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gex-core/framework/unit_registry.c

570 lines
14 KiB

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//
// Created by MightyPork on 2017/11/26.
//
#include <utils/hexdump.h>
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#include "platform.h"
#include "utils/avrlibc.h"
#include "comm/messages.h"
#include "utils/ini_writer.h"
#include "utils/str_utils.h"
#include "utils/malloc_safe.h"
#include "unit_registry.h"
#include "resources.h"
// ** Unit repository **
typedef struct ureg_entry UregEntry;
typedef struct ulist_entry UlistEntry;
struct ureg_entry {
const UnitDriver *driver;
UregEntry *next;
};
UregEntry *ureg_head = NULL;
UregEntry *ureg_tail = NULL;
// ---
struct ulist_entry {
Unit unit;
UlistEntry *next;
};
UlistEntry *ulist_head = NULL;
UlistEntry *ulist_tail = NULL;
// ---
void ureg_add_type(const UnitDriver *driver)
{
assert_param(driver != NULL);
assert_param(driver->description != NULL);
assert_param(driver->name != NULL);
assert_param(driver->preInit != NULL);
assert_param(driver->cfgLoadBinary != NULL);
assert_param(driver->cfgLoadIni != NULL);
assert_param(driver->cfgWriteBinary != NULL);
assert_param(driver->cfgWriteIni != NULL);
assert_param(driver->init != NULL);
assert_param(driver->deInit != NULL);
assert_param(driver->handleRequest != NULL);
UregEntry *re = malloc_s(sizeof(UregEntry));
re->driver = driver;
re->next = NULL;
if (ureg_head == NULL) {
ureg_head = re;
} else {
ureg_tail->next = re;
}
ureg_tail = re;
}
/** Free unit in a list entry (do not free the list entry itself!) */
static void free_le_unit(UlistEntry *le)
{
Unit *const pUnit = &le->unit;
pUnit->driver->deInit(pUnit);
// Name is not expected to be freed by the deInit() function
// - was alloc'd in the settings load loop
if (isDynAlloc(pUnit->name)) {
dbg("Freeing allocated name");
free((void *) pUnit->name);
pUnit->name = NULL;
}
}
/** Remove a unit and update links appropriately */
static void remove_unit_from_list(UlistEntry *restrict le, UlistEntry *restrict parent)
{
if (parent == NULL) {
ulist_head = le->next;
} else {
parent->next = le->next;
}
// Fix tail potentially pointing to the removed entry
if (ulist_tail == le) {
ulist_tail = parent;
}
}
/** Add unit to the list, updating references as needed */
static void add_unit_to_list(UlistEntry *le)
{
// Attach to the list
if (ulist_head == NULL) {
ulist_head = le;
} else {
ulist_tail->next = le;
}
ulist_tail = le;
}
/** Find a unit in the list */
static UlistEntry *find_unit(const Unit *unit, UlistEntry **pParent)
{
UlistEntry *le = ulist_head;
UlistEntry *parent = NULL;
while (le != NULL) {
if (&le->unit == unit) {
if (pParent != NULL) {
*pParent = parent;
}
return le;
}
parent = le;
le = le->next;
}
dbg("!! Unit was not found in registry");
*pParent = NULL;
return NULL;
}
// create a unit instance (not yet loading or initing - just pre-init)
Unit *ureg_instantiate(const char *driver_name)
{
bool suc = true;
// Find type in the repository
UregEntry *re = ureg_head;
while (re != NULL) {
if (streq(re->driver->name, driver_name)) {
// Create new list entry
UlistEntry *le = malloc_ck(sizeof(UlistEntry), &suc);
CHECK_SUC();
le->next = NULL;
Unit *pUnit = &le->unit;
pUnit->driver = re->driver;
pUnit->status = E_LOADING;
pUnit->data = NULL;
pUnit->callsign = 0;
suc = pUnit->driver->preInit(pUnit);
if (!suc) {
// tear down what we already allocated and abort
// If it failed this early, the only plausible explanation is failed malloc,
// in which case the data structure is not populated and keeping the
// broken unit doesn't serve any purpose. Just ditch it...
