/* * hdhomerun_control.c * * Copyright © 2006-2010 Silicondust USA Inc. . * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include "hdhomerun.h" #define HDHOMERUN_CONTROL_CONNECT_TIMEOUT 2500 #define HDHOMERUN_CONTROL_SEND_TIMEOUT 2500 #define HDHOMERUN_CONTROL_RECV_TIMEOUT 2500 #define HDHOMERUN_CONTROL_UPGRADE_TIMEOUT 20000 struct hdhomerun_control_sock_t { uint32_t desired_device_id; uint32_t desired_device_ip; uint32_t actual_device_id; uint32_t actual_device_ip; hdhomerun_sock_t sock; struct hdhomerun_debug_t *dbg; struct hdhomerun_pkt_t tx_pkt; struct hdhomerun_pkt_t rx_pkt; }; static void hdhomerun_control_close_sock(struct hdhomerun_control_sock_t *cs) { if (cs->sock == HDHOMERUN_SOCK_INVALID) { return; } hdhomerun_sock_destroy(cs->sock); cs->sock = HDHOMERUN_SOCK_INVALID; } void hdhomerun_control_set_device(struct hdhomerun_control_sock_t *cs, uint32_t device_id, uint32_t device_ip) { hdhomerun_control_close_sock(cs); cs->desired_device_id = device_id; cs->desired_device_ip = device_ip; cs->actual_device_id = 0; cs->actual_device_ip = 0; } struct hdhomerun_control_sock_t *hdhomerun_control_create(uint32_t device_id, uint32_t device_ip, struct hdhomerun_debug_t *dbg) { struct hdhomerun_control_sock_t *cs = (struct hdhomerun_control_sock_t *)calloc(1, sizeof(struct hdhomerun_control_sock_t)); if (!cs) { hdhomerun_debug_printf(dbg, "hdhomerun_control_create: failed to allocate control object\n"); return NULL; } cs->dbg = dbg; cs->sock = HDHOMERUN_SOCK_INVALID; hdhomerun_control_set_device(cs, device_id, device_ip); return cs; } void hdhomerun_control_destroy(struct hdhomerun_control_sock_t *cs) { hdhomerun_control_close_sock(cs); free(cs); } static bool_t hdhomerun_control_connect_sock(struct hdhomerun_control_sock_t *cs) { if (cs->sock != HDHOMERUN_SOCK_INVALID) { return TRUE; } if ((cs->desired_device_id == 0) && (cs->desired_device_ip == 0)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_connect_sock: no device specified\n"); return FALSE; } if (hdhomerun_discover_is_ip_multicast(cs->desired_device_ip)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_connect_sock: cannot use multicast ip address for device operations\n"); return FALSE; } /* Find device. */ struct hdhomerun_discover_device_t result; if (hdhomerun_discover_find_devices_custom(cs->desired_device_ip, HDHOMERUN_DEVICE_TYPE_WILDCARD, cs->desired_device_id, &result, 1) <= 0) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_connect_sock: device not found\n"); return FALSE; } cs->actual_device_ip = result.ip_addr; cs->actual_device_id = result.device_id; /* Create socket. */ cs->sock = hdhomerun_sock_create_tcp(); if (cs->sock == HDHOMERUN_SOCK_INVALID) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_connect_sock: failed to create socket (%d)\n", hdhomerun_sock_getlasterror()); return FALSE; } /* Initiate connection. */ if (!hdhomerun_sock_connect(cs->sock, cs->actual_device_ip, HDHOMERUN_CONTROL_TCP_PORT, HDHOMERUN_CONTROL_CONNECT_TIMEOUT)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_connect_sock: failed to connect (%d)\n", hdhomerun_sock_getlasterror()); hdhomerun_control_close_sock(cs); return FALSE; } /* Success. */ return TRUE; } uint32_t hdhomerun_control_get_device_id(struct hdhomerun_control_sock_t *cs) { if (!hdhomerun_control_connect_sock(cs)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_device_id: connect failed\n"); return 0; } return cs->actual_device_id; } uint32_t hdhomerun_control_get_device_ip(struct hdhomerun_control_sock_t *cs) { if (!hdhomerun_control_connect_sock(cs)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_device_ip: connect failed\n"); return 0; } return cs->actual_device_ip; } uint32_t hdhomerun_control_get_device_id_requested(struct hdhomerun_control_sock_t *cs) { return cs->desired_device_id; } uint32_t hdhomerun_control_get_device_ip_requested(struct