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authorAleksander Morgado <aleksander@lanedo.com>2013-07-18 14:45:58 +0200
committerAleksander Morgado <aleksander@lanedo.com>2013-10-25 19:47:18 +0200
commitdf986c076dec33128c2ba202062ce4338cef3ad2 (patch)
treeac8894f7bf0f881c9200c65284e6968c7449f9e1 /src/mm-sms-part.c
parente90ff4155c63735581d0a213fdf3ae53c02bfc26 (diff)
sms: split SMS part handling into common and 3GPP-specific
Diffstat (limited to 'src/mm-sms-part.c')
-rw-r--r--src/mm-sms-part.c1124
1 files changed, 0 insertions, 1124 deletions
diff --git a/src/mm-sms-part.c b/src/mm-sms-part.c
index 77fa3b82..9dde8ed7 100644
--- a/src/mm-sms-part.c
+++ b/src/mm-sms-part.c
@@ -27,294 +27,6 @@
#include "mm-charsets.h"
#include "mm-log.h"
-#define PDU_SIZE 200
-
-#define SMS_TP_MTI_MASK 0x03
-#define SMS_TP_MTI_SMS_DELIVER 0x00
-#define SMS_TP_MTI_SMS_SUBMIT 0x01
-#define SMS_TP_MTI_SMS_STATUS_REPORT 0x02
-
-#define SMS_NUMBER_TYPE_MASK 0x70
-#define SMS_NUMBER_TYPE_UNKNOWN 0x00
-#define SMS_NUMBER_TYPE_INTL 0x10
-#define SMS_NUMBER_TYPE_ALPHA 0x50
-
-#define SMS_NUMBER_PLAN_MASK 0x0f
-#define SMS_NUMBER_PLAN_TELEPHONE 0x01
-
-#define SMS_TP_MMS 0x04
-#define SMS_TP_SRI 0x20
-#define SMS_TP_UDHI 0x40
-#define SMS_TP_RP 0x80
-
-#define SMS_DCS_CODING_MASK 0xec
-#define SMS_DCS_CODING_DEFAULT 0x00
-#define SMS_DCS_CODING_8BIT 0x04
-#define SMS_DCS_CODING_UCS2 0x08
-
-#define SMS_DCS_CLASS_VALID 0x10
-#define SMS_DCS_CLASS_MASK 0x03
-
-#define SMS_TIMESTAMP_LEN 7
-#define SMS_MIN_PDU_LEN (7 + SMS_TIMESTAMP_LEN)
-
-static char sms_bcd_chars[] = "0123456789*#abc\0\0";
-
-static void
-sms_semi_octets_to_bcd_string (char *dest, const guint8 *octets, int num_octets)
-{
- int i;
-
- for (i = 0 ; i < num_octets; i++) {
- *dest++ = sms_bcd_chars[octets[i] & 0xf];
- *dest++ = sms_bcd_chars[(octets[i] >> 4) & 0xf];
- }
- *dest++ = '\0';
-}
-
-static gboolean
-char_to_bcd (char in, guint8 *out)
-{
- guint32 z;
-
- if (isdigit (in)) {
- *out = in - 0x30;
- return TRUE;
- }
-
- for (z = 10; z < 16; z++) {
- if (in == sms_bcd_chars[z]) {
- *out = z;
- return TRUE;
- }
- }
- return FALSE;
-}
-
-static gsize
-sms_string_to_bcd_semi_octets (guint8 *buf, gsize buflen, const char *string)
-{
- guint i;
- guint8 bcd;
- gsize addrlen, slen;
-
- addrlen = slen = strlen (string);
- if (addrlen % 2)
- addrlen++;
- g_return_val_if_fail (buflen >= addrlen, 0);
-
- for (i = 0; i < addrlen; i += 2) {
- if (!char_to_bcd (string[i], &bcd))
- return 0;
- buf[i / 2] = bcd & 0xF;
-
- if (i >= slen - 1) {
- /* PDU address gets padded with 0xF if string is odd length */
- bcd = 0xF;
- } else if (!char_to_bcd (string[i + 1], &bcd))
- return 0;
- buf[i / 2] |= bcd << 4;
- }
- return addrlen / 2;
-}
-
-/* len is in semi-octets */
-static char *
-sms_decode_address (const guint8 *address, int len)
-{
- guint8 addrtype, addrplan;
- char *utf8;
-
- addrtype = address[0] & SMS_NUMBER_TYPE_MASK;
- addrplan = address[0] & SMS_NUMBER_PLAN_MASK;
- address++;
-
- if (addrtype == SMS_NUMBER_TYPE_ALPHA) {
- guint8 *unpacked;
- guint32 unpacked_len;
- unpacked = gsm_unpack (address, (len * 4) / 7, 0, &unpacked_len);
- utf8 = (char *)mm_charset_gsm_unpacked_to_utf8 (unpacked,
- unpacked_len);
- g_free(unpacked);
- } else if (addrtype == SMS_NUMBER_TYPE_INTL &&
- addrplan == SMS_NUMBER_PLAN_TELEPHONE) {
- /* International telphone number, format as "+1234567890" */
- utf8 = g_malloc (len + 3); /* '+' + digits + possible trailing 0xf + NUL */
- utf8[0] = '+';
- sms_semi_octets_to_bcd_string (utf8 + 1, address, (len + 1) / 2);
- } else {
- /*
- * All non-alphanumeric types and plans are just digits, but
- * don't apply any special formatting if we don't know the
- * format.
