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|
/*
* This file is part of the sigrok project.
*
* Copyright (C) 2010 Uwe Hermann <uwe@hermann-uwe.de>
* Copyright (C) 2012 Bert Vermeulen <bert@biot.com>
*
* This program 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.
*
* This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "sigrokdecode.h" /* First, so we avoid a _POSIX_C_SOURCE warning. */
#include "sigrokdecode-internal.h"
#include "config.h"
#include <glib.h>
#include <inttypes.h>
#include <stdlib.h>
/* List of decoder instances. */
static GSList *di_list = NULL;
/* List of frontend callbacks to receive PD output. */
static GSList *callbacks = NULL;
/* lives in decoder.c */
extern GSList *pd_list;
/* lives in module_sigrokdecode.c */
extern PyMODINIT_FUNC PyInit_sigrokdecode(void);
/* lives in type_logic.c */
extern PyTypeObject srd_logic_type;
/**
* Initialize libsigrokdecode.
*
* This initializes the Python interpreter, and creates and initializes
* a "sigrok" Python module with a single put() method.
*
* Then, it searches for sigrok protocol decoder files (*.py) in the
* "decoders" subdirectory of the the sigrok installation directory.
* All decoders that are found are loaded into memory and added to an
* internal list of decoders, which can be queried via srd_list_decoders().
*
* The caller is responsible for calling the clean-up function srd_exit(),
* which will properly shut down libsigrokdecode and free its allocated memory.
*
* Multiple calls to srd_init(), without calling srd_exit() in between,
* are not allowed.
*
* @return SRD_OK upon success, a (negative) error code otherwise.
* Upon Python errors, return SRD_ERR_PYTHON. If the sigrok decoders
* directory cannot be accessed, return SRD_ERR_DECODERS_DIR.
* If not enough memory could be allocated, return SRD_ERR_MALLOC.
*/
int srd_init(void)
{
int ret;
srd_dbg("srd: initializing");
/* Add our own module to the list of built-in modules. */
PyImport_AppendInittab("sigrokdecode", PyInit_sigrokdecode);
/* Initialize the python interpreter. */
Py_Initialize();
if ((ret = set_modulepath()) != SRD_OK) {
Py_Finalize();
return ret;
}
if ((ret = srd_load_all_decoders()) != SRD_OK) {
Py_Finalize();
return ret;
}
return SRD_OK;
}
/**
* Shutdown libsigrokdecode.
*
* This frees all the memory allocated for protocol decoders and shuts down
* the Python interpreter.
*
* This function should only be called if there was a (successful!) invocation
* of srd_init() before. Calling this function multiple times in a row, without
* any successful srd_init() calls in between, is not allowed.
*
* @return SRD_OK upon success, a (negative) error code otherwise.
*/
int srd_exit(void)
{
srd_dbg("srd: exiting");
srd_unload_all_decoders();
g_slist_free(pd_list);
/* Py_Finalize() returns void, any finalization errors are ignored. */
Py_Finalize();
return SRD_OK;
}
/**
* Add search directories for the protocol decoders.
*
* TODO: add path from env var SIGROKDECODE_PATH, config etc
* TODO: Should take directoryname/path as input.
*/
int set_modulepath(void)
{
int ret;
gchar *path, *s;
#ifdef _WIN32
gchar **splitted;
/*
* On Windows/MinGW, Python's sys.path needs entries of the form
* 'C:\\foo\\bar' instead of '/foo/bar'.
*/
splitted = g_strsplit(DECODERS_DIR, "/", 0);
path = g_build_pathv("\\\\", splitted);
g_strfreev(splitted);
#else
path = g_strdup(DECODERS_DIR);
#endif
/* TODO: Prepend instead of appending. */
/* TODO: Sanity check on 'path' (length, escape special chars, ...). */
s = g_strdup_printf("import sys; sys.path.append(r'%s')", path);
ret = PyRun_SimpleString(s);
g_free(path);
g_free(s);
return ret;
}
/**
* Set options in a decoder instance.