hdhomerun_control_sock_t *cs) { return cs->desired_device_ip; } uint32_t hdhomerun_control_get_local_addr(struct hdhomerun_control_sock_t *cs) { if (!hdhomerun_control_connect_sock(cs)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_local_addr: connect failed\n"); return 0; } uint32_t addr = hdhomerun_sock_getsockname_addr(cs->sock); if (addr == 0) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_local_addr: getsockname failed (%d)\n", hdhomerun_sock_getlasterror()); return 0; } return addr; } static bool_t hdhomerun_control_send_sock(struct hdhomerun_control_sock_t *cs, struct hdhomerun_pkt_t *tx_pkt) { if (!hdhomerun_sock_send(cs->sock, tx_pkt->start, tx_pkt->end - tx_pkt->start, HDHOMERUN_CONTROL_SEND_TIMEOUT)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_send_sock: send failed (%d)\n", hdhomerun_sock_getlasterror()); hdhomerun_control_close_sock(cs); return FALSE; } return TRUE; } static bool_t hdhomerun_control_recv_sock(struct hdhomerun_control_sock_t *cs, struct hdhomerun_pkt_t *rx_pkt, uint16_t *ptype, uint64_t recv_timeout) { uint64_t stop_time = getcurrenttime() + recv_timeout; hdhomerun_pkt_reset(rx_pkt); while (1) { uint64_t current_time = getcurrenttime(); if (current_time >= stop_time) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_recv_sock: timeout\n"); hdhomerun_control_close_sock(cs); return FALSE; } size_t length = rx_pkt->limit - rx_pkt->end; if (!hdhomerun_sock_recv(cs->sock, rx_pkt->end, &length, stop_time - current_time)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_recv_sock: recv failed (%d)\n", hdhomerun_sock_getlasterror()); hdhomerun_control_close_sock(cs); return FALSE; } rx_pkt->end += length; int ret = hdhomerun_pkt_open_frame(rx_pkt, ptype); if (ret < 0) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_recv_sock: frame error\n"); hdhomerun_control_close_sock(cs); return FALSE; } if (ret > 0) { return TRUE; } } } static int hdhomerun_control_send_recv_internal(struct hdhomerun_control_sock_t *cs, struct hdhomerun_pkt_t *tx_pkt, struct hdhomerun_pkt_t *rx_pkt, uint16_t type, uint64_t recv_timeout) { hdhomerun_pkt_seal_frame(tx_pkt, type); int i; for (i = 0; i < 2; i++) { if (cs->sock == HDHOMERUN_SOCK_INVALID) { if (!hdhomerun_control_connect_sock(cs)) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_send_recv: connect failed\n"); return -1; } } if (!hdhomerun_control_send_sock(cs, tx_pkt)) { continue; } if (!rx_pkt) { return 1; } uint16_t rsp_type; if (!hdhomerun_control_recv_sock(cs, rx_pkt, &rsp_type, recv_timeout)) { continue; } if (rsp_type != type + 1) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_send_recv: unexpected frame type\n"); hdhomerun_control_close_sock(cs); continue; } return 1; } hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_send_recv: failed\n"); return -1; } int hdhomerun_control_send_recv(struct hdhomerun_control_sock_t *cs, struct hdhomerun_pkt_t *tx_pkt, struct hdhomerun_pkt_t *rx_pkt, uint16_t type) { return hdhomerun_control_send_recv_internal(cs, tx_pkt, rx_pkt, type, HDHOMERUN_CONTROL_RECV_TIMEOUT); } static int hdhomerun_control_get_set(struct hdhomerun_control_sock_t *cs, const char *name, const char *value, uint32_t lockkey, char **pvalue, char **perror) { struct hdhomerun_pkt_t *tx_pkt = &cs->tx_pkt; struct hdhomerun_pkt_t *rx_pkt = &cs->rx_pkt; /* Request. */ hdhomerun_pkt_reset(tx_pkt); int name_len = (int)strlen(name) + 1; if (tx_pkt->end + 3 + name_len > tx_pkt->limit) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_set: request too long\n"); return -1; } hdhomerun_pkt_write_u8(tx_pkt, HDHOMERUN_TAG_GETSET_NAME); hdhomerun_pkt_write_var_length(tx_pkt, name_len); hdhomerun_pkt_write_mem(tx_pkt, (const void *)name, name_len); if (value) { int value_len = (int)strlen(value) + 1; if (tx_pkt->end + 3 + value_len > tx_pkt->limit) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_set: request too long\n"); return -1; } hdhomerun_pkt_write_u8(tx_pkt, HDHOMERUN_TAG_GETSET_VALUE); hdhomerun_pkt_write_var_length(tx_pkt, value_len); hdhomerun_pkt_write_mem(tx_pkt, (const void *)value, value_len); } if (lockkey != 0) { if (tx_pkt->end + 6 > tx_pkt->limit) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_set: request too long\n"); return -1; } hdhomerun_pkt_write_u8(tx_pkt, HDHOMERUN_TAG_GETSET_LOCKKEY); hdhomerun_pkt_write_var_length(tx_pkt, 4); hdhomerun_pkt_write_u32(tx_pkt, lockkey); } /* Send/Recv. */ if (hdhomerun_control_send_recv_internal(cs, tx_pkt, rx_pkt, HDHOMERUN_TYPE_GETSET_REQ, HDHOMERUN_CONTROL_RECV_TIMEOUT) < 0) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_set: send/recv error\n"); return -1; } /* Response. */ while (1) { uint8_t tag; size_t len; uint8_t *next = hdhomerun_pkt_read_tlv(rx_pkt, &tag, &len); if (!next) { break; } switch (tag) { case HDHOMERUN_TAG_GETSET_VALUE: if (pvalue) { *pvalue = (char *)rx_pkt->pos; rx_pkt->pos[len] = 0; } if (perror) { *perror = NULL; } return 1; case HDHOMERUN_TAG_ERROR_MESSAGE: rx_pkt->pos[len] = 0; hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_set: %s\n", rx_pkt->pos); if (pvalue) { *pvalue = NULL; } if (perror) { *perror = (char *)rx_pkt->pos; } return 0; } rx_pkt->pos = next; } hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_get_set: missing response tags\n"); return -1; } int hdhomerun_control_get(struct hdhomerun_control_sock_t *cs, const char *name, char **pvalue, char **perror) { return hdhomerun_control_get_set(cs, name, NULL, 0, pvalue, perror); } int hdhomerun_control_set(struct hdhomerun_control_sock_t *cs, const char *name, const char *value, char **pvalue, char **perror) { return hdhomerun_control_get_set(cs, name, value, 0, pvalue, perror); } int hdhomerun_control_set_with_lockkey(struct hdhomerun_control_sock_t *cs, const char *name, const char *value, uint32_t lockkey, char **pvalue, char **perror) { return hdhomerun_control_get_set(cs, name, value, lockkey, pvalue, perror); } int hdhomerun_control_upgrade(struct hdhomerun_control_sock_t *cs, FILE *upgrade_file) { struct hdhomerun_pkt_t *tx_pkt = &cs->tx_pkt; struct hdhomerun_pkt_t *rx_pkt = &cs->rx_pkt; bool_t upload_delay = FALSE; uint32_t sequence = 0; /* Special case detection. */ char *version_str; int ret = hdhomerun_control_get(cs, "/sys/version", &version_str, NULL); if (ret > 0) { upload_delay = strcmp(version_str, "20120704beta1") == 0; } /* Upload. */ while (1) { uint8_t data[1024]; size_t length = fread(data, 1, 1024, upgrade_file); if (length == 0) { break; } hdhomerun_pkt_reset(tx_pkt); hdhomerun_pkt_write_u32(tx_pkt, sequence); hdhomerun_pkt_write_mem(tx_pkt, data, length); if (hdhomerun_control_send_recv_internal(cs, tx_pkt, NULL, HDHOMERUN_TYPE_UPGRADE_REQ, 0) < 0) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_upgrade: send/recv failed\n"); return -1; } sequence += (uint32_t)length; if (upload_delay) { msleep_approx(25); } } if (sequence == 0) { /* No data in file. Error, but no need to close connection. */ hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_upgrade: zero length file\n"); return 0; } /* Execute upgrade. */ hdhomerun_pkt_reset(tx_pkt); hdhomerun_pkt_write_u32(tx_pkt, 0xFFFFFFFF); if (hdhomerun_control_send_recv_internal(cs, tx_pkt, rx_pkt, HDHOMERUN_TYPE_UPGRADE_REQ, HDHOMERUN_CONTROL_UPGRADE_TIMEOUT) < 0) { hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_upgrade: send/recv failed\n"); return -1; } /* Check response. */ while (1) { uint8_t tag; size_t len; uint8_t *next = hdhomerun_pkt_read_tlv(rx_pkt, &tag, &len); if (!next) { break; } switch (tag) { case HDHOMERUN_TAG_ERROR_MESSAGE: rx_pkt->pos[len] = 0; hdhomerun_debug_printf(cs->dbg, "hdhomerun_control_upgrade: %s\n", (char *)rx_pkt->pos); return 0; default: break; } rx_pkt->pos = next; } return 1; }