- */
- utf8 = g_malloc (len + 2); /* digits + possible trailing 0xf + NUL */
- sms_semi_octets_to_bcd_string (utf8, address, (len + 1) / 2);
- }
-
- return utf8;
-}
-
-static char *
-sms_decode_timestamp (const guint8 *timestamp)
-{
- /* YYMMDDHHMMSS+ZZ */
- char *timestr;
- int quarters, hours;
-
- timestr = g_malloc0 (16);
- sms_semi_octets_to_bcd_string (timestr, timestamp, 6);
- quarters = ((timestamp[6] & 0x7) * 10) + ((timestamp[6] >> 4) & 0xf);
- hours = quarters / 4;
- if (timestamp[6] & 0x08)
- timestr[12] = '-';
- else
- timestr[12] = '+';
- timestr[13] = (hours / 10) + '0';
- timestr[14] = (hours % 10) + '0';
- /* TODO(njw): Change timestamp rep to something that includes quarter-hours */
- return timestr;
-}
-
-static MMSmsEncoding
-sms_encoding_type (int dcs)
-{
- MMSmsEncoding scheme = MM_SMS_ENCODING_UNKNOWN;
-
- switch ((dcs >> 4) & 0xf) {
- /* General data coding group */
- case 0: case 1:
- case 2: case 3:
- switch (dcs & 0x0c) {
- case 0x08:
- scheme = MM_SMS_ENCODING_UCS2;
- break;
- case 0x00:
- /* fallthrough */
- /* reserved - spec says to treat it as default alphabet */
- case 0x0c:
- scheme = MM_SMS_ENCODING_GSM7;
- break;
- case 0x04:
- scheme = MM_SMS_ENCODING_8BIT;
- break;
- }
- break;
-
- /* Message waiting group (default alphabet) */
- case 0xc:
- case 0xd:
- scheme = MM_SMS_ENCODING_GSM7;
- break;
-
- /* Message waiting group (UCS2 alphabet) */
- case 0xe:
- scheme = MM_SMS_ENCODING_UCS2;
- break;
-
- /* Data coding/message class group */
- case 0xf:
- switch (dcs & 0x04) {
- case 0x00:
- scheme = MM_SMS_ENCODING_GSM7;
- break;
- case 0x04:
- scheme = MM_SMS_ENCODING_8BIT;
- break;
- }
- break;
-
- /* Reserved coding group values - spec says to treat it as default alphabet */
- default:
- scheme = MM_SMS_ENCODING_GSM7;
- break;
- }
-
- return scheme;
-}
-
-static char *
-sms_decode_text (const guint8 *text, int len, MMSmsEncoding encoding, int bit_offset)
-{
- char *utf8;
- guint8 *unpacked;
- guint32 unpacked_len;
-
- if (encoding == MM_SMS_ENCODING_GSM7) {
- mm_dbg ("Converting SMS part text from GSM7 to UTF8...");
- unpacked = gsm_unpack ((const guint8 *) text, len, bit_offset, &unpacked_len);
- utf8 = (char *) mm_charset_gsm_unpacked_to_utf8 (unpacked, unpacked_len);
- mm_dbg (" Got UTF-8 text: '%s'", utf8);
- g_free (unpacked);
- } else if (encoding == MM_SMS_ENCODING_UCS2) {
- mm_dbg ("Converting SMS part text from UCS-2BE to UTF8...");
- utf8 = g_convert ((char *) text, len, "UTF8", "UCS-2BE", NULL, NULL, NULL);
- mm_dbg (" Got UTF-8 text: '%s'", utf8);
- } else {
- g_warn_if_reached ();
- utf8 = g_strdup ("");
- }
-
- return utf8;
-}
-
-static guint
-relative_to_validity (guint8 relative)
-{
- if (relative <= 143)
- return (relative + 1) * 5;
-
- if (relative <= 167)
- return 720 + (relative - 143) * 30;
-
- return (relative - 166) * 1440;
-}
-
-static guint8
-validity_to_relative (guint validity)
-{
- if (validity == 0)
- return 167; /* 24 hours */
-
- if (validity <= 720) {
- /* 5 minute units up to 12 hours */
- if (validity % 5)
- validity += 5;
- return (validity / 5) - 1;
- }
-
- if (validity > 720 && validity <= 1440) {
- /* 12 hours + 30 minute units up to 1 day */
- if (validity % 30)
- validity += 30; /* round up to next 30 minutes */
- validity = MIN (validity, 1440);
- return 143 + ((validity - 720) / 30);
- }
-
- if (validity > 1440 && validity <= 43200) {
- /* 2 days up to 1 month */
- if (validity % 1440)
- validity += 1440; /* round up to next day */
- validity = MIN (validity, 43200);
- return 167 + ((validity - 1440) / 1440);
- }
-
- /* 43200 = 30 days in minutes
- * 10080 = 7 days in minutes
- * 635040 = 63 weeks in minutes
- * 40320 = 4 weeks in minutes
- */
- if (validity > 43200 && validity <= 635040) {
- /* 5 weeks up to 63 weeks */
- if (validity % 10080)
- validity += 10080; /* round up to next week */
- validity = MIN (validity, 635040);
- return 196 + ((validity - 40320) / 10080);
- }
-
- return 255; /* 63 weeks */
-}
-
struct _MMSmsPart {
guint index;
MMSmsPduType pdu_type;
@@ -465,839 +177,3 @@ mm_sms_part_new (guint index,
return sms_part;
}
-
-MMSmsPart *
-mm_sms_part_new_from_pdu (guint index,