*
* @param di Decoder instance.
* @param options A GHashTable of options to set.
*
* Handled options are removed from the hash.
*
* @return SRD_OK upon success, a (negative) error code otherwise.
*/
int srd_instance_set_options(struct srd_decoder_instance *di,
GHashTable *options)
{
PyObject *py_dec_options, *py_dec_optkeys, *py_di_options, *py_optval;
PyObject *py_optlist, *py_classval;
Py_UNICODE *py_ustr;
unsigned long long int val_ull;
int num_optkeys, ret, size, i;
char *key, *value;
if(!PyObject_HasAttrString(di->decoder->py_dec, "options")) {
/* Decoder has no options. */
if (g_hash_table_size(options) == 0) {
/* No options provided. */
return SRD_OK;
} else {
srd_err("Protocol decoder has no options.");
return SRD_ERR_ARG;
}
return SRD_OK;
}
ret = SRD_ERR_PYTHON;
key = NULL;
py_dec_options = py_dec_optkeys = py_di_options = py_optval = NULL;
py_optlist = py_classval = NULL;
py_dec_options = PyObject_GetAttrString(di->decoder->py_dec, "options");
/* All of these are synthesized objects, so they're good. */
py_dec_optkeys = PyDict_Keys(py_dec_options);
num_optkeys = PyList_Size(py_dec_optkeys);
if (!(py_di_options = PyObject_GetAttrString(di->py_instance, "options")))
goto err_out;
for (i = 0; i < num_optkeys; i++) {
/* Get the default class value for this option. */
py_str_as_str(PyList_GetItem(py_dec_optkeys, i), &key);
if (!(py_optlist = PyDict_GetItemString(py_dec_options, key)))
goto err_out;
if (!(py_classval = PyList_GetItem(py_optlist, 1)))
goto err_out;
if (!PyUnicode_Check(py_classval) && !PyLong_Check(py_classval)) {
srd_err("Options of type %s are not yet supported.", Py_TYPE(py_classval)->tp_name);
goto err_out;
}
if ((value = g_hash_table_lookup(options, key))) {
/* An override for this option was provided. */
if (PyUnicode_Check(py_classval)) {
if (!(py_optval = PyUnicode_FromString(value))) {
/* Some UTF-8 encoding error. */
PyErr_Clear();
goto err_out;
}
} else if (PyLong_Check(py_classval)) {
if (!(py_optval = PyLong_FromString(value, NULL, 0))) {
/* ValueError Exception */
PyErr_Clear();
srd_err("Option %s has invalid value %s: expected integer.",
key, value);
goto err_out;
}
}
g_hash_table_remove(options, key);
} else {
/* Use the class default for this option. */
if (PyUnicode_Check(py_classval)) {
/* Make a brand new copy of the string. */
py_ustr = PyUnicode_AS_UNICODE(py_classval);
size = PyUnicode_GET_SIZE(py_classval);
py_optval = PyUnicode_FromUnicode(py_ustr, size);
} else if (PyLong_Check(py_classval)) {
/* Make a brand new copy of the integer. */
val_ull = PyLong_AsUnsignedLongLong(py_classval);
if (val_ull == (unsigned long long)-1) {
/* OverFlowError exception */
PyErr_Clear();
srd_err("Invalid integer value for %s: expected integer.", key);
goto err_out;
}
if (!(py_optval = PyLong_FromUnsignedLongLong(val_ull)))
goto err_out;
}
}
/* If we got here, py_optval holds a known good new reference
* to the instance option to set.
*/
if (PyDict_SetItemString(py_di_options, key, py_optval) == -1)
goto err_out;
}
ret = SRD_OK;
err_out:
Py_XDECREF(py_optlist);
Py_XDECREF(py_di_options);
Py_XDECREF(py_dec_optkeys);
Py_XDECREF(py_dec_options);
if (key)
g_free(key);
if (PyErr_Occurred()) {
srd_dbg("srd: stray exception!");
PyErr_Print();
PyErr_Clear();
}
return ret;
}
static gint compare_probe_id(struct srd_probe *a, char *probe_id)
{
return strcmp(a->id, probe_id);
}
/**
* Set probes in a decoder instance.