dbg("!! Unit type %s failed to pre-init!", driver_name);
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clean_failed_unit(pUnit);
free(le);
return NULL;
}
add_unit_to_list(le);
return pUnit;
}
re = re->next;
}
dbg("!! Did not find unit type %s", driver_name);
return NULL;
}
// remove before init()
void ureg_clean_failed(Unit *unit)
{
dbg("Removing failed unit from registry...");
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UlistEntry *le;
UlistEntry *parent;
le = find_unit(unit, &parent);
if (!le) return;
clean_failed_unit(&le->unit);
remove_unit_from_list(le, parent);
free(le);
}
// remove after successful init()
void ureg_remove_unit(Unit *unit)
{
dbg("Cleaning & removing unit from registry...");
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UlistEntry *le;
UlistEntry *parent;
le = find_unit(unit, &parent);
if (!le) return;
free_le_unit(le);
remove_unit_from_list(le, parent);
free(le);
}
void ureg_save_units(PayloadBuilder *pb)
{
assert_param(pb->ok);
uint32_t count = ureg_get_num_units();
pb_char(pb, 'U');
pb_u16(pb, (uint16_t) count);
UlistEntry *le = ulist_head;
while (le != NULL) {
Unit *const pUnit = &le->unit;
pb_char(pb, 'u');
pb_string(pb, pUnit->driver->name);
pb_string(pb, pUnit->name);
pb_u8(pb, pUnit->callsign);
// Now all the rest, unit-specific
pUnit->driver->cfgWriteBinary(pUnit, pb);
assert_param(pb->ok);
le = le->next;
}
}
bool ureg_load_units(PayloadParser *pp)
{
bool suc;
char typebuf[16];
assert_param(pp->ok);
if (pp_char(pp) != 'U') return false;
uint16_t unit_count = pp_u16(pp);
dbg("Units to load: %d", (int)unit_count);
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for (uint32_t j = 0; j < unit_count; j++) {
// We're now unpacking a single unit
// Marker that this is a unit - it could get out of alignment if structure changed
if (pp_char(pp) != 'u') return false;
// TYPE
pp_string(pp, typebuf, 16);
Unit *const pUnit = ureg_instantiate(typebuf);
assert_param(pUnit);
// NAME
pp_string(pp, typebuf, 16);
pUnit->name = strdup(typebuf);
assert_param(pUnit->name);
// callsign
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pUnit->callsign = pp_u8(pp);
assert_param(pUnit->callsign != 0);
// Load the rest of the unit
pUnit->driver->cfgLoadBinary(pUnit, pp);
assert_param(pp->ok);
dbg("Adding unit \"%s\" of type %s", pUnit->name, pUnit->driver->name);
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suc = pUnit->driver->init(pUnit); // finalize the load and init the unit
if (pUnit->status == E_LOADING) {
pUnit->status = suc ? E_SUCCESS : E_BAD_CONFIG;
}
}
return pp->ok;
}
void ureg_remove_all_units(void)
{
UlistEntry *le = ulist_head;
UlistEntry *next;
dbg("Removing all units");
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while (le != NULL) {
next = le->next;
free_le_unit(le);
free(le);
le = next;
}
ulist_head = ulist_tail = NULL;
}
bool ureg_instantiate_by_ini(const char *restrict driver_name, const char *restrict names)
{
UregEntry *re = ureg_head;
while (re != NULL) {
if (streq(re->driver->name, driver_name)) {
const char *p = names;
while (p != NULL) { // we use this to indicate we're done
// skip leading whitespace (assume there's never whitespace before a comma)
while (*p == ' ' || *p == '\t') p++;
if (*p == 0) break; // out of characters
const char *delim = strchr(p, ',');
char *name = NULL;
if (delim != NULL) {
// not last
name = strndup(p, delim - p);
p = delim + 1;
} else {
// last name
name = strdup(p);
p = NULL; // quit after this loop ends
}
assert_param(name);
Unit *pUnit = ureg_instantiate(driver_name);
if (!pUnit) {
free(name);
return false;
}
pUnit->name = name;
// don't init yet - leave that for when we're done with the INI
}
return true;
}
re = re->next;
}
dbg("! ureg instantiate - bad type");
return false;
}
bool ureg_read_unit_ini(const char *restrict name,
const char *restrict key,
const char *restrict value)
{
UlistEntry *li = ulist_head;
while (li != NULL) {
if (streq(li->unit.name, name)) {
Unit *const pUnit = &li->unit;
if (streq(key, "callsign")) {
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// handled separately from unit data
pUnit->callsign = (uint8_t) avr_atoi(value);
return true;
} else {
return pUnit->driver->cfgLoadIni(pUnit, key, value);
}
}
li = li->next;
}
return false;
}
bool ureg_finalize_all_init(void)
{
dbg("Finalizing units init...");
bool suc = true;
UlistEntry *li = ulist_head;
uint8_t callsign = 1;
while (li != NULL) {
Unit *const pUnit = &li->unit;
bool s = pUnit->driver->init(pUnit);
if (!s) {
dbg("!!!! error initing unit %s", pUnit->name);
if (pUnit->status == E_LOADING) {
// assume it's a config error if not otherwise specified
pUnit->status = E_BAD_CONFIG;