- const gchar *hexpdu,
- GError **error)
-{
- gsize pdu_len;
- guint8 *pdu;
- MMSmsPart *part;
-
- /* Convert PDU from hex to binary */
- pdu = (guint8 *) mm_utils_hexstr2bin (hexpdu, &pdu_len);
- if (!pdu) {
- g_set_error_literal (error,
- MM_CORE_ERROR,
- MM_CORE_ERROR_FAILED,
- "Couldn't convert PDU from hex to binary");
- return NULL;
- }
-
- part = mm_sms_part_new_from_binary_pdu (index, pdu, pdu_len, error);
- g_free (pdu);
-
- return part;
-}
-
-MMSmsPart *
-mm_sms_part_new_from_binary_pdu (guint index,
- const guint8 *pdu,
- gsize pdu_len,
- GError **error)
-{
- MMSmsPart *sms_part;
- guint8 pdu_type;
- guint offset;
- guint smsc_addr_size_bytes;
- guint tp_addr_size_digits;
- guint tp_addr_size_bytes;
- guint8 validity_format = 0;
- gboolean has_udh = FALSE;
- /* The following offsets are OPTIONAL, as STATUS REPORTs may not have
- * them; we use '0' to indicate their absence */
- guint tp_pid_offset = 0;
- guint tp_dcs_offset = 0;
- guint tp_user_data_len_offset = 0;
- MMSmsEncoding user_data_encoding = MM_SMS_ENCODING_UNKNOWN;
-
- /* Create the new MMSmsPart */
- sms_part = mm_sms_part_new (index, MM_SMS_PDU_TYPE_UNKNOWN);
-
- if (index != SMS_PART_INVALID_INDEX)
- mm_dbg ("Parsing PDU (%u)...", index);
- else
- mm_dbg ("Parsing PDU...");
-
-#define PDU_SIZE_CHECK(required_size, check_descr_str) \
- if (pdu_len < required_size) { \
- g_set_error (error, \
- MM_CORE_ERROR, \
- MM_CORE_ERROR_FAILED, \
- "PDU too short, %s: %" G_GSIZE_FORMAT " < %u", \
- check_descr_str, \
- pdu_len, \
- required_size); \
- mm_sms_part_free (sms_part); \
- return NULL; \
- }
-
- offset = 0;
-
- /* ---------------------------------------------------------------------- */
- /* SMSC, in address format, precedes the TPDU
- * First byte represents the number of BYTES for the address value */
- PDU_SIZE_CHECK (1, "cannot read SMSC address length");
- smsc_addr_size_bytes = pdu[offset++];
- if (smsc_addr_size_bytes > 0) {
- PDU_SIZE_CHECK (offset + smsc_addr_size_bytes, "cannot read SMSC address");
- /* SMSC may not be given in DELIVER PDUs */
- mm_sms_part_take_smsc (sms_part,
- sms_decode_address (&pdu[1], 2 * (smsc_addr_size_bytes - 1)));
- mm_dbg (" SMSC address parsed: '%s'", mm_sms_part_get_smsc (sms_part));
- offset += smsc_addr_size_bytes;
- } else
- mm_dbg (" No SMSC address given");
-
-
- /* ---------------------------------------------------------------------- */
- /* TP-MTI (1 byte) */
- PDU_SIZE_CHECK (offset + 1, "cannot read TP-MTI");
-
- pdu_type = (pdu[offset] & SMS_TP_MTI_MASK);
- switch (pdu_type) {
- case SMS_TP_MTI_SMS_DELIVER:
- mm_dbg (" Deliver type PDU detected");
- mm_sms_part_set_pdu_type (sms_part, MM_SMS_PDU_TYPE_DELIVER);
- break;
- case SMS_TP_MTI_SMS_SUBMIT:
- mm_dbg (" Submit type PDU detected");
- mm_sms_part_set_pdu_type (sms_part, MM_SMS_PDU_TYPE_SUBMIT);
- break;
- case SMS_TP_MTI_SMS_STATUS_REPORT:
- mm_dbg (" Status report type PDU detected");
- mm_sms_part_set_pdu_type (sms_part, MM_SMS_PDU_TYPE_STATUS_REPORT);
- break;
- default:
- mm_sms_part_free (sms_part);
- g_set_error (error,
- MM_CORE_ERROR,
- MM_CORE_ERROR_FAILED,
- "Unhandled message type: 0x%02x",
- pdu_type);
- return NULL;
- }
-
- /* Delivery report was requested? */
- if (pdu[offset] & 0x20)
- mm_sms_part_set_delivery_report_request (sms_part, TRUE);
-
- /* PDU with validity? (only in SUBMIT PDUs) */
- if (pdu_type == SMS_TP_MTI_SMS_SUBMIT)
- validity_format = pdu[offset] & 0x18;
-
- /* PDU with user data header? */
- if (pdu[offset] & 0x40)
- has_udh = TRUE;
-
- offset++;
-
- /* ---------------------------------------------------------------------- */
- /* TP-MR (1 byte, in STATUS_REPORT and SUBMIT PDUs */
- if (pdu_type == SMS_TP_MTI_SMS_STATUS_REPORT ||
- pdu_type == SMS_TP_MTI_SMS_SUBMIT) {
- PDU_SIZE_CHECK (offset + 1, "cannot read message reference");
-
- mm_dbg (" message reference: %u", (guint)pdu[offset]);
- mm_sms_part_set_message_reference (sms_part, pdu[offset]);
- offset++;
- }
-
-
- /* ---------------------------------------------------------------------- */
- /* TP-DA or TP-OA or TP-RA
- * First byte represents the number of DIGITS in the number.
