Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthieu CASTET | 6128 | 48.77% | 11 | 17.74% |
Stanislaw W. Gruszka | 5781 | 46.01% | 5 | 8.06% |
Tim Gardner | 238 | 1.89% | 1 | 1.61% |
Greg Kroah-Hartman | 97 | 0.77% | 8 | 12.90% |
Dan J Williams | 59 | 0.47% | 1 | 1.61% |
Johan Hovold | 39 | 0.31% | 1 | 1.61% |
Javier Blanco de Torres (Neurowork) | 30 | 0.24% | 1 | 1.61% |
Arjan van de Ven | 25 | 0.20% | 1 | 1.61% |
Harvey Harrison | 24 | 0.19% | 2 | 3.23% |
Chris Forbes | 18 | 0.14% | 2 | 3.23% |
David Woodhouse | 13 | 0.10% | 1 | 1.61% |
David Howells | 12 | 0.10% | 1 | 1.61% |
Al Viro | 11 | 0.09% | 1 | 1.61% |
Karl Hiramoto | 11 | 0.09% | 1 | 1.61% |
Duncan Sands | 11 | 0.09% | 3 | 4.84% |
Johannes Berg | 10 | 0.08% | 1 | 1.61% |
Samuel Ortiz | 8 | 0.06% | 1 | 1.61% |
Tejun Heo | 7 | 0.06% | 2 | 3.23% |
Rusty Russell | 7 | 0.06% | 2 | 3.23% |
Eric Sesterhenn / Snakebyte | 6 | 0.05% | 1 | 1.61% |
Dan Streetman | 4 | 0.03% | 1 | 1.61% |
Lucas De Marchi | 4 | 0.03% | 1 | 1.61% |
Randy Dunlap | 3 | 0.02% | 1 | 1.61% |
Nigel Cunningham | 3 | 0.02% | 1 | 1.61% |
David Brownell | 3 | 0.02% | 1 | 1.61% |
Andy Shevchenko | 2 | 0.02% | 1 | 1.61% |
Linus Torvalds (pre-git) | 2 | 0.02% | 1 | 1.61% |
Lee Jones | 2 | 0.02% | 1 | 1.61% |
Joe Perches | 2 | 0.02% | 1 | 1.61% |
Nick Andrew | 1 | 0.01% | 1 | 1.61% |
Jilin Yuan | 1 | 0.01% | 1 | 1.61% |
André Goddard Rosa | 1 | 0.01% | 1 | 1.61% |
Gustavo A. R. Silva | 1 | 0.01% | 1 | 1.61% |
Linus Torvalds | 1 | 0.01% | 1 | 1.61% |
Colin Ian King | 1 | 0.01% | 1 | 1.61% |
Total | 12566 | 62 |
// SPDX-License-Identifier: (GPL-2.0+ OR BSD-2-Clause) /* * Copyright (c) 2003, 2004 * Damien Bergamini <damien.bergamini@free.fr>. All rights reserved. * * Copyright (c) 2005-2007 Matthieu Castet <castet.matthieu@free.fr> * Copyright (c) 2005-2007 Stanislaw Gruszka <stf_xl@wp.pl> * * HISTORY : some part of the code was base on ueagle 1.3 BSD driver, * Damien Bergamini agree to put his code under a DUAL GPL/BSD license. * * The rest of the code was rewritten from scratch. */ #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/crc32.h> #include <linux/usb.h> #include <linux/firmware.h> #include <linux/ctype.h> #include <linux/sched.h> #include <linux/kthread.h> #include <linux/mutex.h> #include <linux/freezer.h> #include <linux/slab.h> #include <linux/kernel.h> #include <asm/unaligned.h> #include "usbatm.h" #define EAGLEUSBVERSION "ueagle 1.4" /* * Debug macros */ #define uea_dbg(usb_dev, format, args...) \ do { \ if (debug >= 1) \ dev_dbg(&(usb_dev)->dev, \ "[ueagle-atm dbg] %s: " format, \ __func__, ##args); \ } while (0) #define uea_vdbg(usb_dev, format, args...) \ do { \ if (debug >= 2) \ dev_dbg(&(usb_dev)->dev, \ "[ueagle-atm vdbg] " format, ##args); \ } while (0) #define uea_enters(usb_dev) \ uea_vdbg(usb_dev, "entering %s\n" , __func__) #define uea_leaves(usb_dev) \ uea_vdbg(usb_dev, "leaving %s\n" , __func__) #define uea_err(usb_dev, format, args...) \ dev_err(&(usb_dev)->dev , "[UEAGLE-ATM] " format , ##args) #define uea_warn(usb_dev, format, args...) \ dev_warn(&(usb_dev)->dev , "[Ueagle-atm] " format, ##args) #define uea_info(usb_dev, format, args...) \ dev_info(&(usb_dev)->dev , "[ueagle-atm] " format, ##args) struct intr_pkt; /* cmv's from firmware */ struct uea_cmvs_v1 { u32 address; u16 offset; u32 data; } __packed; struct uea_cmvs_v2 { u32 group; u32 address; u32 offset; u32 data; } __packed; /* information about currently processed cmv */ struct cmv_dsc_e1 { u8 function; u16 idx; u32 address; u16 offset; }; struct cmv_dsc_e4 { u16 function; u16 offset; u16 address; u16 group; }; union cmv_dsc { struct cmv_dsc_e1 e1; struct cmv_dsc_e4 e4; }; struct uea_softc { struct usb_device *usb_dev; struct usbatm_data *usbatm; int modem_index; unsigned int driver_info; int annex; #define ANNEXA 0 #define ANNEXB 1 int booting; int reset; wait_queue_head_t sync_q; struct task_struct *kthread; u32 data; u32 data1; int cmv_ack; union cmv_dsc cmv_dsc; struct work_struct task; u16 pageno; u16 ovl; const struct firmware *dsp_firm; struct urb *urb_int; void (*dispatch_cmv)(struct uea_softc *, struct intr_pkt *); void (*schedule_load_page)(struct uea_softc *, struct intr_pkt *); int (*stat)(struct uea_softc *); int (*send_cmvs)(struct uea_softc *); /* keep in sync with eaglectl */ struct uea_stats { struct { u32 state; u32 flags; u32 mflags; u32 vidcpe; u32 vidco; u32 dsrate; u32 usrate; u32 dsunc; u32 usunc; u32 dscorr; u32 uscorr; u32 txflow; u32 rxflow; u32 usattenuation; u32 dsattenuation; u32 dsmargin; u32 usmargin; u32 