/* GStreamer RTMP Library * Copyright (C) 2014 David Schleef * Copyright (C) 2017 Make.TV, Inc. * Contact: Jan Alexander Steffens (heftig) * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, * Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "amf.h" #include "rtmputils.h" #include #include #define MAX_RECURSION_DEPTH 16 GST_DEBUG_CATEGORY_STATIC (gst_rtmp_amf_debug_category); #define GST_CAT_DEFAULT gst_rtmp_amf_debug_category static GBytes *empty_bytes; static void init_static (void) { static gsize done = 0; if (g_once_init_enter (&done)) { empty_bytes = g_bytes_new_static ("", 0); GST_DEBUG_CATEGORY_INIT (gst_rtmp_amf_debug_category, "rtmpamf", 0, "debug category for the amf parser"); g_once_init_leave (&done, 1); } } const gchar * gst_amf_type_get_nick (GstAmfType type) { switch (type) { case GST_AMF_TYPE_INVALID: return "invalid"; case GST_AMF_TYPE_NUMBER: return "number"; case GST_AMF_TYPE_BOOLEAN: return "boolean"; case GST_AMF_TYPE_STRING: return "string"; case GST_AMF_TYPE_OBJECT: return "object"; case GST_AMF_TYPE_MOVIECLIP: return "movieclip"; case GST_AMF_TYPE_NULL: return "null"; case GST_AMF_TYPE_UNDEFINED: return "undefined"; case GST_AMF_TYPE_REFERENCE: return "reference"; case GST_AMF_TYPE_ECMA_ARRAY: return "ecma-array"; case GST_AMF_TYPE_OBJECT_END: return "object-end"; case GST_AMF_TYPE_STRICT_ARRAY: return "strict-array"; case GST_AMF_TYPE_DATE: return "date"; case GST_AMF_TYPE_LONG_STRING: return "long-string"; case GST_AMF_TYPE_UNSUPPORTED: return "unsupported"; case GST_AMF_TYPE_RECORDSET: return "recordset"; case GST_AMF_TYPE_XML_DOCUMENT: return "xml-document"; case GST_AMF_TYPE_TYPED_OBJECT: return "typed-object"; case GST_AMF_TYPE_AVMPLUS_OBJECT: return "avmplus-object"; default: return "unknown"; } } typedef struct { gchar *name; GstAmfNode *value; } AmfObjectField; static void amf_object_field_clear (gpointer ptr) { AmfObjectField *field = ptr; g_clear_pointer (&field->name, g_free); g_clear_pointer (&field->value, gst_amf_node_free); } struct _GstAmfNode { GstAmfType type; union { gint v_int; gdouble v_double; GBytes *v_bytes; GArray *v_fields; GPtrArray *v_elements; } value; }; static inline const AmfObjectField * get_field (const GstAmfNode * node, guint index) { return &g_array_index (node->value.v_fields, const AmfObjectField, index); } static inline void append_field (GstAmfNode * node, gchar * name, GstAmfNode * value) { AmfObjectField field = { .name = name, .value = value, }; g_array_append_val (node->value.v_fields, field); } static inline const GstAmfNode * get_element (const GstAmfNode * node, guint index) { return g_ptr_array_index (node->value.v_elements, index); } static inline void append_element (GstAmfNode * node, GstAmfNode * value) { g_ptr_array_add (node->value.v_elements, value); } static GstAmfNode * node_new (GstAmfType type) { GstAmfNode *node; init_static (); node = g_malloc0 (sizeof *node); node->type = type; switch (type) { case GST_AMF_TYPE_STRING: case GST_AMF_TYPE_LONG_STRING: node->value.v_bytes = g_bytes_ref (empty_bytes); break; case GST_AMF_TYPE_OBJECT: case GST_AMF_TYPE_ECMA_ARRAY: node->value.v_fields = g_array_new (FALSE, FALSE, sizeof (AmfObjectField)); g_array_set_clear_func (node->value.v_fields, amf_object_field_clear); break; case GST_AMF_TYPE_STRICT_ARRAY: node->value.v_elements = g_ptr_array_new_with_free_func (gst_amf_node_free); break; default: break; } return node; } GstAmfNode * gst_amf_node_new_null (void) { return node_new (GST_AMF_TYPE_NULL); } GstAmfNode * gst_amf_node_new_boolean (gboolean value) { GstAmfNode *node = node_new (GST_AMF_TYPE_BOOLEAN); node->value.v_int = ! !value; return