/* -*- Mode: C; tab-width: 4; indent-tabs-mode: t; c-basic-offset: 4 -*- */ /* 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 2 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, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * * Copyright (C) 2012 Red Hat, Inc. */ #include #include #include #include #include #include #include #include #include #include "libwmc/src/utils.h" #include "libwmc/src/errors.h" #include "libwmc/src/commands.h" #include "libwmc/src/com.h" #include "libqcdm/src/utils.h" #include "libqcdm/src/errors.h" #include "libqcdm/src/commands.h" #include "libqcdm/src/com.h" static int debug = 0; static void print_buf (const char *detail, const char *buf, size_t len) { int i = 0, z; wmcbool newline = FALSE; char tmp[500]; u_int32_t flen; flen = snprintf (tmp, sizeof (tmp) - 1, "%s (%zu) ", detail, len); fprintf (stdout, "%s", tmp); for (i = 0; i < len; i++) { fprintf (stdout, "%02x ", buf[i] & 0xFF); if (((i + 1) % 16) == 0) { fprintf (stdout, "\n"); z = flen; while (z--) fprintf (stdout, " "); newline = TRUE; } else newline = FALSE; } if (!newline) fprintf (stdout, "\n"); } static int com_setup (const char *port) { int ret, fd; errno = 0; fd = open (port, O_RDWR | O_EXCL | O_NONBLOCK | O_NOCTTY); if (fd < 0) { fprintf (stderr, "E: failed to open port %s\n", port); return -1; } ret = ioctl (fd, TIOCEXCL); if (ret) { fprintf (stderr, "E: failed to lock port %s\n", port); close (fd); return -1; } return fd; } /******************************************************************/ static wmcbool wmc_send (int fd, char *inbuf, size_t inbuf_len, size_t cmd_len) { int status; int eagain_count = 1000; size_t i = 0, sendlen; char sendbuf[600]; if (debug) print_buf ("\nWMC:RAW>>>", inbuf, cmd_len); /* Encapsulate the data for the device */ sendlen = wmc_encapsulate (inbuf, cmd_len, inbuf_len, sendbuf, sizeof (sendbuf), TRUE); if (sendlen <= 0) { fprintf (stderr, "E: failed to encapsulate WMC command\n"); return FALSE; } if (debug) print_buf ("WMC:ENC>>>", sendbuf, sendlen); while (i < sendlen) { errno = 0; status = write (fd, &sendbuf[i], 1); if (status < 0) { if (errno == EAGAIN) { eagain_count--; if (eagain_count <= 0) return FALSE; } else assert (errno == 0); } else i++; usleep (1000); } return TRUE; } static size_t wmc_wait_reply (int fd, char *buf, size_t len) { fd_set in; int result; struct timeval timeout = { 1, 0 }; char readbuf[2048]; ssize_t bytes_read; int total = 0, retries = 0; size_t decap_len = 0; FD_ZERO (&in); FD_SET (fd, &in); result = select (fd + 1, &in, NULL, NULL, &timeout); if (result != 1 || !FD_ISSET (fd, &in)) return 0; do { errno = 0; bytes_read = read (fd, &readbuf[total], 1); if ((bytes_read == 0) || (errno == EAGAIN)) { /* Haven't gotten the async control char yet */ if (retries > 20) return 0; /* 2 seconds, give up */ /* Otherwise wait a bit and try again */ usleep (100000); retries++; continue; } else if (bytes_read == 1) { wmcbool more = FALSE, success; size_t used = 0; total++; decap_len = 0; success = wmc_decapsulate (readbuf, total, buf, len, &decap_len, &used, &more, TRUE); if (success && !more && debug) print_buf ("WMC:RAW<<<", readbuf, total); /* Discard used data */ if (used > 0) { total -= used; memmove (readbuf, &readbuf[used], total); } if (success && !more) { /* Success; we have a packet */ break; } } else { /* Some error occurred */ return 0; } } while (total < sizeof (readbuf)); if (debug) print_buf ("WMC:DEC<<<", buf, decap_len); return decap_len; } static int wmc_set_global_mode (const char *port, u_int8_t