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klipper/src/pru/pru0.c
Kevin O'Connor 7b7f57e01c pru: Only sleep the pru0 if the incoming queue is fully empty 
It's possible for multiple blocks to be pending on the incoming
"rpmsg" stream.  Don't sleep unless the input is confirmed to be
empty.

Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
2017-09-03 23:15:49 -04:00

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// Code to handle IO on PRU0 and pass the messages to PRU1
//
// Copyright (C) 2017 Kevin O'Connor <kevin@koconnor.net>
//
// This file may be distributed under the terms of the GNU GPLv3 license.
#include <setjmp.h> // setjmp
#include <stdint.h> // uint32_t
#include <string.h> // memset
#include <pru/io.h> // write_r31
#include <pru_cfg.h> // CT_CFG
#include <pru_intc.h> // CT_INTC
#include <pru_rpmsg.h> // pru_rpmsg_send
#include <pru_virtio_ids.h> // VIRTIO_ID_RPMSG
#include <rsc_types.h> // resource_table
#include "board/io.h" // readl
#include "command.h" // command_add_frame
#include "compiler.h" // __section
#include "internal.h" // SHARED_MEM
#include "sched.h" // sched_shutdown
struct pru_rpmsg_transport transport;
static uint16_t transport_dst;
/****************************************************************
* IO
****************************************************************/
#define CHAN_NAME "rpmsg-pru"
#define CHAN_DESC "Channel 30"
#define CHAN_PORT 30
// Check if there is data to be sent from PRU1 to the host
static void
check_can_send(void)
{
for (;;) {
uint32_t send_pop_pos = SHARED_MEM->send_pop_pos;
struct shared_response_buffer *s = &SHARED_MEM->send_data[send_pop_pos];
uint32_t count = readl(&s->count);
if (!count)
// Queue empty
break;
command_add_frame(s->data, count);
pru_rpmsg_send(&transport, CHAN_PORT, transport_dst, &s->data, count);
writel(&s->count, 0);
SHARED_MEM->send_pop_pos = (
(send_pop_pos + 1) % ARRAY_SIZE(SHARED_MEM->send_data));
}
}
// Wait for PRU1 to finish processing a command
static void
wait_pru1_command(void)
{
while (readl(&SHARED_MEM->next_command))
check_can_send();
check_can_send();
}
// Signal PRU1 that a new command is ready
static void
send_pru1_command(const struct command_parser *cp)
{
barrier();
SHARED_MEM->next_command = cp;
barrier();
write_r31(R31_WRITE_IRQ_SELECT | (KICK_PRU1_EVENT - R31_WRITE_IRQ_OFFSET));
}
// Instruct PRU1 to shutdown
static void
send_pru1_shutdown(void)
{
wait_pru1_command();
send_pru1_command(SHARED_MEM->shutdown_handler);
wait_pru1_command();
}
// Dispatch all the commands in a message block
static void
do_dispatch(char *buf, uint32_t msglen)
{
char *p = &buf[MESSAGE_HEADER_SIZE];
char *msgend = &buf[msglen-MESSAGE_TRAILER_SIZE];
while (p < msgend) {
// Parse command
uint8_t cmdid = *p++;
const struct command_parser *cp = &SHARED_MEM->command_index[cmdid];
if (!cmdid || cmdid >= SHARED_MEM->command_index_size
|| cp->num_args > ARRAY_SIZE(SHARED_MEM->next_command_args)) {
send_pru1_shutdown();
return;
}
p = command_parsef(p, msgend, cp, SHARED_MEM->next_command_args);
send_pru1_command(ALT_PRU_PTR(cp));
wait_pru1_command();