node; } GstAmfNode * gst_amf_node_new_number (gdouble value) { GstAmfNode *node = node_new (GST_AMF_TYPE_NUMBER); node->value.v_double = value; return node; } GstAmfNode * gst_amf_node_new_string (const gchar * value, gssize size) { GstAmfNode *node = node_new (GST_AMF_TYPE_STRING); gst_amf_node_set_string (node, value, size); return node; } GstAmfNode * gst_amf_node_new_take_string (gchar * value, gssize size) { GstAmfNode *node = node_new (GST_AMF_TYPE_STRING); gst_amf_node_take_string (node, value, size); return node; } GstAmfNode * gst_amf_node_new_object (void) { return node_new (GST_AMF_TYPE_OBJECT); } GstAmfNode * gst_amf_node_copy (const GstAmfNode * node) { GstAmfNode *copy; g_return_val_if_fail (node, NULL); copy = node_new (node->type); switch (node->type) { case GST_AMF_TYPE_STRING: case GST_AMF_TYPE_LONG_STRING: copy->value.v_bytes = g_bytes_ref (node->value.v_bytes); break; case GST_AMF_TYPE_OBJECT: case GST_AMF_TYPE_ECMA_ARRAY:{ guint i, len = gst_amf_node_get_num_fields (node); for (i = 0; i < len; i++) { const AmfObjectField *field = get_field (node, i); append_field (copy, g_strdup (field->name), gst_amf_node_copy (field->value)); } break; } case GST_AMF_TYPE_STRICT_ARRAY:{ guint i, len = gst_amf_node_get_num_elements (node); for (i = 0; i < len; i++) { const GstAmfNode *elem = get_element (node, i); append_element (copy, gst_amf_node_copy (elem)); } break; } default: copy->value = node->value; break; } return copy; } void gst_amf_node_free (gpointer ptr) { GstAmfNode *node = ptr; switch (node->type) { case GST_AMF_TYPE_STRING: case GST_AMF_TYPE_LONG_STRING: g_bytes_unref (node->value.v_bytes); break; case GST_AMF_TYPE_OBJECT: case GST_AMF_TYPE_ECMA_ARRAY: g_array_unref (node->value.v_fields); break; case GST_AMF_TYPE_STRICT_ARRAY: g_ptr_array_unref (node->value.v_elements); break; default: break; } g_free (node); } GstAmfType gst_amf_node_get_type (const GstAmfNode * node) { g_return_val_if_fail (node, GST_AMF_TYPE_INVALID); return node->type; } gboolean gst_amf_node_get_boolean (const GstAmfNode * node) { g_return_val_if_fail (gst_amf_node_get_type (node) == GST_AMF_TYPE_BOOLEAN, FALSE); return node->value.v_int; } gdouble gst_amf_node_get_number (const GstAmfNode * node) { g_return_val_if_fail (gst_amf_node_get_type (node) == GST_AMF_TYPE_NUMBER, FALSE); return node->value.v_double; } gchar * gst_amf_node_get_string (const GstAmfNode * node, gsize * out_size) { gsize size; const gchar *data = gst_amf_node_peek_string (node, &size); if (out_size) { *out_size = size; return g_memdup2 (data, size); } else { return g_strndup (data, size); } } const gchar * gst_amf_node_peek_string (const GstAmfNode * node, gsize * size) { GstAmfType type = gst_amf_node_get_type (node); g_return_val_if_fail (type == GST_AMF_TYPE_STRING || type == GST_AMF_TYPE_LONG_STRING, FALSE); return g_bytes_get_data (node->value.v_bytes, size); } const GstAmfNode * gst_amf_node_get_field (const GstAmfNode * node, const gchar * name) { guint i, len = gst_amf_node_get_num_fields (node); g_return_val_if_fail (name, NULL); for (i = 0; i < len; i++) { const AmfObjectField *field = get_field (node, i); if (strcmp (field->name, name) == 0) { return field->value; } } return NULL; } const GstAmfNode * gst_amf_node_get_field_by_index (const GstAmfNode * node, guint index) { guint len = gst_amf_node_get_num_fields (node); g_return_val_if_fail (index < len, NULL); return get_field (node, index)->value; } guint gst_amf_node_get_num_fields (const GstAmfNode * node) { GstAmfType type = gst_amf_node_get_type (node); g_return_val_if_fail (type == GST_AMF_TYPE_OBJECT || type == GST_AMF_TYPE_ECMA_ARRAY, 