- * Round the sender address length up to an even number of
- * semi-octets, and thus an integral number of octets.
- */
- PDU_SIZE_CHECK (offset + 1, "cannot read number of digits in number");
- tp_addr_size_digits = pdu[offset++];
- tp_addr_size_bytes = (tp_addr_size_digits + 1) >> 1;
-
- PDU_SIZE_CHECK (offset + tp_addr_size_bytes, "cannot read number");
- mm_sms_part_take_number (sms_part,
- sms_decode_address (&pdu[offset],
- tp_addr_size_digits));
- mm_dbg (" Number parsed: '%s'", mm_sms_part_get_number (sms_part));
- offset += (1 + tp_addr_size_bytes); /* +1 due to the Type of Address byte */
-
- /* ---------------------------------------------------------------------- */
- /* Get timestamps and indexes for TP-PID, TP-DCS and TP-UDL/TP-UD */
-
- if (pdu_type == SMS_TP_MTI_SMS_DELIVER) {
- PDU_SIZE_CHECK (offset + 9,
- "cannot read PID/DCS/Timestamp"); /* 1+1+7=9 */
-
- /* ------ TP-PID (1 byte) ------ */
- tp_pid_offset = offset++;
-
- /* ------ TP-DCS (1 byte) ------ */
- tp_dcs_offset = offset++;
-
- /* ------ Timestamp (7 bytes) ------ */
- mm_sms_part_take_timestamp (sms_part,
- sms_decode_timestamp (&pdu[offset]));
- offset += 7;
-
- tp_user_data_len_offset = offset;
- } else if (pdu_type == SMS_TP_MTI_SMS_SUBMIT) {
- PDU_SIZE_CHECK (offset + 2 + !!validity_format,
- "cannot read PID/DCS/Validity"); /* 1+1=2 */
-
- /* ------ TP-PID (1 byte) ------ */
- tp_pid_offset = offset++;
-
- /* ------ TP-DCS (1 byte) ------ */
- tp_dcs_offset = offset++;
-
- /* ----------- TP-Validity-Period (1 byte) ----------- */
- if (validity_format) {
- switch (validity_format) {
- case 0x10:
- mm_dbg (" validity available, format relative");
- mm_sms_part_set_validity_relative (sms_part,
- relative_to_validity (pdu[offset]));
- offset++;
- break;
- case 0x08:
- /* TODO: support enhanced format; GSM 03.40 */
- mm_dbg (" validity available, format enhanced (not implemented)");
- /* 7 bytes for enhanced validity */
- offset += 7;
- break;
- case 0x18:
- /* TODO: support absolute format; GSM 03.40 */
- mm_dbg (" validity available, format absolute (not implemented)");
- /* 7 bytes for absolute validity */
- offset += 7;
- break;
- default:
- /* Cannot happen as we AND with the 0x18 mask */
- g_assert_not_reached();
- }
- }
-
- tp_user_data_len_offset = offset;
- }
- else if (pdu_type == SMS_TP_MTI_SMS_STATUS_REPORT) {
- /* We have 2 timestamps in status report PDUs:
- * first, the timestamp for when the PDU was received in the SMSC
- * second, the timestamp for when the PDU was forwarded by the SMSC
- */
- PDU_SIZE_CHECK (offset + 15, "cannot read Timestamps/TP-STATUS"); /* 7+7+1=15 */
-
- /* ------ Timestamp (7 bytes) ------ */
- mm_sms_part_take_timestamp (sms_part,
- sms_decode_timestamp (&pdu[offset]));
- offset += 7;
-
- /* ------ Discharge Timestamp (7 bytes) ------ */
- mm_sms_part_take_discharge_timestamp (sms_part,
- sms_decode_timestamp (&pdu[offset]));
- offset += 7;
-
- /* ----- TP-STATUS (1 byte) ------ */
- mm_dbg (" delivery state: %u", (guint)pdu[offset]);
- mm_sms_part_set_delivery_state (sms_part, pdu[offset]);
- offset++;
-
- /* ------ TP-PI (1 byte) OPTIONAL ------ */
- if (offset < pdu_len) {
- guint next_optional_field_offset = offset + 1;
-
- /* TP-PID? */
- if (pdu[offset] & 0x01)
- tp_pid_offset = next_optional_field_offset++;
-
- /* TP-DCS? */
- if (pdu[offset] & 0x02)
- tp_dcs_offset = next_optional_field_offset++;
-
- /* TP-UserData? */
- if (pdu[offset] & 0x04)
- tp_user_data_len_offset = next_optional_field_offset;
- }
- } else
- g_assert_not_reached ();
-
- if (tp_pid_offset > 0) {
- PDU_SIZE_CHECK (tp_pid_offset + 1, "cannot read TP-PID");
- mm_dbg (" PID: %u", (guint)pdu[tp_pid_offset]);
- }
-
- /* Grab user data encoding and message class */
- if (tp_dcs_offset > 0) {
- PDU_SIZE_CHECK (tp_dcs_offset + 1, "cannot read TP-DCS");
-
- /* Encoding given in the 'alphabet' bits */