firmid; } phy; } stats; }; /* * Elsa IDs */ #define ELSA_VID 0x05CC #define ELSA_PID_PSTFIRM 0x3350 #define ELSA_PID_PREFIRM 0x3351 #define ELSA_PID_A_PREFIRM 0x3352 #define ELSA_PID_A_PSTFIRM 0x3353 #define ELSA_PID_B_PREFIRM 0x3362 #define ELSA_PID_B_PSTFIRM 0x3363 /* * Devolo IDs : pots if (pid & 0x10) */ #define DEVOLO_VID 0x1039 #define DEVOLO_EAGLE_I_A_PID_PSTFIRM 0x2110 #define DEVOLO_EAGLE_I_A_PID_PREFIRM 0x2111 #define DEVOLO_EAGLE_I_B_PID_PSTFIRM 0x2100 #define DEVOLO_EAGLE_I_B_PID_PREFIRM 0x2101 #define DEVOLO_EAGLE_II_A_PID_PSTFIRM 0x2130 #define DEVOLO_EAGLE_II_A_PID_PREFIRM 0x2131 #define DEVOLO_EAGLE_II_B_PID_PSTFIRM 0x2120 #define DEVOLO_EAGLE_II_B_PID_PREFIRM 0x2121 /* * Reference design USB IDs */ #define ANALOG_VID 0x1110 #define ADI930_PID_PREFIRM 0x9001 #define ADI930_PID_PSTFIRM 0x9000 #define EAGLE_I_PID_PREFIRM 0x9010 /* Eagle I */ #define EAGLE_I_PID_PSTFIRM 0x900F /* Eagle I */ #define EAGLE_IIC_PID_PREFIRM 0x9024 /* Eagle IIC */ #define EAGLE_IIC_PID_PSTFIRM 0x9023 /* Eagle IIC */ #define EAGLE_II_PID_PREFIRM 0x9022 /* Eagle II */ #define EAGLE_II_PID_PSTFIRM 0x9021 /* Eagle II */ #define EAGLE_III_PID_PREFIRM 0x9032 /* Eagle III */ #define EAGLE_III_PID_PSTFIRM 0x9031 /* Eagle III */ #define EAGLE_IV_PID_PREFIRM 0x9042 /* Eagle IV */ #define EAGLE_IV_PID_PSTFIRM 0x9041 /* Eagle IV */ /* * USR USB IDs */ #define USR_VID 0x0BAF #define MILLER_A_PID_PREFIRM 0x00F2 #define MILLER_A_PID_PSTFIRM 0x00F1 #define MILLER_B_PID_PREFIRM 0x00FA #define MILLER_B_PID_PSTFIRM 0x00F9 #define HEINEKEN_A_PID_PREFIRM 0x00F6 #define HEINEKEN_A_PID_PSTFIRM 0x00F5 #define HEINEKEN_B_PID_PREFIRM 0x00F8 #define HEINEKEN_B_PID_PSTFIRM 0x00F7 #define PREFIRM 0 #define PSTFIRM (1<<7) #define AUTO_ANNEX_A (1<<8) #define AUTO_ANNEX_B (1<<9) enum { ADI930 = 0, EAGLE_I, EAGLE_II, EAGLE_III, EAGLE_IV }; /* macros for both struct usb_device_id and struct uea_softc */ #define UEA_IS_PREFIRM(x) \ (!((x)->driver_info & PSTFIRM)) #define UEA_CHIP_VERSION(x) \ ((x)->driver_info & 0xf) #define IS_ISDN(x) \ ((x)->annex & ANNEXB) #define INS_TO_USBDEV(ins) (ins->usb_dev) #define GET_STATUS(data) \ ((data >> 8) & 0xf) #define IS_OPERATIONAL(sc) \ ((UEA_CHIP_VERSION(sc) != EAGLE_IV) ? \ (GET_STATUS(sc->stats.phy.state) == 2) : \ (sc->stats.phy.state == 7)) /* * Set of macros to handle unaligned data in the firmware blob. * The FW_GET_BYTE() macro is provided only for consistency. */ #define FW_GET_BYTE(p) (*((__u8 *) (p))) #define FW_DIR "ueagle-atm/" #define EAGLE_FIRMWARE FW_DIR "eagle.fw" #define ADI930_FIRMWARE FW_DIR "adi930.fw" #define EAGLE_I_FIRMWARE FW_DIR "eagleI.fw" #define EAGLE_II_FIRMWARE FW_DIR "eagleII.fw" #define EAGLE_III_FIRMWARE FW_DIR "eagleIII.fw" #define EAGLE_IV_FIRMWARE FW_DIR "eagleIV.fw" #define DSP4I_FIRMWARE FW_DIR "DSP4i.bin" #define DSP4P_FIRMWARE FW_DIR "DSP4p.bin" #define DSP9I_FIRMWARE FW_DIR "DSP9i.bin" #define DSP9P_FIRMWARE FW_DIR "DSP9p.bin" #define DSPEI_FIRMWARE FW_DIR "DSPei.bin" #define DSPEP_FIRMWARE FW_DIR "DSPep.bin" #define FPGA930_FIRMWARE FW_DIR "930-fpga.bin" #define CMV4P_FIRMWARE FW_DIR "CMV4p.bin" #define CMV4PV2_FIRMWARE FW_DIR "CMV4p.bin.v2" #define CMV4I_FIRMWARE FW_DIR "CMV4i.bin" #define CMV4IV2_FIRMWARE FW_DIR "CMV4i.bin.v2" #define CMV9P_FIRMWARE FW_DIR "CMV9p.bin" #define CMV9PV2_FIRMWARE FW_DIR "CMV9p.bin.v2" #define CMV9I_FIRMWARE FW_DIR "CMV9i.bin" #define CMV9IV2_FIRMWARE FW_DIR "CMV9i.bin.v2" #define CMVEP_FIRMWARE FW_DIR "CMVep.bin" #define CMVEPV2_FIRMWARE FW_DIR "CMVep.bin.v2" #define CMVEI_FIRMWARE FW_DIR "CMVei.bin" #define CMVEIV2_FIRMWARE FW_DIR "CMVei.bin.v2" #define UEA_FW_NAME_MAX 30 #define NB_MODEM 4 #define BULK_TIMEOUT 300 #define CTRL_TIMEOUT 1000 #define ACK_TIMEOUT msecs_to_jiffies(3000) #define UEA_INTR_IFACE_NO 0 #define UEA_US_IFACE_NO 1 #define UEA_DS_IFACE_NO 2 #define FASTEST_ISO_INTF 8 #define UEA_BULK_DATA_PIPE 0x02 #define UEA_IDMA_PIPE 0x04 #define UEA_INTR_PIPE 0x04 #define UEA_ISO_DATA_PIPE 0x08 #define UEA_E1_SET_BLOCK 0x0001 #define UEA_E4_SET_BLOCK 0x002c #define UEA_SET_MODE 0x0003 #define UEA_SET_2183_DATA 0x0004 #define UEA_SET_TIMEOUT 0x0011 #define UEA_LOOPBACK_OFF 0x0002 #define UEA_LOOPBACK_ON 0x0003 #define UEA_BOOT_IDMA 0x0006 #define UEA_START_RESET 0x0007 #define UEA_END_RESET 0x0008 #define UEA_SWAP_MAILBOX (0x3fcd | 0x4000) #define UEA_MPTX_START (0x3fce | 0x4000) #define UEA_MPTX_MAILBOX (0x3fd6 | 0x4000) #define UEA_MPRX_MAILBOX (0x3fdf | 0x4000) /* block information in eagle4 dsp firmware */ struct block_index { __le32 PageOffset; __le32 NotLastBlock; __le32 dummy; __le32 