/* Copyright (c) 2008-2012, The Linux Foundation. All rights reserved. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 and * only version 2 as published by the Free Software Foundation. * * 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. * */ /* * SMD Packet Driver -- Provides a binary SMD non-muxed packet port * interface. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "smd_private.h" #ifdef CONFIG_ARCH_FSM9XXX #define NUM_SMD_PKT_PORTS 4 #else #define NUM_SMD_PKT_PORTS 24 #endif #define PDRIVER_NAME_MAX_SIZE 32 #define LOOPBACK_INX (NUM_SMD_PKT_PORTS - 1) #define DEVICE_NAME "smdpkt" #define WAKELOCK_TIMEOUT (2*HZ) struct smd_pkt_dev { struct cdev cdev; struct device *devicep; void *pil; char pdriver_name[PDRIVER_NAME_MAX_SIZE]; struct platform_driver driver; struct smd_channel *ch; struct mutex ch_lock; struct mutex rx_lock; struct mutex tx_lock; wait_queue_head_t ch_read_wait_queue; wait_queue_head_t ch_write_wait_queue; wait_queue_head_t ch_opened_wait_queue; int i; int ref_cnt; int blocking_write; int is_open; int poll_mode; unsigned ch_size; uint open_modem_wait; int has_reset; int do_reset_notification; struct completion ch_allocated; struct wake_lock pa_wake_lock; /* Packet Arrival Wake lock*/ struct work_struct packet_arrival_work; struct spinlock pa_spinlock; int wakelock_locked; } *smd_pkt_devp[NUM_SMD_PKT_PORTS]; struct class *smd_pkt_classp; static dev_t smd_pkt_number; static struct delayed_work loopback_work; static void check_and_wakeup_reader(struct smd_pkt_dev *smd_pkt_devp); static void check_and_wakeup_writer(struct smd_pkt_dev *smd_pkt_devp); static uint32_t is_modem_smsm_inited(void); #define SMD_PKT_IPC_LOG_PAGE_CNT 2 static void *smd_pkt_ilctxt; static int msm_smd_pkt_debug_mask; module_param_named(debug_mask, msm_smd_pkt_debug_mask, int, S_IRUGO | S_IWUSR | S_IWGRP); enum { SMD_PKT_STATUS = 1U << 0, SMD_PKT_READ = 1U << 1, SMD_PKT_WRITE = 1U << 2, SMD_PKT_READ_DUMP_BUFFER = 1U << 3, SMD_PKT_WRITE_DUMP_BUFFER = 1U << 4, SMD_PKT_POLL = 1U << 5, }; #define DEBUG #ifdef DEBUG #define SMD_PKT_LOG_STRING(x...) \ do { \ if (smd_pkt_ilctxt) \ ipc_log_string(smd_pkt_ilctxt, ": "x); \ } while (0) #define SMD_PKT_LOG_BUF(buf, cnt) \ do { \ char log_buf[128]; \ int i; \ if (smd_pkt_ilctxt) { \ i = cnt < 16 ? cnt : 16; \ hex_dump_to_buffer(buf, i, 16, 1, log_buf, \ sizeof(log_buf), false); \ ipc_log_string(smd_pkt_ilctxt, ": %s", log_buf); \ } \ } while (0) #define D_STATUS(x...) \ do { \ if (msm_smd_pkt_debug_mask & SMD_PKT_STATUS) \ pr_info("Status: "x); \ SMD_PKT_LOG_STRING(x); \ } while (0) #define D_READ(x...) \ do { \ if (msm_smd_pkt_debug_mask & SMD_PKT_READ) \ pr_info("Read: "x); \ SMD_PKT_LOG_STRING(x); \ } while (0) #define D_WRITE(x...) \ do { \ if (msm_smd_pkt_debug_mask & SMD_PKT_WRITE) \ pr_info("Write: "x); \ SMD_PKT_LOG_STRING(x); \ } while (0) #define D_READ_DUMP_BUFFER(prestr, cnt, buf) \ do { \ if (msm_smd_pkt_debug_mask & SMD_PKT_READ_DUMP_BUFFER) \ print_hex_dump(KERN_INFO, prestr, \ DUMP_PREFIX_NONE, 16, 1, \ buf, cnt, 1); \ SMD_PKT_LOG_BUF(buf, cnt); \ } while (0) #define D_WRITE_DUMP_BUFFER(prestr, cnt, buf) \ do { \ if (msm_smd_pkt_debug_mask & SMD_PKT_WRITE_DUMP_BUFFER) \ print_hex_dump(KERN_INFO, prestr, \ DUMP_PREFIX_NONE, 16, 1, \ buf, cnt, 1); \ SMD_PKT_LOG_BUF(buf, cnt); \ } while (0) #define D_POLL(x...) \ do { \ if (msm_smd_pkt_debug_mask & SMD_PKT_POLL) \ pr_info("Poll: "x); \ SMD_PKT_LOG_STRING(x); \ } while (0) #define E_SMD_PKT_SSR(x) \ do { \ if (x->do_reset_notification) \ pr_err("%s notifying reset for smd_pkt_dev id:%d\n", \ __func__, x->i); \ } while (0) #else #define D_STATUS(x...) do {} while (0) #define D_READ(x...) do {} while (0) #define D_WRITE(x...) do {} while (0) #define D_READ_DUMP_BUFFER(prestr, cnt, buf) do {} while (0) #define D_WRITE_DUMP_BUFFER(prestr, cnt, buf) do {} while (0) #define D_POLL(x...) do {} while (0) #define E_SMD_PKT_SSR(x) do {} while (0) #endif static ssize_t open_timeout_store(struct device *d, struct device_attribute *attr, const char *buf, size_t n) { int i; unsigned long tmp; for (i = 0; i < NUM_SMD_PKT_PORTS; ++i) { if (smd_pkt_devp[i]->devicep == d) break; } if (i >= NUM_SMD_PKT_PORTS) { pr_err("%s: unable to match device to valid smd_pkt port\n", __func__); return -EINVAL; } if (!strict_strtoul(buf, 10, &tmp)) { smd_pkt_devp[i]->open_modem_wait = tmp; return n; } else { pr_err("%s: unable to convert: %s to an int\n", __func__, buf); return -EINVAL; } } static ssize_t open_timeout_show(struct device *d, struct device_attribute *attr, char *buf) { int i; for (i = 0; i < NUM_SMD_PKT_PORTS; ++i) { if (smd_pkt_devp[i]->devicep == d) break; } if (i >= NUM_SMD_PKT_PORTS) { pr_err("%s: unable to match device to valid smd_pkt port\n", __func__); return -EINVAL; } return snprintf(buf, PAGE_SIZE, "%d\n", smd_pkt_devp[i]->open_modem_wait); } static DEVICE_ATTR(open_timeout, 0664, open_timeout_show, open_timeout_store); static int notify_reset(struct smd_pkt_dev *smd_pkt_devp) { smd_pkt_devp->do_reset_notification = 0; return -ENETRESET; } static void clean_and_signal(struct smd_pkt_dev *smd_pkt_devp) { smd_pkt_devp->do_reset_notification = 1; smd_pkt_devp->has_reset = 1; smd_pkt_devp->is_open = 0; wake_up(&smd_pkt_devp->ch_read_wait_queue); wake_up(&smd_pkt_devp->ch_write_wait_queue); wake_up_interruptible(&smd_pkt_devp->ch_opened_wait_queue); D_STATUS("%s smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); } static void loopback_probe_worker(struct work_struct *work) { /* Wait for the modem SMSM to be inited for the SMD ** Loopback channel to be allocated at the modem. Since ** the wait need to be done atmost once, using msleep ** doesn't degrade the performance. */ if (!is_modem_smsm_inited()) schedule_delayed_work(&loopback_work, msecs_to_jiffies(1000)); else smsm_change_state(SMSM_APPS_STATE, 0, SMSM_SMD_LOOPBACK); } static void packet_arrival_worker(struct work_struct *work) { struct smd_pkt_dev *smd_pkt_devp; unsigned long flags; smd_pkt_devp = container_of(work, struct smd_pkt_dev, packet_arrival_work); mutex_lock(&smd_pkt_devp->ch_lock); spin_lock_irqsave(&smd_pkt_devp->pa_spinlock, flags); if (smd_pkt_devp->ch && smd_pkt_devp->wakelock_locked) { D_READ("%s locking smd_pkt_dev id:%d wakelock\n", __func__, smd_pkt_devp->i); wake_lock_timeout(&smd_pkt_devp->pa_wake_lock, WAKELOCK_TIMEOUT); } spin_unlock_irqrestore(&smd_pkt_devp->pa_spinlock, flags); mutex_unlock(&smd_pkt_devp->ch_lock); } static long