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grblHAL/stream_file.c
Terje Io adba5d031c Refactored M70-M73 modal state handling, should now be fully compatible with LinuxCNC behaviour. 
Added ADC/DAC resolution to $pinstate command, changed reported values to integer for ADC/DAC devices and float formatted for PWM devices.
Numeric settings can now be set via G65P1Q<n>S<value>, <n> is the setting number, <value> is the new value.
Changed alarm code for Modbus exceptions (communication errors) from 14 to 19.
Refactored MPG stream code to allow plugins to hook into MPG streams (via event handler).
Added _free memory system parameter, returns value in KBytes or -1 if not available from driver.
Changed basic stream data type from char to uint8_t, added HAL function and core API for releasing/closing UART streams.
2025-11-08 07:52:01 +01:00

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/*
stream_file.c - stream redirector for file input
Part of grblHAL
Copyright (c) 2024-2025 Terje Io
grblHAL is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
grblHAL is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with grblHAL. If not, see <http://www.gnu.org/licenses/>.
*/
#include "hal.h"
#include "stream_file.h"
typedef struct rd_stream {
vfs_file_t *file_new;
vfs_file_t *file;
stream_read_ptr read;
stream_type_t type;
status_message_ptr status_handler;
on_file_end_ptr eof_handler;
struct rd_stream *next;
} rd_stream_t;
static rd_stream_t *rd_streams = NULL;
static status_message_ptr status_message;
static on_file_end_ptr on_file_end;
static on_report_handlers_init_ptr on_report_handlers_init;
// File stream input function.
// Reads character by character from a file and returns them when
// requested by the foreground process.
static int32_t stream_read_file (void)
{
static bool eol_ok = false;
uint8_t c;
if(hal.stream.file) {
if(vfs_read(&c, 1, 1, hal.stream.file) == 1) {
if(c == ASCII_CR || c == ASCII_LF) {
if(eol_ok)
return SERIAL_NO_DATA;
eol_ok = true;
} else
eol_ok = false;
} else if(eol_ok) {
eol_ok = false;
return ASCII_EOF; // Return end-of-file. grbl.on_file_end() event generated in protocol.c.
} else {
eol_ok = true;
return ASCII_LF; // Return a linefeed if the last character was not a linefeed.
}
} else
return SERIAL_NO_DATA; // TODO: close all streams?
return (int32_t)c;
}
static status_code_t onFileEnd (vfs_file_t *file, status_code_t status)
{
rd_stream_t *stream;
if((stream = rd_streams)) {
while(stream->next && (stream = stream->next));
if(stream->eof_handler)
stream->eof_handler(file, status);
}
if(on_file_end)
on_file_end(file, status);
return status;
}
// This code will be executed after each command is sent to the parser,
// If an error is detected reading from file(s) will be stopped and the
// status_code reported, if not a "ok" status reply will not be output.
static status_code_t trap_status_messages (status_code_t status)
{
gc_state.last_error = status;
if(rd_streams == NULL)
status = status_message(status);
else if(!(status == Status_OK || status == Status_Unhandled)) {
rd_stream_t *stream;
if((stream = rd_streams)) {
while(stream->next && (stream = stream->next));
if(stream->status_handler)
status = stream->status_handler(status);
}
}
return status;
}
static void onReportHandlersInit (void)
{
if(on_report_handlers_init)
on_report_handlers_init();
status_message = grbl.report.status_message;
grbl.report.status_message = trap_status_messages;
}
void stream_set_type (stream_type_t type, vfs_file_t *file)
{
hal.stream.type = type;
if(!(hal.stream.file = file))
gc_state.file_stream = false;
}
bool stream_is_file (void)
{
return hal.stream.type == StreamType_File;
}
vfs_file_t *stream_redirect_read (char *filename, status_message_ptr status_handler, on_file_end_ptr eof_handler)
{
static bool error_handler_ok = false;
vfs_file_t *file;
if((file = vfs_open(filename, "r"))) {
rd_stream_t *rd_stream, *streams = rd_streams;
if((rd_stream = malloc(sizeof(rd_stream_t)))) {
rd_stream->file = hal.stream.file;
rd_stream->type = hal.stream.type;
rd_stream->file_new = file;
rd_stream->read = hal.stream.read;
rd_stream->eof_handler = eof_handler;
rd_stream->status_handler = status_handler;
rd_stream->next = NULL;
hal.stream.read = stream_read_file;
stream_set_type(StreamType_File, file);
if(streams == NULL)
rd_streams = rd_stream;
else do {
if(streams->next == NULL) {
streams->next = rd_stream;
break;
}
} while((streams = streams->next));
} else {
vfs_close(file);
file = NULL;
}
}
if(file && !error_handler_ok) {
error_handler_ok = true;
on_report_handlers_init = grbl.on_report_handlers_init;
grbl.on_report_handlers_init = onReportHandlersInit;
status_message = grbl.report.status_message;
grbl.report.status_message = trap_status_messages;
on_file_end = grbl.on_file_end;
grbl.on_file_end = onFileEnd;
}
return file;
}
void stream_redirect_close (vfs_file_t *file)
{
rd_stream_t *stream = rd_streams, *prev_stream = NULL;
if(stream) do {
if(stream->file_new == file) {
vfs_close(file);
hal.stream.read = stream->read;
stream_set_type(stream->type, stream->file);
if(stream == rd_streams)
rd_streams = stream->next;
else
prev_stream->next = stream->next;
free(stream);
break;
}
prev_stream = stream;
} while((stream = stream->next));
}
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