PageSize; __le32 PageAddress; __le16 dummy1; __le16 PageNumber; } __packed; #define E4_IS_BOOT_PAGE(PageSize) ((le32_to_cpu(PageSize)) & 0x80000000) #define E4_PAGE_BYTES(PageSize) ((le32_to_cpu(PageSize) & 0x7fffffff) * 4) #define E4_L1_STRING_HEADER 0x10 #define E4_MAX_PAGE_NUMBER 0x58 #define E4_NO_SWAPPAGE_HEADERS 0x31 /* l1_code is eagle4 dsp firmware format */ struct l1_code { u8 string_header[E4_L1_STRING_HEADER]; u8 page_number_to_block_index[E4_MAX_PAGE_NUMBER]; struct block_index page_header[E4_NO_SWAPPAGE_HEADERS]; u8 code[]; } __packed; /* structures describing a block within a DSP page */ struct block_info_e1 { __le16 wHdr; __le16 wAddress; __le16 wSize; __le16 wOvlOffset; __le16 wOvl; /* overlay */ __le16 wLast; } __packed; #define E1_BLOCK_INFO_SIZE 12 struct block_info_e4 { __be16 wHdr; __u8 bBootPage; __u8 bPageNumber; __be32 dwSize; __be32 dwAddress; __be16 wReserved; } __packed; #define E4_BLOCK_INFO_SIZE 14 #define UEA_BIHDR 0xabcd #define UEA_RESERVED 0xffff /* constants describing cmv type */ #define E1_PREAMBLE 0x535c #define E1_MODEMTOHOST 0x01 #define E1_HOSTTOMODEM 0x10 #define E1_MEMACCESS 0x1 #define E1_ADSLDIRECTIVE 0x7 #define E1_FUNCTION_TYPE(f) ((f) >> 4) #define E1_FUNCTION_SUBTYPE(f) ((f) & 0x0f) #define E4_MEMACCESS 0 #define E4_ADSLDIRECTIVE 0xf #define E4_FUNCTION_TYPE(f) ((f) >> 8) #define E4_FUNCTION_SIZE(f) ((f) & 0x0f) #define E4_FUNCTION_SUBTYPE(f) (((f) >> 4) & 0x0f) /* for MEMACCESS */ #define E1_REQUESTREAD 0x0 #define E1_REQUESTWRITE 0x1 #define E1_REPLYREAD 0x2 #define E1_REPLYWRITE 0x3 #define E4_REQUESTREAD 0x0 #define E4_REQUESTWRITE 0x4 #define E4_REPLYREAD (E4_REQUESTREAD | 1) #define E4_REPLYWRITE (E4_REQUESTWRITE | 1) /* for ADSLDIRECTIVE */ #define E1_KERNELREADY 0x0 #define E1_MODEMREADY 0x1 #define E4_KERNELREADY 0x0 #define E4_MODEMREADY 0x1 #define E1_MAKEFUNCTION(t, s) (((t) & 0xf) << 4 | ((s) & 0xf)) #define E4_MAKEFUNCTION(t, st, s) (((t) & 0xf) << 8 | \ ((st) & 0xf) << 4 | ((s) & 0xf)) #define E1_MAKESA(a, b, c, d) \ (((c) & 0xff) << 24 | \ ((d) & 0xff) << 16 | \ ((a) & 0xff) << 8 | \ ((b) & 0xff)) #define E1_GETSA1(a) ((a >> 8) & 0xff) #define E1_GETSA2(a) (a & 0xff) #define E1_GETSA3(a) ((a >> 24) & 0xff) #define E1_GETSA4(a) ((a >> 16) & 0xff) #define E1_SA_CNTL E1_MAKESA('C', 'N', 'T', 'L') #define E1_SA_DIAG E1_MAKESA('D', 'I', 'A', 'G') #define E1_SA_INFO E1_MAKESA('I', 'N', 'F', 'O') #define E1_SA_OPTN E1_MAKESA('O', 'P', 'T', 'N') #define E1_SA_RATE E1_MAKESA('R', 'A', 'T', 'E') #define E1_SA_STAT E1_MAKESA('S', 'T', 'A', 'T') #define E4_SA_CNTL 1 #define E4_SA_STAT 2 #define E4_SA_INFO 3 #define E4_SA_TEST 4 #define E4_SA_OPTN 5 #define E4_SA_RATE 6 #define E4_SA_DIAG 7 #define E4_SA_CNFG 8 /* structures representing a CMV (Configuration and Management Variable) */ struct cmv_e1 { __le16 wPreamble; __u8 bDirection; __u8 bFunction; __le16 wIndex; __le32 dwSymbolicAddress; __le16 wOffsetAddress; __le32 dwData; } __packed; struct cmv_e4 { __be16 wGroup; __be16 wFunction; __be16 wOffset; __be16 wAddress; __be32 dwData[6]; } __packed; /* structures representing swap information */ struct swap_info_e1 { __u8 bSwapPageNo; __u8 bOvl; /* overlay */ } __packed; struct swap_info_e4 { __u8 bSwapPageNo; } __packed; /* structures representing interrupt data */ #define e1_bSwapPageNo u.e1.s1.swapinfo.bSwapPageNo #define e1_bOvl u.e1.s1.swapinfo.bOvl #define e4_bSwapPageNo u.e4.s1.swapinfo.bSwapPageNo #define INT_LOADSWAPPAGE 0x0001 #define INT_INCOMINGCMV 0x0002 union intr_data_e1 { struct { struct swap_info_e1 swapinfo; __le16 wDataSize; } __packed s1; struct { struct cmv_e1 cmv; __le16 wDataSize; } __packed s2; } __packed; union intr_data_e4 { struct { struct swap_info_e4 swapinfo; __le16 wDataSize; } __packed s1; struct { struct cmv_e4 cmv; __le16 wDataSize; } __packed s2; } __packed; struct intr_pkt { __u8 bType; __u8 bNotification; __le16 wValue; __le16 wIndex; __le16 wLength; __le16 wInterrupt; union { union intr_data_e1 e1; union intr_data_e4 e4; } u; } __packed; #define E1_INTR_PKT_SIZE 28 #define E4_INTR_PKT_SIZE 64 static struct usb_driver uea_driver; static DEFINE_MUTEX(uea_mutex); static const char * const chip_name[] = { "ADI930", "Eagle I", "Eagle II", "Eagle III", "Eagle IV"}; static int modem_index; static unsigned int debug; static unsigned int altsetting[NB_MODEM] = { [0 ... (NB_MODEM - 1)] = FASTEST_ISO_INTF}; static bool sync_wait[NB_MODEM]; static char *cmv_file[NB_MODEM]; static int annex[NB_MODEM]; module_param(debug, uint, 0644); MODULE_PARM_DESC(debug, "module debug level (0=off,1=on,2=verbose)"); module_param_array(altsetting, uint, NULL, 0644); MODULE_PARM_DESC(altsetting, "alternate setting for incoming traffic: 0=bulk, " "1=isoc slowest, ... , 8=isoc fastest (default)"); module_param_array(sync_wait, bool, NULL, 0644); MODULE_PARM_DESC(sync_wait, "wait the synchronisation before starting ATM"); module_param_array(cmv_file, charp, NULL, 0644); MODULE_PARM_DESC(cmv_file, "file name with configuration and management variables"); module_param_array(annex, uint, NULL, 0644); MODULE_PARM_DESC(annex, "manually set annex a/b (0=auto, 1=annex a, 2=annex b)"); #define uea_wait(sc, cond, timeo) \ ({ \ int _r = wait_event_interruptible_timeout(sc->sync_q, \ (cond) || kthread_should_stop(), timeo); \ if (kthread_should_stop()) \ _r = -ENODEV; \ _r; \ }) #define UPDATE_ATM_STAT(type, val) \ do { \ if (sc->usbatm->atm_dev) \ sc->usbatm->atm_dev->type = val; \ } while (0) #define UPDATE_ATM_SIGNAL(val) \ do { \ if (sc->usbatm->atm_dev) \ atm_dev_signal_change(sc->usbatm->atm_dev, val); \ } while (0) /* Firmware loading */ #define LOAD_INTERNAL 0xA0 #define F8051_USBCS 0x7f92 /* * uea_send_modem_cmd - Send a command for pre-firmware devices. */ static int uea_send_modem_cmd(struct usb_device *usb, u16 addr, u16 size, const u8 *buff) { int ret = -ENOMEM; u8 *xfer_buff; xfer_buff = kmemdup(buff, size, GFP_KERNEL); if (xfer_buff) { ret = usb_control_msg(usb, usb_sndctrlpipe(usb, 0), LOAD_INTERNAL, USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE, addr, 0, xfer_buff, size, CTRL_TIMEOUT); kfree(xfer_buff); } if (ret < 0) return ret; return (ret == size) ? 0 : -EIO; } static void uea_upload_pre_firmware(const struct firmware *fw_entry, void *context) { struct usb_device *usb = context; const u8 *pfw; u8 value; u32 crc = 0; int ret, size; uea_enters(usb); if (!fw_entry) { uea_err(usb, "firmware is not available\n"); goto err; } pfw = fw_entry->data; size = fw_entry->size; if (size < 4) goto err_fw_corrupted; crc = get_unaligned_le32(pfw); pfw += 4; size -= 4; if (crc32_be(0, pfw, size) != crc) goto err_fw_corrupted; /* * Start to upload firmware : send reset */ value = 1; ret = uea_send_modem_cmd(usb, F8051_USBCS, sizeof(value), &value); if (ret < 0) { uea_err(usb, "modem reset failed with error %d\n", ret); goto err; } while (size > 3) { u8 len = FW_GET_BYTE(pfw); u16 add = get_unaligned_le16(pfw + 1); size -= len + 3; if (size < 0) goto err_fw_corrupted; ret = uea_send_modem_cmd(usb, add, len, pfw + 3); if (ret < 0) { uea_err(usb, "uploading firmware data failed " "with error %d\n", ret); goto err; } pfw += len + 3; } if (size != 0) goto err_fw_corrupted; /* * Tell the modem we finish : de-assert reset */ value = 0; ret = uea_send_modem_cmd(usb, F8051_USBCS, 1, &value); if (ret < 0) uea_err(usb, "modem de-assert failed with error %d\n", ret); else uea_info(usb, "firmware uploaded\n"); goto err; err_fw_corrupted: uea_err(usb, "firmware is corrupted\n"); err: release_firmware(fw_entry); uea_leaves(usb); } /* * uea_load_firmware - Load usb firmware for pre-firmware devices. */ static int uea_load_firmware(struct usb_device *usb, unsigned int ver) { int ret; char *fw_name = EAGLE_FIRMWARE; uea_enters(usb); uea_info(usb, "pre-firmware device, uploading firmware\n"); switch (ver) { case ADI930: fw_name = ADI930_FIRMWARE; break; case EAGLE_I: fw_name = EAGLE_I_FIRMWARE; break; case EAGLE_II: fw_name = EAGLE_II_FIRMWARE; break; case EAGLE_III: fw_name = EAGLE_III_FIRMWARE; break; case EAGLE_IV: fw_name = EAGLE_IV_FIRMWARE; break; } ret = request_firmware_nowait(THIS_MODULE, 1, fw_name, &usb->dev, GFP_KERNEL, usb, uea_upload_pre_firmware); if (ret) uea_err(usb, "firmware %s is not available\n", fw_name); else uea_info(usb, "loading firmware %s\n", fw_name); uea_leaves(usb); return ret; } /* modem management : dsp firmware, send/read CMV, monitoring statistic */ /* * Make sure that the DSP code provided is safe to use. */ static int check_dsp_e1(const u8 *dsp, unsigned int len) { u8 pagecount, blockcount; u16 blocksize; u32 pageoffset; unsigned int i, j, p, pp; pagecount = FW_GET_BYTE(dsp); p = 1; /* enough space for page offsets? */ if (p + 4 * pagecount > len) return 1; for (i = 0; i < pagecount; i++) { pageoffset = get_unaligned_le32(dsp + p); p += 4; if (pageoffset == 0) continue; /* enough space for blockcount? */ if (pageoffset >= len) return 1; pp = pageoffset; blockcount = FW_GET_BYTE(dsp + pp); pp += 1; for (j = 0; j < blockcount; j++) { /* enough space for block header? */ if (pp + 4 > len) return 1; pp += 2; /* skip blockaddr */ blocksize = get_unaligned_le16(dsp + pp); pp += 2; /* enough space for block data? */ if (pp + blocksize > len) return 1; pp += blocksize; } } return 0; } static int check_dsp_e4(const u8 *dsp, int len) { int i; struct l1_code *p = (struct l1_code *) dsp; unsigned int sum = p->code - dsp; if (len < sum) return 1; if (strcmp("STRATIPHY ANEXA", p->string_header) != 0 && strcmp("STRATIPHY ANEXB", p->string_header) != 0) return 1; for (i = 0; i < E4_MAX_PAGE_NUMBER; i++) { struct block_index *blockidx; u8 blockno = p->page_number_to_block_index[i]; if (blockno >= E4_NO_SWAPPAGE_HEADERS) continue; do { u64 l; if (blockno >= E4_NO_SWAPPAGE_HEADERS) return 1; blockidx = &p->page_header[blockno++]; if ((u8 *)(blockidx + 1) - dsp >= len) return 1; if (le16_to_cpu(blockidx->PageNumber) != i) return 1; l = E4_PAGE_BYTES(blockidx->PageSize); sum += l; l += le32_to_cpu(blockidx->PageOffset); if (l > len) return 1; /* zero is zero regardless endianes */ } while (blockidx->NotLastBlock); } return (sum == len) ? 0 : 1; } /* * send data to the idma pipe * */ static int uea_idma_write(struct uea_softc *sc, const void *data, u32 size) { int ret = -ENOMEM; u8 *xfer_buff; int bytes_read; xfer_buff = kmemdup(data, size, GFP_KERNEL); if (!xfer_buff) { uea_err(INS_TO_USBDEV(sc), "can't allocate xfer_buff\n"); return ret; } ret = usb_bulk_msg(sc->usb_dev, usb_sndbulkpipe(sc->usb_dev, UEA_IDMA_PIPE), xfer_buff, size, &bytes_read, BULK_TIMEOUT); kfree(xfer_buff); if (ret < 0) return ret; if (size != bytes_read) { uea_err(INS_TO_USBDEV(sc), "size != bytes_read %d %d\n", size, bytes_read); return -EIO; } return 0; } static int request_dsp(struct uea_softc *sc) { int ret; char *dsp_name; if (UEA_CHIP_VERSION(sc) == EAGLE_IV) { if (IS_ISDN(sc)) dsp_name = DSP4I_FIRMWARE; else dsp_name = DSP4P_FIRMWARE; } else if (UEA_CHIP_VERSION(sc) == ADI930) { if (IS_ISDN(sc)) dsp_name = DSP9I_FIRMWARE; else dsp_name = DSP9P_FIRMWARE; } else { if (IS_ISDN(sc)) dsp_name = DSPEI_FIRMWARE; else dsp_name = DSPEP_FIRMWARE; } ret = request_firmware(&sc->dsp_firm, dsp_name, &sc->usb_dev->dev); if (ret < 0) { uea_err(INS_TO_USBDEV(sc), "requesting firmware %s failed with error %d\n", dsp_name, ret); return ret; } if (UEA_CHIP_VERSION(sc) == EAGLE_IV) ret = check_dsp_e4(sc->dsp_firm->data, sc->dsp_firm->size); else ret = check_dsp_e1(sc->dsp_firm->data, sc->dsp_firm->size); if (ret) { uea_err(INS_TO_USBDEV(sc), "firmware %s is corrupted\n", dsp_name); release_firmware(sc->dsp_firm); sc->dsp_firm = NULL; return -EILSEQ; } return 0; } /* * The uea_load_page() function must be called within a process context */ static void uea_load_page_e1(struct work_struct *work) { struct uea_softc *sc = container_of(work, struct uea_softc, task); u16 pageno = sc->pageno; u16 ovl = sc->ovl; struct block_info_e1 bi; const u8 *p; u8 pagecount, blockcount; u16 blockaddr, blocksize; u32 pageoffset; int i; /* reload firmware when reboot start and it's loaded already */ if (ovl == 0 && pageno == 0) { release_firmware(sc->dsp_firm); sc->dsp_firm = NULL; } if (sc->dsp_firm == NULL && request_dsp(sc) < 0) return; p = sc->dsp_firm->data; pagecount = FW_GET_BYTE(p); p += 1; if (pageno >= pagecount) goto bad1; p += 4 * pageno; pageoffset = get_unaligned_le32(p); if (pageoffset == 0) goto bad1; p = sc->dsp_firm->data + pageoffset; blockcount = FW_GET_BYTE(p); p += 1; uea_dbg(INS_TO_USBDEV(sc), "sending %u blocks for DSP page %u\n", blockcount, pageno); bi.wHdr = cpu_to_le16(UEA_BIHDR); bi.wOvl = cpu_to_le16(ovl); bi.wOvlOffset = cpu_to_le16(ovl | 0x8000); for (i = 0; i < blockcount; i++) { blockaddr = get_unaligned_le16(p); p += 2; blocksize = get_unaligned_le16(p); p += 2; bi.wSize = cpu_to_le16(blocksize); bi.wAddress = cpu_to_le16(blockaddr); bi.wLast = cpu_to_le16((i == blockcount - 1) ? 1 : 0); /* send block info through the IDMA pipe */ if (uea_idma_write(sc, &bi, E1_BLOCK_INFO_SIZE)) goto bad2; /* send block data through the IDMA pipe */ if (uea_idma_write(sc, p, blocksize)) goto bad2; p += blocksize; } return; bad2: uea_err(INS_TO_USBDEV(sc), "sending DSP block %u failed\n", i); return; bad1: uea_err(INS_TO_USBDEV(sc), "invalid DSP page %u requested\n", pageno); } static void __uea_load_page_e4(struct uea_softc *sc, u8 pageno, int boot) { struct block_info_e4 bi; struct block_index *blockidx; struct l1_code *p = (struct l1_code *) sc->dsp_firm->data; u8 blockno = p->page_number_to_block_index[pageno]; bi.wHdr = cpu_to_be16(UEA_BIHDR); bi.bBootPage = boot; bi.bPageNumber = pageno; bi.wReserved = cpu_to_be16(UEA_RESERVED); do { const u8 *blockoffset; unsigned int