- user_data_encoding = sms_encoding_type(pdu[tp_dcs_offset]);
- switch (user_data_encoding) {
- case MM_SMS_ENCODING_GSM7:
- mm_dbg (" user data encoding is GSM7");
- break;
- case MM_SMS_ENCODING_UCS2:
- mm_dbg (" user data encoding is UCS2");
- break;
- case MM_SMS_ENCODING_8BIT:
- mm_dbg (" user data encoding is 8bit");
- break;
- default:
- mm_dbg (" user data encoding is unknown");
- break;
- }
- mm_sms_part_set_encoding (sms_part, user_data_encoding);
-
- /* Class */
- if (pdu[tp_dcs_offset] & SMS_DCS_CLASS_VALID)
- mm_sms_part_set_class (sms_part,
- pdu[tp_dcs_offset] & SMS_DCS_CLASS_MASK);
- }
-
- if (tp_user_data_len_offset > 0) {
- guint tp_user_data_size_elements;
- guint tp_user_data_size_bytes;
- guint tp_user_data_offset;
- guint bit_offset;
-
- PDU_SIZE_CHECK (tp_user_data_len_offset + 1, "cannot read TP-UDL");
- tp_user_data_size_elements = pdu[tp_user_data_len_offset];
- mm_dbg (" user data length: %u elements", tp_user_data_size_elements);
-
- if (user_data_encoding == MM_SMS_ENCODING_GSM7)
- tp_user_data_size_bytes = (7 * (tp_user_data_size_elements + 1 )) / 8;
- else
- tp_user_data_size_bytes = tp_user_data_size_elements;
- mm_dbg (" user data length: %u bytes", tp_user_data_size_bytes);
-
- tp_user_data_offset = tp_user_data_len_offset + 1;
- PDU_SIZE_CHECK (tp_user_data_offset + tp_user_data_size_bytes, "cannot read TP-UD");
-
- bit_offset = 0;
- if (has_udh) {
- guint udhl, end;
-
- udhl = pdu[tp_user_data_offset] + 1;
- end = tp_user_data_offset + udhl;
-
- PDU_SIZE_CHECK (tp_user_data_offset + udhl, "cannot read UDH");
-
- for (offset = tp_user_data_offset + 1; (offset + 1) < end;) {
- guint8 ie_id, ie_len;
-
- ie_id = pdu[offset++];
- ie_len = pdu[offset++];
-
- switch (ie_id) {
- case 0x00:
- if (offset + 2 >= end)
- break;
- /*
- * Ignore the IE if one of the following is true:
- * - it claims to be part 0 of M
- * - it claims to be part N of M, N > M
- */
- if (pdu[offset + 2] == 0 ||
- pdu[offset + 2] > pdu[offset + 1])
- break;
-
- mm_sms_part_set_concat_reference (sms_part, pdu[offset]);
- mm_sms_part_set_concat_max (sms_part, pdu[offset + 1]);
- mm_sms_part_set_concat_sequence (sms_part, pdu[offset + 2]);
- break;
- case 0x08:
- if (offset + 3 >= end)
- break;
- /* Concatenated short message, 16-bit reference */
- if (pdu[offset + 3] == 0 ||
- pdu[offset + 3] > pdu[offset + 2])
- break;
-
- mm_sms_part_set_concat_reference (sms_part, (pdu[offset] << 8) | pdu[offset + 1]);
- mm_sms_part_set_concat_max (sms_part,pdu[offset + 2]);
- mm_sms_part_set_concat_sequence (sms_part, pdu[offset + 3]);
- break;
- }
-
- offset += ie_len;
- }
-
- /*
- * Move past the user data headers to prevent it from being
- * decoded into garbage text.
- */
- tp_user_data_offset += udhl;
- tp_user_data_size_bytes -= udhl;
- if (user_data_encoding == MM_SMS_ENCODING_GSM7) {
- /*
- * Find the number of bits we need to add to the length of the
- * user data to get a multiple of 7 (the padding).
- */
- bit_offset = (7 - udhl % 7) % 7;
- tp_user_data_size_elements -= (udhl * 8 + bit_offset) / 7;
- } else
- tp_user_data_size_elements -= udhl;
- }
-
- switch (user_data_encoding) {
- case MM_SMS_ENCODING_GSM7:
- case MM_SMS_ENCODING_UCS2:
- /* Otherwise if it's 7-bit or UCS2 we can decode it */
- mm_dbg ("Decoding SMS text with '%u' elements", tp_user_data_size_elements);
- mm_sms_part_take_text (sms_part,
- sms_decode_text (&pdu[tp_user_data_offset],
- tp_user_data_size_elements,
- user_data_encoding,
- bit_offset));
- g_warn_if_fail (sms_part->text != NULL);
- break;
-
- default:
- {
- GByteArray *raw;
-
- mm_dbg ("Skipping SMS text: Unknown encoding (0x%02X)", user_data_encoding);
-
- PDU_SIZE_CHECK (tp_user_data_offset + tp_user_data_size_bytes, "cannot read user data");
-
- /* 8-bit encoding is usually binary data, and we have no idea what
- * actual encoding the data is in so we can't convert it.