smd_pkt_ioctl(struct file *file, unsigned int cmd, unsigned long arg) { int ret; struct smd_pkt_dev *smd_pkt_devp; smd_pkt_devp = file->private_data; if (!smd_pkt_devp) return -EINVAL; mutex_lock(&smd_pkt_devp->ch_lock); switch (cmd) { case TIOCMGET: D_STATUS("%s TIOCMGET command on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); ret = smd_tiocmget(smd_pkt_devp->ch); break; case TIOCMSET: D_STATUS("%s TIOCSET command on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); ret = smd_tiocmset(smd_pkt_devp->ch, arg, ~arg); break; case SMD_PKT_IOCTL_BLOCKING_WRITE: ret = get_user(smd_pkt_devp->blocking_write, (int *)arg); break; default: pr_err("%s: Unrecognized ioctl command %d\n", __func__, cmd); ret = -1; } mutex_unlock(&smd_pkt_devp->ch_lock); return ret; } ssize_t smd_pkt_read(struct file *file, char __user *buf, size_t count, loff_t *ppos) { int r; int bytes_read; int pkt_size; struct smd_pkt_dev *smd_pkt_devp; unsigned long flags; smd_pkt_devp = file->private_data; if (!smd_pkt_devp) { pr_err("%s on NULL smd_pkt_dev\n", __func__); return -EINVAL; } if (!smd_pkt_devp->ch) { pr_err("%s on a closed smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return -EINVAL; } if (smd_pkt_devp->do_reset_notification) { /* notify client that a reset occurred */ E_SMD_PKT_SSR(smd_pkt_devp); return notify_reset(smd_pkt_devp); } D_READ("Begin %s on smd_pkt_dev id:%d buffer_size %d\n", __func__, smd_pkt_devp->i, count); wait_for_packet: r = wait_event_interruptible(smd_pkt_devp->ch_read_wait_queue, !smd_pkt_devp->ch || (smd_cur_packet_size(smd_pkt_devp->ch) > 0 && smd_read_avail(smd_pkt_devp->ch)) || smd_pkt_devp->has_reset); mutex_lock(&smd_pkt_devp->rx_lock); if (smd_pkt_devp->has_reset) { mutex_unlock(&smd_pkt_devp->rx_lock); E_SMD_PKT_SSR(smd_pkt_devp); return notify_reset(smd_pkt_devp); } if (!smd_pkt_devp->ch) { mutex_unlock(&smd_pkt_devp->rx_lock); pr_err("%s on a closed smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return -EINVAL; } if (r < 0) { mutex_unlock(&smd_pkt_devp->rx_lock); /* qualify error message */ if (r != -ERESTARTSYS) { /* we get this anytime a signal comes in */ pr_err("%s: wait_event_interruptible on smd_pkt_dev" " id:%d ret %i\n", __func__, smd_pkt_devp->i, r); } return r; } /* Here we have a whole packet waiting for us */ pkt_size = smd_cur_packet_size(smd_pkt_devp->ch); if (!pkt_size) { pr_err("%s: No data on smd_pkt_dev id:%d, False wakeup\n", __func__, smd_pkt_devp->i); mutex_unlock(&smd_pkt_devp->rx_lock); goto wait_for_packet; } if (pkt_size > count) { pr_err("%s: failure on smd_pkt_dev id: %d - packet size %d" " > buffer size %d,", __func__, smd_pkt_devp->i, pkt_size, count); mutex_unlock(&smd_pkt_devp->rx_lock); return -ETOOSMALL; } bytes_read = 0; do { r = smd_read_user_buffer(smd_pkt_devp->ch, (buf + bytes_read), (pkt_size - bytes_read)); if (r < 0) { mutex_unlock(&smd_pkt_devp->rx_lock); if (smd_pkt_devp->has_reset) { E_SMD_PKT_SSR(smd_pkt_devp); return notify_reset(smd_pkt_devp); } pr_err("%s Error while reading %d\n", __func__, r); return r; } bytes_read += r; if (pkt_size != bytes_read) wait_event(smd_pkt_devp->ch_read_wait_queue, smd_read_avail(smd_pkt_devp->ch) || smd_pkt_devp->has_reset); if (smd_pkt_devp->has_reset) { mutex_unlock(&smd_pkt_devp->rx_lock); E_SMD_PKT_SSR(smd_pkt_devp); return notify_reset(smd_pkt_devp); } } while (pkt_size != bytes_read); D_READ_DUMP_BUFFER("Read: ", (bytes_read > 16 ? 