blocksize; blockidx = &p->page_header[blockno]; blocksize = E4_PAGE_BYTES(blockidx->PageSize); blockoffset = sc->dsp_firm->data + le32_to_cpu( blockidx->PageOffset); bi.dwSize = cpu_to_be32(blocksize); bi.dwAddress = cpu_to_be32(le32_to_cpu(blockidx->PageAddress)); uea_dbg(INS_TO_USBDEV(sc), "sending block %u for DSP page " "%u size %u address %x\n", blockno, pageno, blocksize, le32_to_cpu(blockidx->PageAddress)); /* send block info through the IDMA pipe */ if (uea_idma_write(sc, &bi, E4_BLOCK_INFO_SIZE)) goto bad; /* send block data through the IDMA pipe */ if (uea_idma_write(sc, blockoffset, blocksize)) goto bad; blockno++; } while (blockidx->NotLastBlock); return; bad: uea_err(INS_TO_USBDEV(sc), "sending DSP block %u failed\n", blockno); return; } static void uea_load_page_e4(struct work_struct *work) { struct uea_softc *sc = container_of(work, struct uea_softc, task); u8 pageno = sc->pageno; int i; struct block_info_e4 bi; struct l1_code *p; uea_dbg(INS_TO_USBDEV(sc), "sending DSP page %u\n", pageno); /* reload firmware when reboot start and it's loaded already */ if (pageno == 0) { release_firmware(sc->dsp_firm); sc->dsp_firm = NULL; } if (sc->dsp_firm == NULL && request_dsp(sc) < 0) return; p = (struct l1_code *) sc->dsp_firm->data; if (pageno >= le16_to_cpu(p->page_header[0].PageNumber)) { uea_err(INS_TO_USBDEV(sc), "invalid DSP " "page %u requested\n", pageno); return; } if (pageno != 0) { __uea_load_page_e4(sc, pageno, 0); return; } uea_dbg(INS_TO_USBDEV(sc), "sending Main DSP page %u\n", p->page_header[0].PageNumber); for (i = 0; i < le16_to_cpu(p->page_header[0].PageNumber); i++) { if (E4_IS_BOOT_PAGE(p->page_header[i].PageSize)) __uea_load_page_e4(sc, i, 1); } uea_dbg(INS_TO_USBDEV(sc) , "sending start bi\n"); bi.wHdr = cpu_to_be16(UEA_BIHDR); bi.bBootPage = 0; bi.bPageNumber = 0xff; bi.wReserved = cpu_to_be16(UEA_RESERVED); bi.dwSize = cpu_to_be32(E4_PAGE_BYTES(p->page_header[0].PageSize)); bi.dwAddress = cpu_to_be32(le32_to_cpu(p->page_header[0].PageAddress)); /* send block info through the IDMA pipe */ if (uea_idma_write(sc, &bi, E4_BLOCK_INFO_SIZE)) uea_err(INS_TO_USBDEV(sc), "sending DSP start bi failed\n"); } static inline void wake_up_cmv_ack(struct uea_softc *sc) { BUG_ON(sc->cmv_ack); sc->cmv_ack = 1; wake_up(&sc->sync_q); } static inline int wait_cmv_ack(struct uea_softc *sc) { int ret = uea_wait(sc, sc->cmv_ack , ACK_TIMEOUT); sc->cmv_ack = 0; uea_dbg(INS_TO_USBDEV(sc), "wait_event_timeout : %d ms\n", jiffies_to_msecs(ret)); if (ret < 0) return ret; return (ret == 0) ? -ETIMEDOUT : 0; } #define UCDC_SEND_ENCAPSULATED_COMMAND 0x00 static int uea_request(struct uea_softc *sc, u16 value, u16 index, u16 size, const void *data) { u8 *xfer_buff; int ret = -ENOMEM; xfer_buff = kmemdup(data, size, GFP_KERNEL); if (!xfer_buff) { uea_err(INS_TO_USBDEV(sc), "can't allocate xfer_buff\n"); return ret; } ret = usb_control_msg(sc->usb_dev, usb_sndctrlpipe(sc->usb_dev, 0), UCDC_SEND_ENCAPSULATED_COMMAND, USB_DIR_OUT | USB_TYPE_VENDOR | USB_RECIP_DEVICE, value, index, xfer_buff, size, CTRL_TIMEOUT); kfree(xfer_buff); if (ret < 0) { uea_err(INS_TO_USBDEV(sc), "usb_control_msg error %d\n", ret); return ret; } if (ret != size) { uea_err(INS_TO_USBDEV(sc), "usb_control_msg send only %d bytes (instead of %d)\n", ret, size); return -EIO; } return 0; } static int uea_cmv_e1(struct uea_softc *sc, u8 function, u32 address, u16 offset, u32 data) { struct cmv_e1 cmv; int ret; uea_enters(INS_TO_USBDEV(sc)); uea_vdbg(INS_TO_USBDEV(sc), "Function : %d-%d, Address : %c%c%c%c, " "offset : 0x%04x, data : 0x%08x\n", E1_FUNCTION_TYPE(function), E1_FUNCTION_SUBTYPE(function), E1_GETSA1(address), E1_GETSA2(address), E1_GETSA3(address), E1_GETSA4(address), offset, data); /* we send a request, but we expect a reply */ sc->cmv_dsc.e1.function = function | 0x2; sc->cmv_dsc.e1.idx++; sc->cmv_dsc.e1.address = address; sc->cmv_dsc.e1.offset = offset; cmv.wPreamble = cpu_to_le16(E1_PREAMBLE); cmv.bDirection = E1_HOSTTOMODEM; cmv.bFunction = function; cmv.wIndex = cpu_to_le16(sc->cmv_dsc.e1.idx); put_unaligned_le32(address, &cmv.dwSymbolicAddress); cmv.wOffsetAddress = cpu_to_le16(offset); put_unaligned_le32(data >> 16 | data << 16, &cmv.dwData); ret = uea_request(sc, UEA_E1_SET_BLOCK, UEA_MPTX_START, sizeof(cmv), &cmv); if (ret < 0) return ret; ret = wait_cmv_ack(sc); uea_leaves(INS_TO_USBDEV(sc)); return ret; } static int uea_cmv_e4(struct uea_softc *sc, u16 function, u16 group, u16 address, u16 offset, u32 data) { struct cmv_e4 cmv; int ret; uea_enters(INS_TO_USBDEV(sc)); memset(&cmv, 