*
* @param di Decoder instance.
* @param probes A GHashTable of probes to set. Key is probe name, value is
* the probe number. Samples passed to this instance will be arranged in this
* order.
*
* @return SRD_OK upon success, a (negative) error code otherwise.
*/
int srd_instance_set_probes(struct srd_decoder_instance *di,
GHashTable *new_probes)
{
GList *l;
GSList *sl;
struct srd_probe *p;
int *new_probemap, new_probenum;
char *probe_id;
if (g_hash_table_size(new_probes) == 0)
/* No probes provided. */
return SRD_OK;
if(di->dec_num_probes == 0) {
/* Decoder has no probes. */
srd_err("Protocol decoder %s has no probes to define.",
di->decoder->name);
return SRD_ERR_ARG;
}
new_probemap = NULL;
if (!(new_probemap = g_try_malloc(sizeof(int) * di->dec_num_probes))) {
srd_err("Failed to malloc new probe map.");
return SRD_ERR_MALLOC;
}
for (l = g_hash_table_get_keys(new_probes); l; l = l->next) {
probe_id = l->data;
new_probenum = strtol(g_hash_table_lookup(new_probes, probe_id), NULL, 10);
if (!(sl = g_slist_find_custom(di->decoder->probes, probe_id,
(GCompareFunc)compare_probe_id))) {
/* Fall back on optional probes. */
if (!(sl = g_slist_find_custom(di->decoder->extra_probes,
probe_id, (GCompareFunc)compare_probe_id))) {
srd_err("Protocol decoder %s has no probe '%s'.",
di->decoder->name, probe_id);
g_free(new_probemap);
return SRD_ERR_ARG;
}
}
p = sl->data;
new_probemap[p->order] = new_probenum;
}
g_free(di->dec_probemap);
di->dec_probemap = new_probemap;
return SRD_OK;
}
/**
* Create a new protocol decoder instance.
*
* @param id Decoder 'id' field.
* @param options GHashtable of options which override the defaults set in
* the decoder class.
* @return Pointer to a newly allocated struct srd_decoder_instance, or
* NULL in case of failure.
*/
struct srd_decoder_instance *srd_instance_new(const char *decoder_id,
GHashTable *options)
{
struct srd_decoder *dec;
struct srd_decoder_instance *di;
int i;
char *instance_id;
srd_dbg("srd: creating new %s instance", decoder_id);
if (!(dec = srd_get_decoder_by_id(decoder_id))) {
srd_err("Protocol decoder %s not found.", decoder_id);
return NULL;
}
if (!(di = g_try_malloc0(sizeof(*di)))) {
srd_err("Failed to malloc instance.");
return NULL;
}
instance_id = g_hash_table_lookup(options, "id");
di->decoder = dec;
di->instance_id = g_strdup(instance_id ? instance_id : decoder_id);
g_hash_table_remove(options, "id");
/* Prepare a default probe map, where samples come in the
* order in which the decoder class defined them.