16 : bytes_read), buf); mutex_unlock(&smd_pkt_devp->rx_lock); mutex_lock(&smd_pkt_devp->ch_lock); spin_lock_irqsave(&smd_pkt_devp->pa_spinlock, flags); if (smd_pkt_devp->poll_mode && !smd_cur_packet_size(smd_pkt_devp->ch)) { wake_unlock(&smd_pkt_devp->pa_wake_lock); smd_pkt_devp->wakelock_locked = 0; smd_pkt_devp->poll_mode = 0; D_READ("%s unlocked smd_pkt_dev id:%d wakelock\n", __func__, smd_pkt_devp->i); } spin_unlock_irqrestore(&smd_pkt_devp->pa_spinlock, flags); mutex_unlock(&smd_pkt_devp->ch_lock); D_READ("Finished %s on smd_pkt_dev id:%d %d bytes\n", __func__, smd_pkt_devp->i, bytes_read); /* check and wakeup read threads waiting on this device */ check_and_wakeup_reader(smd_pkt_devp); return bytes_read; } ssize_t smd_pkt_write(struct file *file, const char __user *buf, size_t count, loff_t *ppos) { int r = 0, bytes_written; struct smd_pkt_dev *smd_pkt_devp; DEFINE_WAIT(write_wait); smd_pkt_devp = file->private_data; if (!smd_pkt_devp) { pr_err("%s on NULL smd_pkt_dev\n", __func__); return -EINVAL; } if (!smd_pkt_devp->ch) { pr_err("%s on a closed smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return -EINVAL; } if (smd_pkt_devp->do_reset_notification || smd_pkt_devp->has_reset) { E_SMD_PKT_SSR(smd_pkt_devp); /* notify client that a reset occurred */ return notify_reset(smd_pkt_devp); } D_WRITE("Begin %s on smd_pkt_dev id:%d data_size %d\n", __func__, smd_pkt_devp->i, count); mutex_lock(&smd_pkt_devp->tx_lock); if (!smd_pkt_devp->blocking_write) { if (smd_write_avail(smd_pkt_devp->ch) < count) { pr_err("%s: Not enough space in smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); mutex_unlock(&smd_pkt_devp->tx_lock); return -ENOMEM; } } r = smd_write_start(smd_pkt_devp->ch, count); if (r < 0) { mutex_unlock(&smd_pkt_devp->tx_lock); pr_err("%s: Error:%d in smd_pkt_dev id:%d @ smd_write_start\n", __func__, r, smd_pkt_devp->i); return r; } bytes_written = 0; do { prepare_to_wait(&smd_pkt_devp->ch_write_wait_queue, &write_wait, TASK_UNINTERRUPTIBLE); if (!smd_write_avail(smd_pkt_devp->ch) && !smd_pkt_devp->has_reset) { smd_enable_read_intr(smd_pkt_devp->ch); schedule(); } finish_wait(&smd_pkt_devp->ch_write_wait_queue, &write_wait); smd_disable_read_intr(smd_pkt_devp->ch); if (smd_pkt_devp->has_reset) { mutex_unlock(&smd_pkt_devp->tx_lock); E_SMD_PKT_SSR(smd_pkt_devp); return notify_reset(smd_pkt_devp); } else { r = smd_write_segment(smd_pkt_devp->ch, (void *)(buf + bytes_written), (count - bytes_written), 1); if (r < 0) { mutex_unlock(&smd_pkt_devp->tx_lock); if (smd_pkt_devp->has_reset) { E_SMD_PKT_SSR(smd_pkt_devp); return notify_reset(smd_pkt_devp); } pr_err("%s on smd_pkt_dev id:%d failed r:%d\n", __func__, smd_pkt_devp->i, r); return r; } bytes_written += r; } } while (bytes_written != count); smd_write_end(smd_pkt_devp->ch); mutex_unlock(&smd_pkt_devp->tx_lock); D_WRITE_DUMP_BUFFER("Write: ", (bytes_written > 16 ? 