0); return node->value.v_fields->len; } const GstAmfNode * gst_amf_node_get_element (const GstAmfNode * node, guint index) { guint len = gst_amf_node_get_num_elements (node); g_return_val_if_fail (index < len, NULL); return get_element (node, index); } guint gst_amf_node_get_num_elements (const GstAmfNode * node) { GstAmfType type = gst_amf_node_get_type (node); g_return_val_if_fail (type == GST_AMF_TYPE_STRICT_ARRAY, 0); return node->value.v_elements->len; } void gst_amf_node_set_boolean (GstAmfNode * node, gboolean value) { g_return_if_fail (node->type == GST_AMF_TYPE_BOOLEAN); node->value.v_int = ! !value; } void gst_amf_node_set_number (GstAmfNode * node, gdouble value) { g_return_if_fail (node->type == GST_AMF_TYPE_NUMBER); node->value.v_double = value; } void gst_amf_node_take_string (GstAmfNode * node, gchar * value, gssize size) { g_return_if_fail (node->type == GST_AMF_TYPE_STRING || node->type == GST_AMF_TYPE_LONG_STRING); g_return_if_fail (value); if (size < 0) { size = strlen (value); } if (size > G_MAXUINT32) { GST_WARNING ("Long string too long (%" G_GSSIZE_FORMAT "), truncating", size); size = G_MAXUINT32; value[size] = 0; } if (size > G_MAXUINT16) { node->type = GST_AMF_TYPE_LONG_STRING; } g_bytes_unref (node->value.v_bytes); node->value.v_bytes = g_bytes_new_take (value, size); } void gst_amf_node_set_string (GstAmfNode * node, const gchar * value, gssize size) { gchar *copy; g_return_if_fail (value); if (size < 0) { size = strlen (value); copy = g_memdup2 (value, size + 1); } else { copy = g_memdup2 (value, size); } gst_amf_node_take_string (node, copy, size); } void gst_amf_node_append_field (GstAmfNode * node, const gchar * name, const GstAmfNode * value) { gst_amf_node_append_take_field (node, name, gst_amf_node_copy (value)); } void gst_amf_node_append_take_field (GstAmfNode * node, const gchar * name, GstAmfNode * value) { g_return_if_fail (node->type == GST_AMF_TYPE_OBJECT || node->type == GST_AMF_TYPE_ECMA_ARRAY); g_return_if_fail (name); append_field (node, g_strdup (name), value); } void gst_amf_node_append_field_number (GstAmfNode * node, const gchar * name, gdouble value) { gst_amf_node_append_take_field (node, name, gst_amf_node_new_number (value)); } void gst_amf_node_append_field_boolean (GstAmfNode * node, const gchar * name, gboolean value) { gst_amf_node_append_take_field (node, name, gst_amf_node_new_boolean (value)); } void gst_amf_node_append_field_string (GstAmfNode * node, const gchar * name, const gchar * value, gssize size) { gst_amf_node_append_take_field (node, name, gst_amf_node_new_string (value, size)); } void gst_amf_node_append_field_take_string (GstAmfNode * node, const gchar * name, gchar * value, gssize size) { gst_amf_node_append_take_field (node, name, gst_amf_node_new_take_string (value, size)); } /* Dumper *******************************************************************/ static inline void dump_indent (GString * string, gint indent, guint depth) { if (indent < 0) { g_string_append_c (string, ' '); } else { guint i; g_string_append_c (string, '\n'); for (i = 0; i < indent + depth * 2; i++) { g_string_append_c (string, ' '); } } } static inline void dump_bytes (GString * string, GBytes * value) { gsize size; const gchar *data = g_bytes_get_data (value, &size); gst_rtmp_string_print_escaped (string, data, size); } static void dump_node (GString * string, const GstAmfNode * node, gint indent, guint recursion_depth) { const gchar *object_delim = "{}"; switch (gst_amf_node_get_type (node)) { case GST_AMF_TYPE_NUMBER: g_string_append_printf (string, "%g", node->value.v_double); break; case GST_AMF_TYPE_BOOLEAN: g_string_append (string, node->value.v_int ? "True" : "False"); break; case GST_AMF_TYPE_LONG_STRING: g_string_append_c (string, 'L'); /* no break */ case GST_AMF_TYPE_STRING: dump_bytes (string, node->value.v_bytes); break; case GST_AMF_TYPE_ECMA_ARRAY: object_delim = "[]"; /* no break */ case GST_AMF_TYPE_OBJECT:{ guint i, len = gst_amf_node_get_num_fields (node); g_string_append_c (string, object_delim[0]); if (len) { for (i = 0; i < len; i++) { const AmfObjectField *field = get_field (node, i); dump_indent (string, indent, recursion_depth + 1); gst_rtmp_string_print_escaped (string, field->name, -1); g_string_append_c (string, ':'); g_string_append_c (string, ' '); dump_node (string, field->value, indent, recursion_depth + 1); if (i < len - 1) { g_string_append_c (string, ','); } } dump_indent (string, indent, recursion_depth); } g_string_append_c (string, object_delim[1]); break; } case GST_AMF_TYPE_STRICT_ARRAY:{ guint i, len = gst_amf_node_get_num_elements (node); g_string_append_c (string, '('); if (len) { for (i = 0; i < len; i++) { const GstAmfNode *value = get_element (node, i); dump_indent (string, indent, recursion_depth + 1); dump_node (string, value, indent, recursion_depth + 1); if (i < len - 1) { g_string_append_c (string, ','); } } dump_indent (string, indent, recursion_depth); } g_string_append_c (string, ')'); break; } default: g_string_append (string, gst_amf_type_get_nick (node->type)); break; } } void gst_amf_node_dump (const GstAmfNode * node, gint indent, GString * string) { dump_node (string, node, indent, 0); } static void dump_argument (const GstAmfNode * node, guint n) { if (G_UNLIKELY (GST_LEVEL_LOG <= _gst_debug_min) && GST_LEVEL_LOG <= gst_debug_category_get_threshold (GST_CAT_DEFAULT)) { GString *string = g_string_new (NULL); gst_amf_node_dump (node, -1, string); GST_LOG ("Argument #%u: %s", n, string->str); g_string_free (string, TRUE); } } /* Parser *******************************************************************/ typedef struct { const guint8 *data; gsize size, offset; guint8 recursion_depth; } AmfParser; static GstAmfNode *parse_value (AmfParser * parser); static inline guint8 parse_u8 (AmfParser * parser) { guint8 value; value = parser->data[parser->offset]; parser->offset += sizeof value; return value; } static inline guint16 parse_u16 (AmfParser * parser) { guint16 value; value = GST_READ_UINT16_BE (parser->data + parser->offset); parser->offset += sizeof value; return value; } static inline guint32 parse_u32 (AmfParser * parser) { guint32 value; value = GST_READ_UINT32_BE (parser->data + parser->offset); parser->offset += sizeof value; return value; } static gdouble parse_number (AmfParser * parser) { gdouble value; if (sizeof value > parser->size - parser->offset) { GST_ERROR ("number too long"); return 0.0; } value = GST_READ_DOUBLE_BE (parser->data + parser->offset); parser->offset += sizeof value; return value; } static gboolean parse_boolean (AmfParser * parser) { guint8 value; if (sizeof value > parser->size - parser->offset) { GST_ERROR ("boolean too long"); return FALSE; } value = parse_u8 (parser); return ! !value; } static inline GBytes * read_string (AmfParser * parser, gsize size) { gchar *string; if (size == 0) { return g_bytes_ref (empty_bytes); } if (size > parser->size - parser->offset) { GST_ERROR ("string too long (%" G_GSIZE_FORMAT ")", size); return NULL; } /* Null-terminate all incoming strings for internal safety */ if (parser->data[parser->offset + size - 1] == 0) { string = g_malloc (size); } else { string = g_malloc (size + 1); string[size] = 0; } memcpy (string, parser->data + parser->offset, size); parser->offset += size; return g_bytes_new_take (string, size); } static GBytes * parse_string (AmfParser * parser) { guint16 size; if (sizeof size > parser->size - parser->offset) { GST_ERROR ("string size too long"); return NULL; } size = parse_u16 (parser); return read_string (parser, size); } static GBytes * parse_long_string (AmfParser * parser) { guint32 size; if (sizeof size > parser->size - parser->offset) { GST_ERROR ("long string size too long"); return NULL; } size = parse_u32 (parser); return read_string (parser, size); } static guint32 parse_object (AmfParser * parser, GstAmfNode * node) { guint32 n_fields = 0; while (TRUE) { GBytes *name; gsize size; GstAmfNode *value; name = parse_string (parser); if (!name) { GST_ERROR ("object too long"); break; } value = parse_value (parser); if (!value) { GST_ERROR ("object too long"); g_bytes_unref (name); break; } if (gst_amf_node_get_type (value) == GST_AMF_TYPE_OBJECT_END) { g_bytes_unref (name); gst_amf_node_free (value); break; } if (g_bytes_get_size (name) == 0) { GST_ERROR ("empty object field name"); g_bytes_unref (name); gst_amf_node_free (value); break; } append_field (node, g_bytes_unref_to_data (name, &size), value); n_fields++; }; return n_fields; } static void parse_ecma_array (AmfParser * parser, GstAmfNode * node) { guint32 n_elements, n_read; if (sizeof n_elements > parser->size - parser->offset) { GST_ERROR ("array size too long"); return; } n_elements = parse_u32 (parser); /* FIXME This is weird. The one time I've seen this, the encoded value * was 0, but the number of elements was 1. */ if (n_elements == 0) { GST_DEBUG ("Interpreting ECMA array length 0 as 1"); n_elements = 1; } n_read = parse_object (parser, node); if (n_read != n_elements) { GST_WARNING ("Expected array with %" G_GUINT32_FORMAT " elements," " but read %" G_GUINT32_FORMAT, n_elements, n_read); } } static void parse_strict_array (AmfParser * parser, GstAmfNode * node) { GstAmfNode *value = NULL; guint32 n_elements, i; if (sizeof n_elements > parser->size - parser->offset) { GST_ERROR ("array size too long"); return; } n_elements = parse_u32 (parser); for (i = 0; i < n_elements; i++) { value = parse_value (parser); if (!value) { GST_ERROR ("array too long"); break; } append_element (node, value); } } static GstAmfNode * parse_value (AmfParser * parser) { GstAmfNode *node = NULL; GstAmfType type; if (1 > parser->size - parser->offset) { GST_ERROR ("value too long"); return NULL; } type = parse_u8 (parser); node = node_new (type); GST_TRACE ("parsing AMF type %d (%s)", type, gst_amf_type_get_nick (type)); parser->recursion_depth++; if (parser->recursion_depth > MAX_RECURSION_DEPTH) { GST_ERROR ("maximum recursion depth %d reached", parser->recursion_depth); return node; } switch (type) { case GST_AMF_TYPE_NUMBER: node->value.v_double = parse_number (parser); break; case GST_AMF_TYPE_BOOLEAN: node->value.v_int = parse_boolean (parser); break; case GST_AMF_TYPE_STRING: node->value.v_bytes = parse_string (parser); break; case GST_AMF_TYPE_LONG_STRING: node->value.v_bytes = parse_long_string (parser); break; case GST_AMF_TYPE_OBJECT: parse_object (parser, node); break; case GST_AMF_TYPE_ECMA_ARRAY: parse_ecma_array (parser, node); break; case GST_AMF_TYPE_STRICT_ARRAY: parse_strict_array (parser, node); break; case GST_AMF_TYPE_NULL: case GST_AMF_TYPE_UNDEFINED: case GST_AMF_TYPE_OBJECT_END: case GST_AMF_TYPE_UNSUPPORTED: break; default: GST_ERROR ("unimplemented AMF type %d (%s)", type, gst_amf_type_get_nick (type)); break; } parser->recursion_depth--; return node; } GstAmfNode * gst_amf_node_parse (const guint8 * data, gsize size, guint8 ** endptr) { AmfParser