}
} else {
pUnit->status = E_SUCCESS;
}
// try to assign unique callsigns
if (pUnit->callsign == 0) {
pUnit->callsign = callsign++;
} else {
if (pUnit->callsign >= callsign) {
callsign = (uint8_t) (pUnit->callsign + 1);
}
}
suc &= s;
li = li->next;
}
return suc;
}
static void export_unit_do(UlistEntry *li, IniWriter *iw)
{
Unit *const pUnit = &li->unit;
iw_section(iw, "%s:%s", pUnit->driver->name, pUnit->name);
if (pUnit->status != E_SUCCESS) {
iw_comment(iw, "!!! %s", error_get_string(pUnit->status));
}
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iw_newline(iw);
iw_comment(iw, "Unit address 1-255");
iw_entry(iw, "callsign", "%d", pUnit->callsign);
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pUnit->driver->cfgWriteIni(pUnit, iw);
iw_newline(iw);
}
// unit to INI
void ureg_export_unit(uint32_t index, IniWriter *iw)
{
UlistEntry *li = ulist_head;
uint32_t count = 0;
while (li != NULL) {
if (count == index) {
export_unit_do(li, iw);
return;
}
count++;
li = li->next;
}
}
// unit to INI
void ureg_export_combined(IniWriter *iw)
{
UlistEntry *li;
UregEntry *re;
// Unit list
iw_section(iw, "UNITS");
iw_comment(iw, "Create units by adding their names next to a type (e.g. PIN=A,B),");
iw_comment(iw, "remove the same way. Reload to update the unit sections below.");
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// This could certainly be done in some more efficient way ...
re = ureg_head;
while (re != NULL) {
// Should produce something like:
// # Description string here
// TYPE_ID=NAME1,NAME2
//
const UnitDriver *const pDriver = re->driver;
iw_newline(iw);
iw_comment(iw, pDriver->description);
iw_string(iw, pDriver->name);
iw_string(iw, "=");
li = ulist_head;
uint32_t count = 0;
while (li != NULL) {
Unit *const pUnit = &li->unit;
if (streq(pUnit->driver->name, pDriver->name)) {
if (count > 0) iw_string(iw, ",");
iw_string(iw, pUnit->name);
count++;
}
li = li->next;
}
re = re->next;
iw_newline(iw);
}
iw_newline(iw); // space before the unit sections
// Now we dump all the units
li = ulist_head;
while (li != NULL) {
export_unit_do(li, iw);
li = li->next;
}
}
// count units
uint32_t ureg_get_num_units(void)
{
// TODO keep this in a variable
UlistEntry *li = ulist_head;
uint32_t count = 0;
while (li != NULL) {
count++;
li = li->next;
}
return count;
}
/** Deliver message to it's destination unit */
void ureg_deliver_unit_request(TF_Msg *msg)
{
PayloadParser pp = pp_start(msg->data, msg->len, NULL);
uint8_t callsign = pp_u8(&pp);
uint8_t command = pp_u8(&pp);
// highest bit indicates user wants an extra confirmation on success
bool confirmed = (bool) (command & 0x80);
command &= 0x7F;
if (!pp.ok) { dbg("!! pp not OK!"); }
if (callsign == 0 || !pp.ok) {
tf_respond_malformed_cmd(msg->frame_id);
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return;
}
UlistEntry *li = ulist_head;
while (li != NULL) {
Unit *const pUnit = &li->unit;
if (pUnit->callsign == callsign) {
bool ok = pUnit->driver->handleRequest(pUnit, msg->frame_id, command, &pp);
if (ok && confirmed) {
tf_respond_ok(msg->frame_id);
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}
return;
}
li = li->next;
}
// Not found
tf_respond_snprintf(MSG_ERROR, msg->frame_id, "NO UNIT @ %"PRIu8, callsign);
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}
void ureg_report_active_units(TF_ID frame_id)
{
// count bytes needed
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uint32_t msglen = 1; // for the count byte
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UlistEntry *li = ulist_head;
uint32_t count = 0;
while (li != NULL) {
count++;
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msglen += strlen(li->unit.name)+1;
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li = li->next;
}
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msglen += count;
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bool suc = true;
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uint8_t *buff = malloc_ck(msglen, &suc);
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if (!suc) { tf_respond_str(MSG_ERROR, frame_id, "OUT OF MEMORY"); return; }
{
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PayloadBuilder pb = pb_start(buff, msglen, NULL);
pb_u8(&pb, (uint8_t) count); // assume we don't have more than 255 units
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li = ulist_head;
while (li != NULL) {
pb_u8(&pb, li->unit.callsign);
pb_string(&pb, li->unit.name);
li = li->next;
}
assert_param(pb.ok);
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tf_respond_buf(MSG_SUCCESS, frame_id, buff, msglen);
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}
free(buff);
}