property_string(dt_chosen, "linux,stdout-path",
"/ibm,opal/consoles/serial@1");
prlog(PR_NOTICE, "FSPCON: default console set to serial A\n");
} else {
dt_add_property_string(dt_chosen, "linux,stdout-path",
"/ibm,opal/consoles/serial@0");
prlog(PR_NOTICE, "FSPCON: default console set to SOL/DVS\n");
}
}