*/
di->dec_num_probes = g_slist_length(di->decoder->probes) +
g_slist_length(di->decoder->extra_probes);
if (di->dec_num_probes) {
if (!(di->dec_probemap = g_try_malloc(sizeof(int) * di->dec_num_probes))) {
srd_err("Failed to malloc probe map.");
g_free(di);
return NULL;
}
for (i = 0; i < di->dec_num_probes; i++)
di->dec_probemap[i] = i;
}
/* Create a new instance of this decoder class. */
if (!(di->py_instance = PyObject_CallObject(dec->py_dec, NULL))) {
if (PyErr_Occurred())
PyErr_Print();
g_free(di->dec_probemap);
g_free(di);
return NULL;
}
if (srd_instance_set_options(di, options) != SRD_OK) {
g_free(di->dec_probemap);
g_free(di);
return NULL;
}
/* Instance takes input from a frontend by default. */
di_list = g_slist_append(di_list, di);
return di;
}
int srd_instance_stack(struct srd_decoder_instance *di_from,
struct srd_decoder_instance *di_to)
{
if (!di_from || !di_to) {
srd_err("Invalid from/to instance pair.");
return SRD_ERR_ARG;
}
if (!g_slist_find(di_list, di_from)) {
srd_err("Unstacked instance not found.");
return SRD_ERR_ARG;
}
/* Remove from the unstacked list. */
di_list = g_slist_remove(di_list, di_to);
/* Stack on top of source di. */
di_from->next_di = g_slist_append(di_from->next_di, di_to);
return SRD_OK;
}
/* TODO: this should go into the PD stack */
struct srd_decoder_instance *srd_instance_find(char *instance_id)
{
GSList *l;
struct srd_decoder_instance *tmp, *di;
di = NULL;
for (l = di_list; l; l = l->next) {
tmp = l->data;
if (!strcmp(tmp->instance_id, instance_id)) {
di = tmp;
break;
}
}
return di;
}
int srd_instance_start(struct srd_decoder_instance *di, PyObject *args)
{
PyObject *py_name, *py_res;
srd_dbg("srd: calling start() method on protocol decoder instance %s",
di->instance_id);
if (!(py_name = PyUnicode_FromString("start"))) {
srd_err("Unable to build python object for 'start'.");
if (PyErr_Occurred())
PyErr_Print();
return SRD_ERR_PYTHON;
}
if (!(py_res = PyObject_CallMethodObjArgs(di->py_instance,
py_name, args, NULL))) {
if (PyErr_Occurred())
PyErr_Print();
return SRD_ERR_PYTHON;
}
Py_DecRef(py_res);
Py_DecRef(py_name);
return SRD_OK;
}
/**
* Run the specified decoder function.
*
* @param start_samplenum The starting sample number for the buffer's sample
* set, relative to the start of capture.
* @param di The decoder instance to call.
* @param inbuf The buffer to decode.
* @param inbuflen Length of the buffer.
*
* @return SRD_OK upon success, a (negative) error code otherwise.
*/
int srd_instance_decode(uint64_t start_samplenum,
struct srd_decoder_instance *di, uint8_t *inbuf, uint64_t inbuflen)
{
PyObject *py_res;
srd_logic *logic;
uint64_t end_samplenum;
srd_dbg("srd: calling decode() on instance %s with %d bytes starting "
"at sample %d", di->instance_id, inbuflen, start_samplenum);
/* Return an error upon unusable input. */
if (di == NULL) {
srd_dbg("srd: empty decoder instance");
return SRD_ERR_ARG;
}
if (inbuf == NULL) {
srd_dbg("srd: NULL buffer pointer");
return SRD_ERR_ARG;
}
if (inbuflen == 0) {
srd_dbg("srd: empty buffer");
return SRD_ERR_ARG;
}
/* Create new srd_logic object. Each iteration around the PD's loop
* will fill one sample into this object.
*/
logic = PyObject_New(srd_logic, &srd_logic_type);
Py_INCREF(logic);
logic->di = di;
logic->start_samplenum = start_samplenum;
logic->itercnt = 0;
logic->inbuf = inbuf;
logic->inbuflen = inbuflen;
logic->sample = PyList_New(2);
Py_INCREF(logic->sample);
Py_IncRef(di->py_instance);
end_samplenum = start_samplenum + inbuflen / di->data_unitsize;
if (!(py_res = PyObject_CallMethod(di->py_instance, "decode",
"KKO", logic->start_samplenum, end_samplenum, logic))) {
if (PyErr_Occurred())
PyErr_Print(); /* Returns void. */
return SRD_ERR_PYTHON; /* TODO: More specific error? */
}
Py_DecRef(py_res);
return SRD_OK;
}
int srd_session_start(int num_probes, int unitsize, uint64_t samplerate)
{
PyObject *args;
GSList *d, *s;
struct srd_decoder_instance *di;
int ret;
srd_dbg("srd: calling start() on all instances with %d probes, "
"unitsize %d samplerate %d", num_probes, unitsize, samplerate);
/* Currently only one item of metadata is passed along to decoders,
* samplerate. This can be extended as needed.