16 : bytes_written), buf); D_WRITE("Finished %s on smd_pkt_dev id:%d %d bytes\n", __func__, smd_pkt_devp->i, count); return count; } static unsigned int smd_pkt_poll(struct file *file, poll_table *wait) { struct smd_pkt_dev *smd_pkt_devp; unsigned int mask = 0; smd_pkt_devp = file->private_data; if (!smd_pkt_devp) { pr_err("%s on a NULL device\n", __func__); return POLLERR; } smd_pkt_devp->poll_mode = 1; poll_wait(file, &smd_pkt_devp->ch_read_wait_queue, wait); mutex_lock(&smd_pkt_devp->ch_lock); if (smd_pkt_devp->has_reset || !smd_pkt_devp->ch) { mutex_unlock(&smd_pkt_devp->ch_lock); return POLLERR; } if (smd_read_avail(smd_pkt_devp->ch)) { mask |= POLLIN | POLLRDNORM; D_POLL("%s sets POLLIN for smd_pkt_dev id: %d\n", __func__, smd_pkt_devp->i); } mutex_unlock(&smd_pkt_devp->ch_lock); return mask; } static void check_and_wakeup_reader(struct smd_pkt_dev *smd_pkt_devp) { int sz; unsigned long flags; if (!smd_pkt_devp) { pr_err("%s on a NULL device\n", __func__); return; } if (!smd_pkt_devp->ch) { pr_err("%s on a closed smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return; } sz = smd_cur_packet_size(smd_pkt_devp->ch); if (sz == 0) { D_READ("%s: No packet in smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return; } if (!smd_read_avail(smd_pkt_devp->ch)) { D_READ("%s: packet size is %d in smd_pkt_dev id:%d -" " but the data isn't here\n", __func__, sz, smd_pkt_devp->i); return; } /* here we have a packet of size sz ready */ spin_lock_irqsave(&smd_pkt_devp->pa_spinlock, flags); wake_lock(&smd_pkt_devp->pa_wake_lock); smd_pkt_devp->wakelock_locked = 1; spin_unlock_irqrestore(&smd_pkt_devp->pa_spinlock, flags); wake_up(&smd_pkt_devp->ch_read_wait_queue); schedule_work(&smd_pkt_devp->packet_arrival_work); D_READ("%s: wake_up smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); } static void check_and_wakeup_writer(struct smd_pkt_dev *smd_pkt_devp) { int sz; if (!smd_pkt_devp) { pr_err("%s on a NULL device\n", __func__); return; } if (!smd_pkt_devp->ch) { pr_err("%s on a closed smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return; } sz = smd_write_avail(smd_pkt_devp->ch); if (sz) { D_WRITE("%s: %d bytes write space in smd_pkt_dev id:%d\n", __func__, sz, smd_pkt_devp->i); smd_disable_read_intr(smd_pkt_devp->ch); wake_up(&smd_pkt_devp->ch_write_wait_queue); } } static void ch_notify(void *priv, unsigned event) { struct smd_pkt_dev *smd_pkt_devp = priv; if (smd_pkt_devp->ch == 0) { pr_err("%s on a closed smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return; } switch (event) { case SMD_EVENT_DATA: { D_STATUS("%s: DATA event in smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); check_and_wakeup_reader(smd_pkt_devp); if (smd_pkt_devp->blocking_write) check_and_wakeup_writer(smd_pkt_devp); break; } case SMD_EVENT_OPEN: D_STATUS("%s: OPEN event in smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); smd_pkt_devp->has_reset = 0; smd_pkt_devp->is_open = 1; wake_up_interruptible(&smd_pkt_devp->ch_opened_wait_queue); break; case SMD_EVENT_CLOSE: D_STATUS("%s: CLOSE event in smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); smd_pkt_devp->is_open = 0; /* put port into reset state */ clean_and_signal(smd_pkt_devp); if (smd_pkt_devp->i == LOOPBACK_INX) schedule_delayed_work(&loopback_work, msecs_to_jiffies(1000)); break; } } #ifdef CONFIG_ARCH_FSM9XXX static char *smd_pkt_dev_name[] = { "smdcntl1", "smdcntl2", "smd22", "smd_pkt_loopback", }; static char *smd_ch_name[] = { "DATA6_CNTL", "DATA7_CNTL", "DATA22", "LOOPBACK", }; static uint32_t smd_ch_edge[] = { SMD_APPS_QDSP, SMD_APPS_QDSP, SMD_APPS_QDSP, SMD_APPS_QDSP }; #else static char *smd_pkt_dev_name[] = { "smdcntl0", "smdcntl1", "smdcntl2", "smdcntl3", "smdcntl4", "smdcntl5", "smdcntl6", "smdcntl7", "smd22", "smdcnt_rev0", "smdcnt_rev1", "smdcnt_rev2", "smdcnt_rev3", "smdcnt_rev4", "smdcnt_rev5", "smdcnt_rev6", "smdcnt_rev7", "smdcnt_rev8", "smd_sns_dsps", "apr_apps2", "smdcntl8", "smd_sns_adsp", "smd_cxm_qmi", "smd_pkt_loopback", }; static char *smd_ch_name[] = { "DATA5_CNTL", "DATA6_CNTL", "DATA7_CNTL", "DATA8_CNTL", "DATA9_CNTL", "DATA12_CNTL", "DATA13_CNTL", "DATA14_CNTL", "DATA22", "DATA23_CNTL", "DATA24_CNTL", "DATA25_CNTL", "DATA26_CNTL", "DATA27_CNTL", "DATA28_CNTL", "DATA29_CNTL", "DATA30_CNTL", "DATA31_CNTL", "SENSOR", "apr_apps2", "DATA40_CNTL", "SENSOR", "CXM_QMI_PORT_8064", "LOOPBACK", }; static uint32_t smd_ch_edge[] = { SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_MODEM, SMD_APPS_DSPS, SMD_APPS_QDSP, SMD_APPS_MODEM, SMD_APPS_QDSP, SMD_APPS_WCNSS, SMD_APPS_MODEM, }; #endif module_param_named(loopback_edge, smd_ch_edge[LOOPBACK_INX], int, S_IRUGO | S_IWUSR | S_IWGRP); static int smd_pkt_dummy_probe(struct platform_device *pdev) { int i; for (i = 0; i < NUM_SMD_PKT_PORTS; i++) { if (smd_ch_edge[i] == pdev->id && !strncmp(pdev->name, smd_ch_name[i], SMD_MAX_CH_NAME_LEN) && smd_pkt_devp[i]->driver.probe) { complete_all(&smd_pkt_devp[i]->ch_allocated); D_STATUS("%s allocated SMD ch for smd_pkt_dev id:%d\n", __func__, i); break; } } return 0; } static uint32_t is_modem_smsm_inited(void) { uint32_t modem_state; uint32_t ready_state = (SMSM_INIT | SMSM_SMDINIT); modem_state = smsm_get_state(SMSM_MODEM_STATE); return (modem_state & ready_state) == ready_state; } int smd_pkt_open(struct inode *inode, struct file *file) { int r = 0; struct smd_pkt_dev *smd_pkt_devp; const char *peripheral = NULL; smd_pkt_devp = container_of(inode->i_cdev, struct smd_pkt_dev, cdev); if (!smd_pkt_devp) { pr_err("%s on a NULL device\n", __func__); return -EINVAL; } D_STATUS("Begin %s on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); file->private_data = smd_pkt_devp; mutex_lock(&smd_pkt_devp->ch_lock); if (smd_pkt_devp->ch == 0) { wake_lock_init(&smd_pkt_devp->pa_wake_lock, WAKE_LOCK_SUSPEND, smd_pkt_dev_name[smd_pkt_devp->i]); INIT_WORK(&smd_pkt_devp->packet_arrival_work, packet_arrival_worker); init_completion(&smd_pkt_devp->ch_allocated); smd_pkt_devp->driver.probe = smd_pkt_dummy_probe; scnprintf(smd_pkt_devp->pdriver_name, PDRIVER_NAME_MAX_SIZE, "%s", smd_ch_name[smd_pkt_devp->i]); smd_pkt_devp->driver.driver.name = smd_pkt_devp->pdriver_name; smd_pkt_devp->driver.driver.owner = THIS_MODULE; r = platform_driver_register(&smd_pkt_devp->driver); if (r) { pr_err("%s: %s Platform driver reg. failed\n", __func__, smd_ch_name[smd_pkt_devp->i]); goto out; } peripheral = smd_edge_to_subsystem( smd_ch_edge[smd_pkt_devp->i]); if (peripheral) { smd_pkt_devp->pil = pil_get(peripheral); if (IS_ERR(smd_pkt_devp->pil)) { r = PTR_ERR(smd_pkt_devp->pil); pr_err("%s failed on smd_pkt_dev