0, sizeof(cmv)); uea_vdbg(INS_TO_USBDEV(sc), "Function : %d-%d, Group : 0x%04x, " "Address : 0x%04x, offset : 0x%04x, data : 0x%08x\n", E4_FUNCTION_TYPE(function), E4_FUNCTION_SUBTYPE(function), group, address, offset, data); /* we send a request, but we expect a reply */ sc->cmv_dsc.e4.function = function | (0x1 << 4); sc->cmv_dsc.e4.offset = offset; sc->cmv_dsc.e4.address = address; sc->cmv_dsc.e4.group = group; cmv.wFunction = cpu_to_be16(function); cmv.wGroup = cpu_to_be16(group); cmv.wAddress = cpu_to_be16(address); cmv.wOffset = cpu_to_be16(offset); cmv.dwData[0] = cpu_to_be32(data); ret = uea_request(sc, UEA_E4_SET_BLOCK, UEA_MPTX_START, sizeof(cmv), &cmv); if (ret < 0) return ret; ret = wait_cmv_ack(sc); uea_leaves(INS_TO_USBDEV(sc)); return ret; } static inline int uea_read_cmv_e1(struct uea_softc *sc, u32 address, u16 offset, u32 *data) { int ret = uea_cmv_e1(sc, E1_MAKEFUNCTION(E1_MEMACCESS, E1_REQUESTREAD), address, offset, 0); if (ret < 0) uea_err(INS_TO_USBDEV(sc), "reading cmv failed with error %d\n", ret); else *data = sc->data; return ret; } static inline int uea_read_cmv_e4(struct uea_softc *sc, u8 size, u16 group, u16 address, u16 offset, u32 *data) { int ret = uea_cmv_e4(sc, E4_MAKEFUNCTION(E4_MEMACCESS, E4_REQUESTREAD, size), group, address, offset, 0); if (ret < 0) uea_err(INS_TO_USBDEV(sc), "reading cmv failed with error %d\n", ret); else { *data = sc->data; /* size is in 16-bit word quantities */ if (size > 2) *(data + 1) = sc->data1; } return ret; } static inline int uea_write_cmv_e1(struct uea_softc *sc, u32 address, u16 offset, u32 data) { int ret = uea_cmv_e1(sc, E1_MAKEFUNCTION(E1_MEMACCESS, E1_REQUESTWRITE), address, offset, data); if (ret < 0) uea_err(INS_TO_USBDEV(sc), "writing cmv failed with error %d\n", ret); return ret; } static inline int uea_write_cmv_e4(struct uea_softc *sc, u8 size, u16 group, u16 address, u16 offset, u32 data) { int ret = uea_cmv_e4(sc, E4_MAKEFUNCTION(E4_MEMACCESS, E4_REQUESTWRITE, size), group, address, offset, data); if (ret < 0) uea_err(INS_TO_USBDEV(sc), "writing cmv failed with error %d\n", ret); return ret; } static void uea_set_bulk_timeout(struct uea_softc *sc, u32 dsrate) { int ret; u16 timeout; /* in bulk mode the modem have problem with high rate * changing internal timing could improve things, but the * value is mysterious. * ADI930 don't support it (-EPIPE error). */ if (UEA_CHIP_VERSION(sc) == ADI930 || altsetting[sc->modem_index] > 0 || sc->stats.phy.dsrate == dsrate) return; /* Original timming (1Mbit/s) from ADI (used in windows driver) */ timeout = (dsrate <= 1024*1024) ? 0 : 1; ret = uea_request(sc, UEA_SET_TIMEOUT, timeout, 0, NULL); uea_info(INS_TO_USBDEV(sc), "setting new timeout %d%s\n", timeout, ret < 0 ? " failed" : ""); } /* * Monitor the modem and update the stat * return 0 if everything is ok * return < 0 if an error occurs (-EAGAIN reboot needed) */ static int uea_stat_e1(struct uea_softc *sc) { u32 data; int ret; uea_enters(INS_TO_USBDEV(sc)); data = sc->stats.phy.state; ret = uea_read_cmv_e1(sc, E1_SA_STAT, 0, &sc->stats.phy.state); if (ret < 0) return ret; switch (GET_STATUS(sc->stats.phy.state)) { case 0: /* not yet synchronized */ uea_dbg(INS_TO_USBDEV(sc), "modem not yet synchronized\n"); return 0; case 1: /* initialization */ uea_dbg(INS_TO_USBDEV(sc), "modem initializing\n"); return 0; case 2: /* operational */ uea_vdbg(INS_TO_USBDEV(sc), "modem operational\n"); break; case 3: /* fail ... */ uea_info(INS_TO_USBDEV(sc), "modem synchronization failed" " (may be try other cmv/dsp)\n"); return -EAGAIN; case 4 ... 6: /* test state */ uea_warn(INS_TO_USBDEV(sc), "modem in test mode - not supported\n"); return -EAGAIN; case 7: /* fast-retain ... */ uea_info(INS_TO_USBDEV(sc), "modem in fast-retain mode\n"); return 0; default: uea_err(INS_TO_USBDEV(sc), "modem invalid SW mode %d\n", GET_STATUS(sc->stats.phy.state)); return -EAGAIN; } if (GET_STATUS(data) != 2) { uea_request(sc, UEA_SET_MODE, UEA_LOOPBACK_OFF, 0, NULL); uea_info(INS_TO_USBDEV(sc), "modem operational\n"); /* release the dsp firmware as it is not needed until * the next failure */ release_firmware(sc->dsp_firm); sc->dsp_firm = NULL; } /* always update it as atm layer could not be init when we switch to * operational state */ UPDATE_ATM_SIGNAL(ATM_PHY_SIG_FOUND); /* wake up processes waiting for synchronization */ wake_up(&sc->sync_q); ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 2, &sc->stats.phy.flags); if (ret < 0) return ret; sc->stats.phy.mflags |= sc->stats.phy.flags; /* in case of a flags ( for example