*/
if (!(args = Py_BuildValue("{s:l}", "samplerate", (long)samplerate))) {
srd_err("Unable to build python object for metadata.");
return SRD_ERR_PYTHON;
}
/* Run the start() method on all decoders receiving frontend data. */
for (d = di_list; d; d = d->next) {
di = d->data;
di->data_num_probes = num_probes;
di->data_unitsize = unitsize;
di->data_samplerate = samplerate;
if ((ret = srd_instance_start(di, args) != SRD_OK))
return ret;
/* Run the start() method on all decoders up the stack from this one. */
for (s = di->next_di; s; s = s->next) {
/* These don't need probes, unitsize and samplerate. */
di = s->data;
if ((ret = srd_instance_start(di, args) != SRD_OK))
return ret;
}
}
Py_DecRef(args);
return SRD_OK;
}
/* Feed logic samples to decoder session. */
int srd_session_feed(uint64_t start_samplenum, uint8_t *inbuf, uint64_t inbuflen)
{
GSList *d;
int ret;
srd_dbg("srd: calling decode() on all instances with starting sample "
"number %"PRIu64", %"PRIu64" bytes at 0x%p", start_samplenum,
inbuflen, inbuf);
for (d = di_list; d; d = d->next) {
if ((ret = srd_instance_decode(start_samplenum, d->data, inbuf,
inbuflen)) != SRD_OK)
return ret;
}
return SRD_OK;
}
/* This is the backend function to python sigrokdecode.add() call. */
int pd_add(struct srd_decoder_instance *di, int output_type,
char *proto_id)
{
struct srd_pd_output *pdo;
srd_dbg("srd: instance %s creating new output type %d for %s",
di->instance_id, output_type, proto_id);
if (!(pdo = g_try_malloc(sizeof(struct srd_pd_output))))
return -1;
/* pdo_id is just a simple index, nothing is deleted from this list anyway. */
pdo->pdo_id = g_slist_length(di->pd_output);
pdo->output_type = output_type;
pdo->decoder = di->decoder;
pdo->proto_id = g_strdup(proto_id);
di->pd_output = g_slist_append(di->pd_output, pdo);
return pdo->pdo_id;
}
struct srd_decoder_instance *get_di_by_decobject(void *decobject)
{
GSList *l, *s;
struct srd_decoder_instance *di;
for (l = di_list; l; l = l->next) {
di = l->data;
if (decobject == di->py_instance)
return di;
/* Check decoders stacked on top of this one. */
for (s = di->next_di; s; s = s->next) {
di = s->data;
if (decobject == di->py_instance)
return di;
}
}
return NULL;
}
int srd_register_callback(int output_type, void *cb)
{
struct srd_pd_callback *pd_cb;
srd_dbg("srd: registering new callback for output type %d", output_type);
if (!(pd_cb = g_try_malloc(sizeof(struct srd_pd_callback))))
return SRD_ERR_MALLOC;
pd_cb->output_type = output_type;
pd_cb->callback = cb;
callbacks = g_slist_append(callbacks, pd_cb);
return SRD_OK;
}
void *srd_find_callback(int output_type)
{
GSList *l;
struct srd_pd_callback *pd_cb;
void *(cb);
cb = NULL;
for (l = callbacks; l; l = l->next) {
pd_cb = l->data;
if (pd_cb->output_type == output_type) {
cb = pd_cb->callback;
break;
}
}
return cb;
}
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