- */
- raw = g_byte_array_sized_new (tp_user_data_size_bytes);
- g_byte_array_append (raw, &pdu[tp_user_data_offset], tp_user_data_size_bytes);
- mm_sms_part_take_data (sms_part, raw);
- break;
- }
- }
- }
-
- return sms_part;
-}
-
-/**
- * mm_sms_part_encode_address:
- *
- * @address: the phone number to encode
- * @buf: the buffer to encode @address in
- * @buflen: the size of @buf
- * @is_smsc: if %TRUE encode size as number of octets of address infromation,
- * otherwise if %FALSE encode size as number of digits of @address
- *
- * Returns: the size in bytes of the data added to @buf
- **/
-guint
-mm_sms_part_encode_address (const gchar *address,
- guint8 *buf,
- gsize buflen,
- gboolean is_smsc)
-{
- gsize len;
-
- g_return_val_if_fail (address != NULL, 0);
- g_return_val_if_fail (buf != NULL, 0);
- g_return_val_if_fail (buflen >= 2, 0);
-
- /* Handle number type & plan */
- buf[1] = 0x80; /* Bit 7 always 1 */
- if (address[0] == '+') {
- buf[1] |= SMS_NUMBER_TYPE_INTL;
- address++;
- }
- buf[1] |= SMS_NUMBER_PLAN_TELEPHONE;
-
- len = sms_string_to_bcd_semi_octets (&buf[2], buflen, address);
-
- if (is_smsc)
- buf[0] = len + 1; /* addr length + size byte */
- else
- buf[0] = strlen (address); /* number of digits in address */
-
- return len ? len + 2 : 0; /* addr length + size byte + number type/plan */
-}
-
-/**
- * mm_sms_part_get_submit_pdu:
- *
- * @part: the SMS message part
- * @out_pdulen: on success, the size of the returned PDU in bytes
- * @out_msgstart: on success, the byte index in the returned PDU where the
- * message starts (ie, skipping the SMSC length byte and address, if present)
- * @error: on error, filled with the error that occurred
- *
- * Constructs a single-part SMS message with the given details, preferring to
- * use the UCS2 character set when the message will fit, otherwise falling back
- * to the GSM character set.
- *
- * Returns: the constructed PDU data on success, or %NULL on error
- **/
-guint8 *
-mm_sms_part_get_submit_pdu (MMSmsPart *part,
- guint *out_pdulen,
- guint *out_msgstart,
- GError **error)
-{
- guint8 *pdu;
- guint len, offset = 0;
- guint shift = 0;
- guint8 *udl_ptr;
-
- g_return_val_if_fail (part->number != NULL, NULL);
- g_return_val_if_fail (part->text != NULL || part->data != NULL, NULL);
-
- mm_dbg ("Creating PDU for part...");
-
- /* Build up the PDU */
- pdu = g_malloc0 (PDU_SIZE);
-
- if (part->smsc) {
- mm_dbg (" adding SMSC to PDU...");
- len = mm_sms_part_encode_address (part->smsc, pdu, PDU_SIZE, TRUE);
- if (len == 0) {
- g_set_error (error,
- MM_MESSAGE_ERROR,
- MM_MESSAGE_ERROR_INVALID_PDU_PARAMETER,
- "Invalid SMSC address '%s'", part->smsc);
- goto error;
- }
- offset += len;
- } else {
- /* No SMSC, use default */
- pdu[offset++] = 0x00;
- }
-
- if (out_msgstart)
- *out_msgstart = offset;
-
- /* ----------- First BYTE ----------- */
- pdu[offset] = 0;
-
- /* TP-VP present; format RELATIVE */
- if (part->validity_relative > 0) {
- mm_dbg (" adding validity to PDU...");
- pdu[offset] |= 0x10;
- }
-
- /* Concatenation sequence only found in multipart SMS */
- if (part->concat_sequence) {
- mm_dbg (" adding UDHI to PDU...");
- pdu[offset] |= 0x40; /* UDHI */
- }
-
- /* Delivery report requested in singlepart messages or in the last PDU of
- * multipart messages */
- if (part->delivery_report_request &&
- (!part->concat_sequence ||
- part->concat_max == part->concat_sequence)) {
- mm_dbg (" requesting delivery report...");
- pdu[offset] |= 0x20;
- }
-
- /* TP-MTI = SMS-SUBMIT */
- pdu[offset++] |= 0x01;
-
-
- /* ----------- TP-MR (1 byte) ----------- */
-
- pdu[offset++] = 0x00; /* TP-Message-Reference: filled by device */
-
- /* ----------- Destination address ----------- */
-
- len = mm_sms_part_encode_address (part->number, &pdu[offset], PDU_SIZE - offset, FALSE);
- if (len == 0) {
- g_set_error (error,
- MM_MESSAGE_ERROR,
- MM_MESSAGE_ERROR_INVALID_PDU_PARAMETER,
- "Invalid number '%s'", part->number);
- goto error;
- }
- offset += len;
-
- /* ----------- TP-PID (1 byte) ----------- */
-
- pdu[offset++] = 0x00;
-
- /* ----------- TP-DCS (1 byte) ----------- */
- pdu[offset] = 0x00;
-
- if (part->class >= 0 && part->class <= 3) {
- mm_dbg (" using class %d...", part->class);
- pdu[offset] |= SMS_DCS_CLASS_VALID;
- pdu[offset] |= part->class;
- }
-