mode) { int fd, err; char buf[1024]; size_t len; WmcResult *result; size_t reply_len; fd = com_setup (port); if (fd < 0) return -1; err = wmc_port_setup (fd); if (err) { fprintf (stderr, "E: failed to set up WMC port %s: %d\n", port, err); goto error; } len = wmc_cmd_set_global_mode_new (buf, sizeof (buf), mode); assert (len); /* Send the command */ if (!wmc_send (fd, buf, sizeof (buf), len)) { fprintf (stderr, "E: failed to send WMC global mode command\n"); goto error; } reply_len = wmc_wait_reply (fd, buf, sizeof (buf)); if (!reply_len) { fprintf (stderr, "E: failed to receive global mode command reply\n"); goto error; } /* Parse the response into a result structure */ result = wmc_cmd_set_global_mode_result (buf, reply_len); if (!result) { fprintf (stderr, "E: failed to parse global mode command reply\n"); goto error; } wmc_result_unref (result); close (fd); return 0; error: close (fd); return -1; } static const char * wmc_get_global_mode (const char *port) { int fd, err; char buf[1024]; size_t len; WmcResult *result; size_t reply_len; u_int8_t mode = 0; const char *smode = NULL; fd = com_setup (port); if (fd < 0) return NULL; err = wmc_port_setup (fd); if (err) { fprintf (stderr, "E: failed to set up WMC port %s: %d\n", port, err); goto error; } len = wmc_cmd_get_global_mode_new (buf, sizeof (buf)); assert (len); /* Send the command */ if (!wmc_send (fd, buf, sizeof (buf), len)) { fprintf (stderr, "E: failed to send WMC global mode command\n"); goto error; } reply_len = wmc_wait_reply (fd, buf, sizeof (buf)); if (!reply_len) { fprintf (stderr, "E: failed to receive global mode command reply\n"); goto error; } /* Parse the response into a result structure */ result = wmc_cmd_get_global_mode_result (buf, reply_len); if (!result) { fprintf (stderr, "E: failed to parse global mode command reply\n"); goto error; } wmc_result_unref (result); wmc_result_get_u8 (result, WMC_CMD_GET_GLOBAL_MODE_ITEM_MODE, &mode); switch (mode) { case WMC_NETWORK_MODE_AUTO_CDMA: smode = "CDMA/EVDO"; break; case WMC_NETWORK_MODE_CDMA_ONLY: smode = "CDMA only"; break; case WMC_NETWORK_MODE_EVDO_ONLY: smode = "EVDO only"; break; case WMC_NETWORK_MODE_AUTO_GSM: smode = "GSM/UMTS"; break; case WMC_NETWORK_MODE_GPRS_ONLY: smode = "GSM/GPRS/EDGE only"; break; case WMC_NETWORK_MODE_UMTS_ONLY: smode = "UMTS/HSPA only"; break; case WMC_NETWORK_MODE_AUTO: smode = "Auto"; break; case WMC_NETWORK_MODE_LTE_ONLY: smode = "LTE only"; break; default: break; } close (fd); return smode; error: close (fd); return NULL; } /******************************************************************/ static qcdmbool qcdm_send (int fd, char *buf, size_t len) { int status; int eagain_count = 1000; size_t i = 0; if (debug) print_buf ("DM:ENC>>>", buf, len); while (i < len) { errno = 0; status = write (fd, &buf[i], 1); if (status < 0) { if (errno == EAGAIN) { eagain_count--; if (eagain_count <= 0) return FALSE; } else assert (errno == 0); } else i++; usleep (1000); } return TRUE; } static size_t qcdm_wait_reply (int fd, char *buf, size_t len) { fd_set in; int result; struct timeval timeout = { 1, 0 }; char readbuf[1024]; ssize_t bytes_read; int total = 0, retries = 0; size_t decap_len = 0; FD_ZERO (&in); FD_SET (fd, &in); result = select (fd + 1, &in, NULL, NULL, &timeout); if (result != 1 || !FD_ISSET (fd, &in)) return 0; do { errno = 0; bytes_read = read (fd, &readbuf[total], 1); if ((bytes_read == 0) || (errno == EAGAIN)) { /* Haven't gotten the async control char yet */ if (retries > 20) return 0; /* 2 seconds, give up */ /* Otherwise