id:%d -" " pil_get failed for %s\n", __func__, smd_pkt_devp->i, peripheral); goto release_pd; } /* Wait for the modem SMSM to be inited for the SMD ** Loopback channel to be allocated at the modem. Since ** the wait need to be done atmost once, using msleep ** doesn't degrade the performance. */ if (!strncmp(smd_ch_name[smd_pkt_devp->i], "LOOPBACK", SMD_MAX_CH_NAME_LEN)) { if (!is_modem_smsm_inited()) msleep(5000); smsm_change_state(SMSM_APPS_STATE, 0, SMSM_SMD_LOOPBACK); msleep(100); } /* * Wait for a packet channel to be allocated so we know * the modem is ready enough. */ if (smd_pkt_devp->open_modem_wait) { r = wait_for_completion_interruptible_timeout( &smd_pkt_devp->ch_allocated, msecs_to_jiffies( smd_pkt_devp->open_modem_wait * 1000)); if (r == 0) r = -ETIMEDOUT; if (r < 0) { pr_err("%s: wait on smd_pkt_dev id:%d" " allocation failed rc:%d\n", __func__, smd_pkt_devp->i, r); goto release_pil; } } } r = smd_named_open_on_edge(smd_ch_name[smd_pkt_devp->i], smd_ch_edge[smd_pkt_devp->i], &smd_pkt_devp->ch, smd_pkt_devp, ch_notify); if (r < 0) { pr_err("%s: %s open failed %d\n", __func__, smd_ch_name[smd_pkt_devp->i], r); goto release_pil; } r = wait_event_interruptible_timeout( smd_pkt_devp->ch_opened_wait_queue, smd_pkt_devp->is_open, (2 * HZ)); if (r == 0) { r = -ETIMEDOUT; /* close the ch to sync smd's state with smd_pkt */ smd_close(smd_pkt_devp->ch); smd_pkt_devp->ch = NULL; } if (r < 0) { pr_err("%s: wait on smd_pkt_dev id:%d OPEN event failed" " rc:%d\n", __func__, smd_pkt_devp->i, r); } else if (!smd_pkt_devp->is_open) { pr_err("%s: Invalid OPEN event on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); r = -ENODEV; } else { smd_disable_read_intr(smd_pkt_devp->ch); smd_pkt_devp->ch_size = smd_write_avail(smd_pkt_devp->ch); r = 0; smd_pkt_devp->ref_cnt++; D_STATUS("Finished %s on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); } } else { smd_pkt_devp->ref_cnt++; } release_pil: if (peripheral && (r < 0)) pil_put(smd_pkt_devp->pil); release_pd: if (r < 0) { platform_driver_unregister(&smd_pkt_devp->driver); smd_pkt_devp->driver.probe = NULL; } out: if (!smd_pkt_devp->ch) wake_lock_destroy(&smd_pkt_devp->pa_wake_lock); mutex_unlock(&smd_pkt_devp->ch_lock); return r; } int smd_pkt_release(struct inode *inode, struct file *file) { int r = 0; struct smd_pkt_dev *smd_pkt_devp = file->private_data; if (!smd_pkt_devp) { pr_err("%s on a NULL device\n", __func__); return -EINVAL; } D_STATUS("Begin %s on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); mutex_lock(&smd_pkt_devp->ch_lock); mutex_lock(&smd_pkt_devp->rx_lock); mutex_lock(&smd_pkt_devp->tx_lock); if (smd_pkt_devp->ref_cnt > 0) smd_pkt_devp->ref_cnt--; if (smd_pkt_devp->ch != 0 && smd_pkt_devp->ref_cnt == 0) { clean_and_signal(smd_pkt_devp); r = smd_close(smd_pkt_devp->ch); smd_pkt_devp->ch = 0; smd_pkt_devp->blocking_write = 0; smd_pkt_devp->poll_mode = 0; platform_driver_unregister(&smd_pkt_devp->driver); smd_pkt_devp->driver.probe = NULL; if (smd_pkt_devp->pil) pil_put(smd_pkt_devp->pil); smd_pkt_devp->has_reset = 0; smd_pkt_devp->do_reset_notification = 0; smd_pkt_devp->wakelock_locked = 0; wake_lock_destroy(&smd_pkt_devp->pa_wake_lock); } mutex_unlock(&smd_pkt_devp->tx_lock); mutex_unlock(&smd_pkt_devp->rx_lock); mutex_unlock(&smd_pkt_devp->ch_lock); D_STATUS("Finished %s on smd_pkt_dev id:%d\n", __func__, smd_pkt_devp->i); return r; } static const struct file_operations smd_pkt_fops = { .owner = THIS_MODULE, .open = smd_pkt_open, .release = smd_pkt_release, .read = smd_pkt_read, .write = smd_pkt_write, .poll = smd_pkt_poll, .unlocked_ioctl = smd_pkt_ioctl, }; static int __init smd_pkt_init(void) { int i; int r; r = alloc_chrdev_region(&smd_pkt_number, 0, NUM_SMD_PKT_PORTS, DEVICE_NAME); if (IS_ERR_VALUE(r)) { pr_err("%s: alloc_chrdev_region() failed ret:%i\n", __func__, r); goto error0; } smd_pkt_classp = class_create(THIS_MODULE, DEVICE_NAME); if (IS_ERR(smd_pkt_classp)) { pr_err("%s: class_create() failed ENOMEM\n", __func__); r = -ENOMEM; goto error1; } for (i = 0; i < NUM_SMD_PKT_PORTS; ++i) { smd_pkt_devp[i] = kzalloc(sizeof(struct smd_pkt_dev), GFP_KERNEL); if (IS_ERR(smd_pkt_devp[i])) { pr_err("%s: kzalloc() failed for smd_pkt_dev id:%d\n", __func__, i); r = -ENOMEM; goto error2; } smd_pkt_devp[i]->i = i; init_waitqueue_head(&smd_pkt_devp[i]->ch_read_wait_queue); init_waitqueue_head(&smd_pkt_devp[i]->ch_write_wait_queue); smd_pkt_devp[i]->is_open = 0; smd_pkt_devp[i]->poll_mode = 0; smd_pkt_devp[i]->wakelock_locked = 0; init_waitqueue_head(&smd_pkt_devp[i]->ch_opened_wait_queue); spin_lock_init(&smd_pkt_devp[i]->pa_spinlock); mutex_init(&smd_pkt_devp[i]->ch_lock); mutex_init(&smd_pkt_devp[i]->rx_lock); mutex_init(&smd_pkt_devp[i]->tx_lock); cdev_init(&smd_pkt_devp[i]->cdev, &smd_pkt_fops); smd_pkt_devp[i]->cdev.owner = THIS_MODULE; r = cdev_add(&smd_pkt_devp[i]->cdev, (smd_pkt_number + i), 1); if (IS_ERR_VALUE(r)) { pr_err("%s: cdev_add() failed for smd_pkt_dev id:%d" " ret:%i\n", __func__, i, r); kfree(smd_pkt_devp[i]); goto error2; } smd_pkt_devp[i]->devicep = device_create(smd_pkt_classp, NULL, (smd_pkt_number + i), NULL, smd_pkt_dev_name[i]); if (IS_ERR(smd_pkt_devp[i]->devicep)) { pr_err("%s: device_create() failed for smd_pkt_dev" " id:%d\n", __func__, i); r = -ENOMEM; cdev_del(&smd_pkt_devp[i]->cdev); kfree(smd_pkt_devp[i]); goto error2; } if (device_create_file(smd_pkt_devp[i]->devicep, &dev_attr_open_timeout)) pr_err("%s: unable to create device attr for" " smd_pkt_dev id:%d\n", __func__, i); } INIT_DELAYED_WORK(&loopback_work, loopback_probe_worker); smd_pkt_ilctxt = ipc_log_context_create(SMD_PKT_IPC_LOG_PAGE_CNT, "smd_pkt"); D_STATUS("SMD Packet Port Driver Initialized.\n"); return 0; error2: if (i > 0) { while (--i >= 0) { cdev_del(&smd_pkt_devp[i]->cdev); kfree(smd_pkt_devp[i]); device_destroy(smd_pkt_classp, MKDEV(MAJOR(smd_pkt_number), i)); } } class_destroy(smd_pkt_classp); error1: unregister_chrdev_region(MAJOR(smd_pkt_number), NUM_SMD_PKT_PORTS); error0: return r; } static void __exit smd_pkt_cleanup(void) { int i; for (i = 0; i < NUM_SMD_PKT_PORTS; ++i) { cdev_del(&smd_pkt_devp[i]->cdev); kfree(smd_pkt_devp[i]); device_destroy(smd_pkt_classp, MKDEV(MAJOR(smd_pkt_number), i)); } class_destroy(smd_pkt_classp); unregister_chrdev_region(MAJOR(smd_pkt_number), NUM_SMD_PKT_PORTS); } module_init(smd_pkt_init); module_exit(smd_pkt_cleanup); MODULE_DESCRIPTION("MSM Shared Memory Packet Port"); MODULE_LICENSE("GPL v2");