- if (part->encoding == MM_SMS_ENCODING_UCS2) {
- mm_dbg (" using UCS2 encoding...");
- pdu[offset] |= SMS_DCS_CODING_UCS2;
- } else if (part->encoding == MM_SMS_ENCODING_GSM7) {
- mm_dbg (" using GSM7 encoding...");
- pdu[offset] |= SMS_DCS_CODING_DEFAULT; /* GSM */
- } else {
- mm_dbg (" using 8bit encoding...");
- pdu[offset] |= SMS_DCS_CODING_8BIT;
- }
- offset++;
-
- /* ----------- TP-Validity-Period (1 byte): 4 days ----------- */
- /* Only if TP-VPF was set in first byte */
-
- if (part->validity_relative > 0)
- pdu[offset++] = validity_to_relative (part->validity_relative);
-
- /* ----------- TP-User-Data-Length ----------- */
- /* Set to zero initially, and keep a ptr for easy access later */
- udl_ptr = &pdu[offset];
- pdu[offset++] = 0;
-
- /* Build UDH */
- if (part->concat_sequence) {
- mm_dbg (" adding UDH header in PDU... (reference: %u, max: %u, sequence: %u)",
- part->concat_reference,
- part->concat_max,
- part->concat_sequence);
- pdu[offset++] = 0x05; /* udh len */
- pdu[offset++] = 0x00; /* mid */
- pdu[offset++] = 0x03; /* data len */
- pdu[offset++] = (guint8)part->concat_reference;
- pdu[offset++] = (guint8)part->concat_max;
- pdu[offset++] = (guint8)part->concat_sequence;
-
- /* if a UDH is present and the data encoding is the default 7-bit
- * alphabet, the user data must be 7-bit word aligned after the
- * UDH. This means up to 6 bits of zeros need to be inserted at the
- * start of the message.
- *
- * In our case the UDH is 6 bytes long, 48bits. The next multiple of
- * 7 is therefore 49, so we only need to include one bit of padding.
- */
- shift = 1;
- }
-
- if (part->encoding == MM_SMS_ENCODING_GSM7) {
- guint8 *unpacked, *packed;
- guint32 unlen = 0, packlen = 0;
-
- unpacked = mm_charset_utf8_to_unpacked_gsm (part->text, &unlen);
- if (!unpacked || unlen == 0) {
- g_free (unpacked);
- g_set_error_literal (error,
- MM_MESSAGE_ERROR,
- MM_MESSAGE_ERROR_INVALID_PDU_PARAMETER,
- "Failed to convert message text to GSM");
- goto error;
- }
-
- /* Set real data length, in septets
- * If we had UDH, add 7 septets
- */
- *udl_ptr = part->concat_sequence ? (7 + unlen) : unlen;
- mm_dbg (" user data length is '%u' septets (%s UDH)",
- *udl_ptr,
- part->concat_sequence ? "with" : "without");
-
- packed = gsm_pack (unpacked, unlen, shift, &packlen);
- g_free (unpacked);
- if (!packed || packlen == 0) {
- g_free (packed);
- g_set_error_literal (error,
- MM_MESSAGE_ERROR,
- MM_MESSAGE_ERROR_INVALID_PDU_PARAMETER,
- "Failed to pack message text to GSM");
- goto error;
- }
-
- memcpy (&pdu[offset], packed, packlen);
- g_free (packed);
- offset += packlen;
- } else if (part->encoding == MM_SMS_ENCODING_UCS2) {
- GByteArray *array;
-
- /* Try to guess a good value for the array */
- array = g_byte_array_sized_new (strlen (part->text) * 2);
- if (!mm_modem_charset_byte_array_append (array, part->text, FALSE, MM_MODEM_CHARSET_UCS2)) {
- g_byte_array_free (array, TRUE);
- g_set_error_literal (error,
- MM_MESSAGE_ERROR,
- MM_MESSAGE_ERROR_INVALID_PDU_PARAMETER,
- "Failed to convert message text to UCS2");
- goto error;
- }
-
- /* Set real data length, in octets
- * If we had UDH, add 6 octets
- */
- *udl_ptr = part->concat_sequence ? (6 + array->len) : array->len;
- mm_dbg (" user data length is '%u' octets (%s UDH)",
- *udl_ptr,
- part->concat_sequence ? "with" : "without");
-
- memcpy (&pdu[offset], array->data, array->len);
- offset += array->len;
- g_byte_array_free (array, TRUE);
- } else if (part->encoding == MM_SMS_ENCODING_8BIT) {
- /* Set real data length, in octets
- * If we had UDH, add 6 octets
- */
- *udl_ptr = part->concat_sequence ? (6 + part->data->len) : part->data->len;
- mm_dbg (" binary user data length is '%u' octets (%s UDH)",
- *udl_ptr,
- part->concat_sequence ? "with" : "without");
-
- memcpy (&pdu[offset], part->data->data, part->data->len);
- offset += part->data->len;
- } else
- g_assert_not_reached ();
-
- if (out_pdulen)
- *out_pdulen = offset;
- return pdu;
-
-error:
- g_free (pdu);
- return NULL;
-}
-
-gchar **
-mm_sms_part_util_split_text (const gchar *text,
- MMSmsEncoding *encoding)
-{
- guint gsm_unsupported = 0;
- gchar **out;
- guint n_chunks;
- guint i;
- guint j;
- gsize in_len;
-
- if (!text)
- return NULL;
-
- in_len = strlen (text);
-
- /* Some info about the rules for splitting.