wait a bit and try again */ usleep (100000); retries++; continue; } else if (bytes_read == 1) { qcdmbool more = FALSE; qcdmbool success; size_t used = 0; total++; decap_len = 0; success = dm_decapsulate_buffer (readbuf, total, buf, len, &decap_len, &used, &more); /* Discard used data */ if (used > 0) { total -= used; memmove (readbuf, &readbuf[used], total); } if (success && !more) { /* Success; we have a packet */ break; } } else { /* Some error occurred */ return 0; } } while (total < sizeof (readbuf)); if (debug) print_buf ("QCDM:DEC<<", buf, decap_len); return decap_len; } static int qcdm_set_hdr_pref (const char *port, u_int8_t hdrpref) { int fd, err; char buf[512]; size_t len; QcdmResult *result; size_t reply_len; fd = com_setup (port); if (fd < 0) return -1; err = qcdm_port_setup (fd); if (err != QCDM_SUCCESS) { fprintf (stderr, "E: failed to set up DM port %s: %d\n", port, err); goto error; } len = qcdm_cmd_nv_set_hdr_rev_pref_new (buf, sizeof (buf), hdrpref); assert (len); /* Send the command */ if (!qcdm_send (fd, buf, len)) { fprintf (stderr, "E: failed to send QCDM HDR pref command\n"); goto error; } reply_len = qcdm_wait_reply (fd, buf, sizeof (buf)); if (!reply_len) { fprintf (stderr, "E: failed to receive HDR pref command reply\n"); goto error; } /* Parse the response into a result structure */ err = QCDM_SUCCESS; result = qcdm_cmd_nv_set_hdr_rev_pref_result (buf, reply_len, &err); if (!result) { fprintf (stderr, "E: failed to parse HDR pref command reply: %d\n", err); goto error; } qcdm_result_unref (result); close (fd); return 0; error: close (fd); return -1; } static const char * qcdm_get_hdr_pref (const char *port) { int fd, err; char buf[512]; size_t len; QcdmResult *result = NULL; size_t reply_len; u_int8_t pref; const char *spref = NULL; fd = com_setup (port); if (fd < 0) return NULL; err = qcdm_port_setup (fd); if (err != QCDM_SUCCESS) { fprintf (stderr, "E: failed to set up DM port %s: %d\n", port, err); goto error; } len = qcdm_cmd_nv_get_hdr_rev_pref_new (buf, sizeof (buf)); assert (len > 0); /* Send the command */ if (!qcdm_send (fd, buf, len)) { fprintf (stderr, "E: failed to send QCDM HDR pref command\n"); goto error; } reply_len = qcdm_wait_reply (fd, buf, sizeof (buf)); if (!reply_len) { fprintf (stderr, "E: failed to receive HDR pref command reply\n"); goto error; } /* Parse the response into a result structure */ err = QCDM_SUCCESS; result = qcdm_cmd_nv_get_hdr_rev_pref_result (buf, reply_len, &err); if (!result) { fprintf (stderr, "E: failed to parse HDR pref command reply: %d\n", err); goto error; } err = qcdm_result_get_u8 (result, QCDM_CMD_NV_GET_HDR_REV_PREF_ITEM_REV_PREF, &pref); if (err != QCDM_SUCCESS) goto error; switch (pref) { case QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_0: spref = "rev0"; break; case QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_A: spref = "revA"; break; case QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_EHRPD: spref = "eHRPD"; break; default: break; } qcdm_result_unref (result); close (fd); return spref; error: if (result) qcdm_result_unref (result); close (fd); return NULL; } static int qcdm_set_mode (const char *port, u_int8_t mode) { int fd, err; char buf[512]; size_t len; QcdmResult *result; size_t reply_len; fd = com_setup (port); if (fd < 0) return -1; err = qcdm_port_setup (fd); if (err != QCDM_SUCCESS) { fprintf (stderr, "E: failed to set up DM port %s: %d\n", port, err); goto error; } len = qcdm_cmd_control_new (buf, sizeof (buf), mode); assert (len); /* Send the command */ if (!qcdm_send (fd, buf, len)) { fprintf (stderr, "E: failed to send QCDM Control command\n"); goto error; } reply_len = qcdm_wait_reply (fd, buf, sizeof (buf)); if (!reply_len) { fprintf (stderr, "E: failed to receive Control command reply\n"); goto error; } /* Parse the response into a result structure */ err = QCDM_SUCCESS; result = qcdm_cmd_control_result (buf, reply_len, &err); if (!result) { fprintf (stderr, "E: failed to parse Control command reply: %d\n", err); goto error; } qcdm_result_unref (result); close (fd); return 0; error: close (fd); return -1; } /******************************************************************/ static void usage (const char *prog) { fprintf (stderr, "Usage: %s [] [--debug]\n", prog); fprintf (stderr, " = lte, auto-cdma, auto, cdma, evdo, auto-gsm, gprs, umts\n"); fprintf (stderr, " If is missing, current mode will be printed.\n\n"); } static wmcbool parse_mode (const char *s, u_int8_t *out_mode, u_int8_t *out_hdrpref, wmcbool *out_set_evdo) { if (strcasecmp (s, "lte") == 0) { *out_mode = WMC_NETWORK_MODE_LTE_ONLY; *out_hdrpref = QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_EHRPD; *out_set_evdo = TRUE; return TRUE; } if (strcasecmp (s, "auto-cdma") == 0) { *out_mode = WMC_NETWORK_MODE_AUTO_CDMA; *out_hdrpref = QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_A; *out_set_evdo = TRUE; return TRUE; } if (strcasecmp (s, "auto") == 0) { *out_mode = WMC_NETWORK_MODE_AUTO; *out_hdrpref = QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_EHRPD; *out_set_evdo = TRUE; return TRUE; } if (strcasecmp (s, "cdma") == 0) { *out_mode = WMC_NETWORK_MODE_CDMA_ONLY; *out_hdrpref = QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_A; *out_set_evdo = TRUE; return TRUE; } if (strcasecmp (s, "evdo") == 0) { *out_mode = WMC_NETWORK_MODE_EVDO_ONLY; *out_hdrpref = QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_A; *out_set_evdo = TRUE; return TRUE; } if (strcasecmp (s, "auto-gsm") == 0) { *out_mode = WMC_NETWORK_MODE_AUTO_GSM; *out_set_evdo = FALSE; return TRUE; } if (strcasecmp (s, "gprs") == 0) { *out_mode = WMC_NETWORK_MODE_GPRS_ONLY; *out_set_evdo = FALSE; return TRUE; } if (strcasecmp (s, "umts") == 0) { *out_mode = WMC_NETWORK_MODE_UMTS_ONLY; *out_set_evdo = FALSE; return TRUE; } return FALSE; } int main (int argc, char *argv[]) { u_int8_t mode = WMC_NETWORK_MODE_AUTO; u_int8_t hdrpref = QCDM_CMD_NV_HDR_REV_PREF_ITEM_REV_PREF_EHRPD; const char *wmcport = argv[1]; const char *dmport = argv[2]; const char *msg = NULL; wmcbool set_evdo = FALSE; wmcbool set_mode = FALSE; if (argc < 3 || argc > 5) { usage (argv[0]); return 1; } if (argc >= 4) { if (strcasecmp (argv[3], "--debug") == 0) debug = 1; else { set_mode = parse_mode (argv[3], &mode, &hdrpref, &set_evdo); if (!set_mode) { usage (argv[0]); return 1; } } if (argc >= 5 && strcasecmp (argv[4], "--debug") == 0) debug = 1; } if (debug) { putenv ("WMC_DEBUG=1"); putenv ("QCDM_DEBUG=1"); } if (set_mode) { if (wmc_set_global_mode (wmcport, mode)) return 1; if (set_evdo && qcdm_set_hdr_pref (dmport, hdrpref)) return 1; /* Send DM reset command */ qcdm_set_mode (dmport, QCDM_CMD_CONTROL_MODE_OFFLINE); sleep (2); qcdm_set_mode (dmport, QCDM_CMD_CONTROL_MODE_RESET); sleep (2); fprintf (stdout, "Success setting mode to '%s': replug your device.\n", argv[3]); } else { msg = wmc_get_global_mode (wmcport); fprintf (stdout, "WMC Global Mode: %s\n", msg ? msg : "(unknown)"); msg = qcdm_get_hdr_pref (dmport); fprintf (stdout, "QCDM HDR Revision: %s\n", msg ? msg : "(unknown)"); } return 0; }