}
}
// See if there are commands from the host ready to be processed
static int
check_can_read(void)
{
// Read data
uint16_t dst, len;
char *p = SHARED_MEM->read_data;
int16_t ret = pru_rpmsg_receive(&transport, &transport_dst, &dst, p, &len);
if (ret)
return ret == PRU_RPMSG_NO_BUF_AVAILABLE;
// Check for force shutdown request
if (len == 15 && p[14] == '\n' && memcmp(p, "FORCE_SHUTDOWN\n", 15) == 0) {
send_pru1_shutdown();
return 0;
}
// Parse data into message blocks
for (;;) {
uint8_t pop_count, msglen = len > MESSAGE_MAX ? MESSAGE_MAX : len;
int8_t ret = command_find_block(p, msglen, &pop_count);
if (!ret)
break;
if (ret > 0)
do_dispatch(p, pop_count);
p += pop_count;
len -= pop_count;
}
return 0;
}
// Main processing loop
static void
process_io(void)
{
for (;;) {
CT_INTC.SECR0 = (1 << KICK_PRU0_FROM_ARM_EVENT) | (1 << KICK_PRU0_EVENT);
check_can_send();
int can_sleep = check_can_read();
if (can_sleep)
asm("slp 1");
}
}
// Startup initialization
static void
setup_io(void)
{
// Fixup pointers in command_parsers
SHARED_MEM->command_index = ALT_PRU_PTR(SHARED_MEM->command_index);
struct command_parser *p = (void*)SHARED_MEM->command_index;
int i;
for (i=0; i<SHARED_MEM->command_index_size; i++, p++)
if (p->param_types)
p->param_types = ALT_PRU_PTR(p->param_types);
}
/****************************************************************
* Compatibility wrappers
****************************************************************/
// shutdown() compatibility code
uint8_t ctr_lookup_static_string(const char *str)
{
return 0;
}
static jmp_buf shutdown_jmp;
// Handle shutdown()
void
sched_shutdown(uint_fast8_t reason)
{
longjmp(shutdown_jmp, 1);
}
// Generate messages - only used for ack/nak messages
void
console_sendf(const struct command_encoder *ce, va_list args)
{
char buf[MESSAGE_MIN];
command_add_frame(buf, sizeof(buf));
pru_rpmsg_send(&transport, CHAN_PORT, transport_dst, buf, sizeof(buf));
}
/****************************************************************
* Resource table
****************************************************************/
/*
* Sizes of the virtqueues (expressed in number of buffers supported,
* and must be power of 2)
*/
#define PRU_RPMSG_VQ0_SIZE 16
#define PRU_RPMSG_VQ1_SIZE 16
/*
* The feature bitmap for virtio rpmsg
*/
#define VIRTIO_RPMSG_F_NS 0 //name service notifications
/* This firmware supports name service notifications as one of its features */
#define RPMSG_PRU_C0_FEATURES (1 << VIRTIO_RPMSG_F_NS)
/* Definition for unused interrupts */
#define HOST_UNUSED 255
/* Mapping sysevts to a channel. Each pair contains a sysevt, channel. */
static struct ch_map pru_intc_map[] = {
{IEP_EVENT, WAKE_PRU1_IRQ},
{KICK_ARM_EVENT, WAKE_ARM_IRQ},
{KICK_PRU0_FROM_ARM_EVENT, WAKE_PRU0_IRQ},
{KICK_PRU0_EVENT, WAKE_PRU0_IRQ},
{KICK_PRU1_EVENT, WAKE_PRU1_IRQ},
};
struct my_resource_table {
struct resource_table base;
uint32_t offset[2]; /* Should match 'num' in actual definition */
/* rpmsg vdev entry */
struct fw_rsc_vdev rpmsg_vdev;
struct fw_rsc_vdev_vring rpmsg_vring0;
struct fw_rsc_vdev_vring rpmsg_vring1;