- *
- * The User Data can be up to 140 bytes in the SMS part:
- * 0) If we only need one chunk, it can be of up to 140 bytes.
- * If we need more than one chunk, these have to be of 140 - 6 = 134
- * bytes each, as we need place for the UDH header.
- * 1) If we're using GSM7 encoding, this gives us up to 160 characters,
- * as we can pack 160 characters of 7bits each into 140 bytes.
- * 160 * 7 = 140 * 8 = 1120.
- * If we only have 134 bytes allowed, that would mean that we can pack
- * up to 153 input characters:
- * 134 * 8 = 1072; 1072/7=153.14
- * 2) If we're using UCS2 encoding, we can pack up to 70 characters in
- * 140 bytes (each with 2 bytes), or up to 67 characters in 134 bytes.
- *
- * This method does the split of the input string into N strings, so that
- * each of the strings can be placed in a SMS part.
- */
-
- /* Check if we can do GSM encoding */
- mm_charset_get_encoded_len (text,
- MM_MODEM_CHARSET_GSM,
- &gsm_unsupported);
- if (gsm_unsupported > 0) {
- /* If cannot do it in GSM encoding, do it in UCS-2 */
- GByteArray *array;
-
- *encoding = MM_SMS_ENCODING_UCS2;
-
- /* Guess more or less the size of the output array to avoid multiple
- * allocations */
- array = g_byte_array_sized_new (in_len * 2);
- if (!mm_modem_charset_byte_array_append (array,
- text,
- FALSE,
- MM_MODEM_CHARSET_UCS2)) {
- g_byte_array_unref (array);
- return NULL;
- }
-
- /* Our bytearray has it in UCS-2 now.
- * UCS-2 is a fixed-size encoding, which means that the text has exactly
- * 2 bytes for each unicode point. We can now split this array into
- * chunks of 67 UCS-2 characters (134 bytes).
- *
- * Note that UCS-2 covers unicode points between U+0000 and U+FFFF, which
- * means that there is no direct relationship between the size of the
- * input text in UTF-8 and the size of the text in UCS-2. A 3-byte UTF-8
- * encoded character will still be represented with 2 bytes in UCS-2.
- */
- if (array->len <= 140) {
- out = g_new (gchar *, 2);
- out[0] = g_strdup (text);
- out[1] = NULL;
- } else {
- n_chunks = array->len / 134;
- if (array->len % 134 != 0)
- n_chunks++;
-
- out = g_new0 (gchar *, n_chunks + 1);
- for (i = 0, j = 0; i < n_chunks; i++, j += 134) {
- out[i] = sms_decode_text (&array->data[j],
- MIN (array->len - j, 134),
- MM_SMS_ENCODING_UCS2,
- 0);
- }
- }
- g_byte_array_unref (array);
- } else {
- /* Do it with GSM encoding */
- *encoding = MM_SMS_ENCODING_GSM7;
-
- if (in_len <= 160) {
- out = g_new (gchar *, 2);
- out[0] = g_strdup (text);
- out[1] = NULL;
- } else {
- n_chunks = in_len / 153;
- if (in_len % 153 != 0)
- n_chunks++;
-
- out = g_new0 (gchar *, n_chunks + 1);
- for (i = 0, j = 0; i < n_chunks; i++, j += 153) {
- out[i] = g_strndup (&text[j], 153);
- }
- }
- }
-
- return out;
-}
-
-GByteArray **
-mm_sms_part_util_split_data (const guint8 *data,
- gsize data_len)
-{
- GByteArray **out;
-
- /* Some info about the rules for splitting.
- *
- * The User Data can be up to 140 bytes in the SMS part:
- * 0) If we only need one chunk, it can be of up to 140 bytes.
- * If we need more than one chunk, these have to be of 140 - 6 = 134
- * bytes each, as we need place for the UDH header.
- */
-
- if (data_len <= 140) {
- out = g_new0 (GByteArray *, 2);
- out[0] = g_byte_array_append (g_byte_array_sized_new (data_len),
- data,
- data_len);
- } else {
- guint n_chunks;
- guint i;
- guint j;
-
- n_chunks = data_len / 134;
- if (data_len % 134 != 0)
- n_chunks ++;
-
- out = g_new0 (GByteArray *, n_chunks + 1);
- for (i = 0, j = 0; i < n_chunks; i++, j+= 134) {
- out[i] = g_byte_array_append (g_byte_array_sized_new (134),
- &data[j],
- MIN (data_len - j, 134));
- }
- }
-
- return out;
-}
generated by cgit v1.2.3-70-g09d2 (git 2.46.0) at 2025-06-07 09:35:22 +0000