parser = { .data = data, .size = size, }; GstAmfNode *node; g_return_val_if_fail (data, NULL); g_return_val_if_fail (size, NULL); init_static (); GST_TRACE ("Starting parse with %" G_GSIZE_FORMAT " bytes", parser.size); node = parse_value (&parser); if (gst_amf_node_get_type (node) == GST_AMF_TYPE_INVALID) { GST_ERROR ("invalid value"); goto out; } if (G_UNLIKELY (GST_LEVEL_LOG <= _gst_debug_min) && GST_LEVEL_LOG <= gst_debug_category_get_threshold (GST_CAT_DEFAULT)) { GString *string = g_string_new (NULL); gst_amf_node_dump (node, -1, string); GST_LOG ("Parsed value: %s", string->str); g_string_free (string, TRUE); } GST_TRACE ("Done parsing; consumed %" G_GSIZE_FORMAT " bytes and left %" G_GSIZE_FORMAT " bytes", parser.offset, parser.size - parser.offset); out: if (endptr) { *endptr = (guint8 *) parser.data + parser.offset; } return node; } GPtrArray * gst_amf_parse_command (const guint8 * data, gsize size, gdouble * transaction_id, gchar ** command_name) { AmfParser parser = { .data = data, .size = size, }; GstAmfNode *node1 = NULL, *node2 = NULL; GPtrArray *args = NULL; g_return_val_if_fail (data, NULL); g_return_val_if_fail (size, NULL); init_static (); GST_TRACE ("Starting parse with %" G_GSIZE_FORMAT " bytes", parser.size); node1 = parse_value (&parser); if (gst_amf_node_get_type (node1) != GST_AMF_TYPE_STRING) { GST_ERROR ("no command name"); goto out; } node2 = parse_value (&parser); if (gst_amf_node_get_type (node2) != GST_AMF_TYPE_NUMBER) { GST_ERROR ("no transaction ID"); goto out; } GST_LOG ("Parsing command '%s', transid %.0f", gst_amf_node_peek_string (node1, NULL), gst_amf_node_get_number (node2)); args = g_ptr_array_new_with_free_func (gst_amf_node_free); while (parser.offset < parser.size) { GstAmfNode *node = parse_value (&parser); if (!node) { break; } dump_argument (node, args->len); g_ptr_array_add (args, node); } GST_TRACE ("Done parsing; consumed %" G_GSIZE_FORMAT " bytes and left %" G_GSIZE_FORMAT " bytes", parser.offset, parser.size - parser.offset); if (args->len == 0) { GST_ERROR ("no command arguments"); g_clear_pointer (&args, g_ptr_array_unref); goto out; } if (command_name) { *command_name = gst_amf_node_get_string (node1, NULL); } if (transaction_id) { *transaction_id = gst_amf_node_get_number (node2); } out: g_clear_pointer (&node1, gst_amf_node_free); g_clear_pointer (&node2, gst_amf_node_free); return args; } /* Serializer ***************************************************************/ static void serialize_value (GByteArray * array, const GstAmfNode * node); static inline void serialize_u8 (GByteArray * array, guint8 value) { g_byte_array_append (array, (guint8 *) & value, sizeof value); } static inline void serialize_u16 (GByteArray * array, guint16 value) { value = GUINT16_TO_BE (value); g_byte_array_append (array, (guint8 *) & value, sizeof value); } static inline void serialize_u32 (GByteArray * array, guint32 value) { value = GUINT32_TO_BE (value); g_byte_array_append (array, (guint8 *) & value, sizeof value); } static inline void serialize_number (GByteArray * array, gdouble value) { value = GDOUBLE_TO_BE (value); g_byte_array_append (array, (guint8 *) & value, sizeof value); } static inline void serialize_boolean (GByteArray * array, gboolean value) { serialize_u8 (array, value); } static void serialize_string (GByteArray * array, const gchar * string, gssize size) { if (size < 0) { size = strlen (string); } if (size > G_MAXUINT16) { GST_WARNING ("String too long: %" G_GSSIZE_FORMAT, size); size = G_MAXUINT16; } serialize_u16 (array, size); g_byte_array_append (array, (guint8 *) string, size); } static void serialize_long_string (GByteArray * array, const gchar * string, gssize size) { if (size < 0) { size = strlen (string); } if (size > G_MAXUINT32) { GST_WARNING ("Long string too long: %" G_GSSIZE_FORMAT, size); size = G_MAXUINT32; } serialize_u32 (array, size); g_byte_array_append (array, (guint8 *) string, size); } static inline void serialize_bytes (GByteArray * array, GBytes * bytes, gboolean long_string) { gsize size; const gchar *data = g_bytes_get_data (bytes, &size); if (long_string) { serialize_long_string (array, data, size); } else { serialize_string (array, data, size); } } static void serialize_object (GByteArray * array, const GstAmfNode * node) { guint i; for (i = 0; i < gst_amf_node_get_num_fields (node); i++) { const AmfObjectField *field = get_field (node, i); serialize_string (array, field->name, -1); serialize_value (array, field->value); } serialize_u16 (array, 0); serialize_u8 (array, GST_AMF_TYPE_OBJECT_END); } static void serialize_ecma_array (GByteArray * array, const GstAmfNode * node) { /* FIXME: Shouldn't this be the field count? */ serialize_u32 (array, 0); serialize_object (array, node); } static void serialize_value (GByteArray * array, const GstAmfNode * node) { serialize_u8 (array, node->type); switch (node->type) { case GST_AMF_TYPE_NUMBER: serialize_number (array, node->value.v_double); break; case GST_AMF_TYPE_BOOLEAN: serialize_boolean (array, node->value.v_int); break; case GST_AMF_TYPE_STRING: serialize_bytes (array, node->value.v_bytes, FALSE); break; case GST_AMF_TYPE_LONG_STRING: serialize_bytes (array, node->value.v_bytes, TRUE); break; case GST_AMF_TYPE_OBJECT: serialize_object (array, node); break; case GST_AMF_TYPE_ECMA_ARRAY: serialize_ecma_array (array, node); break; case GST_AMF_TYPE_NULL: case GST_AMF_TYPE_UNDEFINED: case GST_AMF_TYPE_OBJECT_END: case GST_AMF_TYPE_UNSUPPORTED: break; default: GST_ERROR ("unimplemented AMF type %d (%s)", node->type, gst_amf_type_get_nick (node->type)); break; } } GBytes * gst_amf_node_serialize (const GstAmfNode * node) { GByteArray *array = g_byte_array_new (); g_return_val_if_fail (node, NULL); init_static (); if (G_UNLIKELY (GST_LEVEL_LOG <= _gst_debug_min) && GST_LEVEL_LOG <= gst_debug_category_get_threshold (GST_CAT_DEFAULT)) { GString *string = g_string_new (NULL); gst_amf_node_dump (node, -1, string); GST_LOG ("Serializing value: %s", string->str); g_string_free (string, TRUE); } serialize_value (array, node); GST_TRACE ("Done serializing; produced %u bytes", array->len); return g_byte_array_free_to_bytes (array); } GBytes * gst_amf_serialize_command (gdouble transaction_id, const gchar * command_name, const GstAmfNode * argument, ...) { va_list ap; GBytes *ret; va_start (ap, argument); ret = gst_amf_serialize_command_valist (transaction_id, command_name, argument, ap); va_end (ap); return ret; } GBytes * gst_amf_serialize_command_valist (gdouble transaction_id, const gchar * command_name, const GstAmfNode * argument, va_list var_args) { GByteArray *array = g_byte_array_new (); guint i = 0; g_return_val_if_fail (command_name, NULL); g_return_val_if_fail (argument, NULL); init_static (); GST_LOG ("Serializing command '%s', transid %.0f", command_name, transaction_id); serialize_u8 (array, GST_AMF_TYPE_STRING); serialize_string (array, command_name, -1); serialize_u8 (array, GST_AMF_TYPE_NUMBER); serialize_number (array, transaction_id); while (argument) { serialize_value (array, argument); dump_argument (argument, i++); argument = va_arg (var_args, const GstAmfNode *); } GST_TRACE ("Done serializing; consumed %u args and produced %u bytes", i, array->len); return g_byte_array_free_to_bytes (array); }