/* intc definition */
struct fw_rsc_custom pru_ints;
} resourceTable __section(".resource_table") = {
{
1, /* Resource table version: only version 1 is
* supported by the current driver */
2, /* number of entries in the table */
{ 0, 0 }, /* reserved, must be zero */
},
/* offsets to entries */
{
offsetof(struct my_resource_table, rpmsg_vdev),
offsetof(struct my_resource_table, pru_ints),
},
/* rpmsg vdev entry */
{
(uint32_t)TYPE_VDEV, //type
(uint32_t)VIRTIO_ID_RPMSG, //id
(uint32_t)0, //notifyid
(uint32_t)RPMSG_PRU_C0_FEATURES, //dfeatures
(uint32_t)0, //gfeatures
(uint32_t)0, //config_len
(uint8_t)0, //status
(uint8_t)2, //num_of_vrings, only two is supported
{(uint8_t)0, (uint8_t)0 }, //reserved
/* no config data */
},
/* the two vrings */
{
0, //da, will be populated by host, can't pass it in
16, //align (bytes),
PRU_RPMSG_VQ0_SIZE, //num of descriptors
0, //notifyid, will be populated, can't pass right now
0 //reserved
},
{
0, //da, will be populated by host, can't pass it in
16, //align (bytes),
PRU_RPMSG_VQ1_SIZE, //num of descriptors
0, //notifyid, will be populated, can't pass right now
0 //reserved
},
{
TYPE_CUSTOM, TYPE_PRU_INTS,
sizeof(struct fw_rsc_custom_ints),
{ /* PRU_INTS version */
{
0x0000,
/* Channel-to-host mapping, 255 for unused */
{
WAKE_PRU0_IRQ, WAKE_PRU1_IRQ, WAKE_ARM_IRQ,
HOST_UNUSED, HOST_UNUSED, HOST_UNUSED,
HOST_UNUSED, HOST_UNUSED, HOST_UNUSED, HOST_UNUSED
},
/* Number of evts being mapped to channels */
(sizeof(pru_intc_map) / sizeof(struct ch_map)),
/* Pointer to the structure containing mapped events */
pru_intc_map,
},
},
},
};
/****************************************************************
* Startup
****************************************************************/
#define VIRTIO_CONFIG_S_DRIVER_OK 4
int
main(void)
{
// allow access to external memory
CT_CFG.SYSCFG_bit.STANDBY_INIT = 0;
// clear all irqs
CT_INTC.SECR0 = 0xffffffff;
CT_INTC.SECR1 = 0xffffffff;
/* Make sure the Linux drivers are ready for RPMsg communication */
volatile uint8_t *status = &resourceTable.rpmsg_vdev.status;
while (!(*status & VIRTIO_CONFIG_S_DRIVER_OK))
;
/* Initialize the RPMsg transport structure */
pru_rpmsg_init(&transport,
&resourceTable.rpmsg_vring0,
&resourceTable.rpmsg_vring1,
KICK_ARM_EVENT,
KICK_PRU0_FROM_ARM_EVENT);
/* Create the RPMsg channel between the PRU and ARM user space
* using the transport structure. */
while (pru_rpmsg_channel(RPMSG_NS_CREATE, &transport, CHAN_NAME
, CHAN_DESC, CHAN_PORT) != PRU_RPMSG_SUCCESS)
;
// Allow PRU0 and PRU1 to wake from sleep
PRU0_CTRL.WAKEUP_EN = 1 << (WAKE_PRU0_IRQ + R31_IRQ_OFFSET);
PRU1_CTRL.WAKEUP_EN = 1 << (WAKE_PRU1_IRQ + R31_IRQ_OFFSET);
// Wait for PRU1 to be ready
memset(SHARED_MEM, 0, sizeof(*SHARED_MEM));
writel(&SHARED_MEM->signal, SIGNAL_PRU0_WAITING);
while (readl(&SHARED_MEM->signal) != SIGNAL_PRU1_READY)
;
writel(&SHARED_MEM->signal, 0);
// Setup incoming message parser
setup_io();
// Support shutdown
int ret = setjmp(shutdown_jmp);
if (ret)
send_pru1_shutdown();
// Main loop
process_io();
}
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