delineation LOSS (& 0x10)), * we check the status again in order to detect the failure earlier */ if (sc->stats.phy.flags) { uea_dbg(INS_TO_USBDEV(sc), "Stat flag = 0x%x\n", sc->stats.phy.flags); return 0; } ret = uea_read_cmv_e1(sc, E1_SA_RATE, 0, &data); if (ret < 0) return ret; uea_set_bulk_timeout(sc, (data >> 16) * 32); sc->stats.phy.dsrate = (data >> 16) * 32; sc->stats.phy.usrate = (data & 0xffff) * 32; UPDATE_ATM_STAT(link_rate, sc->stats.phy.dsrate * 1000 / 424); ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 23, &data); if (ret < 0) return ret; sc->stats.phy.dsattenuation = (data & 0xff) / 2; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 47, &data); if (ret < 0) return ret; sc->stats.phy.usattenuation = (data & 0xff) / 2; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 25, &sc->stats.phy.dsmargin); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 49, &sc->stats.phy.usmargin); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 51, &sc->stats.phy.rxflow); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 52, &sc->stats.phy.txflow); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 54, &sc->stats.phy.dsunc); if (ret < 0) return ret; /* only for atu-c */ ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 58, &sc->stats.phy.usunc); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 53, &sc->stats.phy.dscorr); if (ret < 0) return ret; /* only for atu-c */ ret = uea_read_cmv_e1(sc, E1_SA_DIAG, 57, &sc->stats.phy.uscorr); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_INFO, 8, &sc->stats.phy.vidco); if (ret < 0) return ret; ret = uea_read_cmv_e1(sc, E1_SA_INFO, 13, &sc->stats.phy.vidcpe); if (ret < 0) return ret; return 0; } static int uea_stat_e4(struct uea_softc *sc) { u32 data; u32 tmp_arr[2]; int ret; uea_enters(INS_TO_USBDEV(sc)); data = sc->stats.phy.state; /* XXX only need to be done before operationnal... */ ret = uea_read_cmv_e4(sc, 1, E4_SA_STAT, 0, 0, &sc->stats.phy.state); if (ret < 0) return ret; switch (sc->stats.phy.state) { case 0x0: /* not yet synchronized */ case 0x1: case 0x3: case 0x4: uea_dbg(INS_TO_USBDEV(sc), "modem not yet " "synchronized\n"); return 0; case 0x5: /* initialization */ case 0x6: case 0x9: case 0xa: uea_dbg(INS_TO_USBDEV(sc), "modem initializing\n"); return 0; case 0x2: /* fail ... */ uea_info(INS_TO_USBDEV(sc), "modem synchronization " "failed (may be try other cmv/dsp)\n"); return -EAGAIN; case 0x7: /* operational */ break; default: uea_warn(INS_TO_USBDEV(sc), "unknown state: %x\n", sc->stats.phy.state); return 0; } if (data != 7) { uea_request(sc, UEA_SET_MODE, UEA_LOOPBACK_OFF, 0, NULL); uea_info(INS_TO_USBDEV(sc), "modem operational\n"); /* release the dsp firmware as it is not needed until * the next failure */ release_firmware(sc->dsp_firm); sc->dsp_firm = NULL; } /* always update it as atm layer could not be init when we switch to * operational state */ UPDATE_ATM_SIGNAL(ATM_PHY_SIG_FOUND); /* wake up processes waiting for synchronization */ wake_up(&sc->sync_q); /* TODO improve this state machine : * we need some CMV info : what they do and their unit * we should find the equivalent of eagle3- CMV */ /* check flags */ ret = uea_read_cmv_e4(sc, 1, E4_SA_DIAG, 0, 0, &sc->stats.phy.flags); if (ret < 0) return ret; sc->stats.phy.mflags |= sc->stats.phy.flags; /* in case of a flags ( for example delineation LOSS (& 0x10)), * we check the status again in order to detect the failure earlier */ if (sc->stats.phy.flags) { uea_dbg(INS_TO_USBDEV(sc), "Stat flag = 0x%x\n", sc->stats.phy.flags); if (sc->stats.phy.flags & 1) /* delineation LOSS */ return -EAGAIN; if (sc->stats.phy.flags & 0x4000) /* Reset Flag */ return -EAGAIN; return 0; } /* rate data may be in upper or lower half of 64 bit word, strange */ ret = uea_read_cmv_e4(sc, 4, E4_SA_RATE, 0, 0, tmp_arr); if (ret < 0) return ret; data = (tmp_arr[0]) ? tmp_arr[0] : tmp_arr[1]; sc->stats.phy.usrate = data / 1000; ret = uea_read_cmv_e4(sc, 4, E4_SA_RATE, 1, 0, tmp_arr); if (ret < 0) return ret; data = (tmp_arr[0]) ? tmp_arr[0] : tmp_arr[1]; uea_set_bulk_timeout(sc, data / 1000); sc->stats.phy.dsrate = data / 1000; UPDATE_ATM_STAT(link_rate, sc->stats.phy.dsrate * 1000 / 424); ret = uea_read_cmv_e4(sc, 1, E4_SA_INFO, 68, 1, &data); if (ret < 0) return ret; sc->stats.phy.dsattenuation = data / 10; ret = uea_read_cmv_e4(sc, 1, E4_SA_INFO, 69, 1, &data); if (ret < 0) return ret; sc->stats.phy.usattenuation = data / 10; ret = uea_read_cmv_e4(sc, 1, E4_SA_INFO, 68, 3, &data); if (ret < 0) return ret; sc->stats.phy.dsmargin = data / 2; ret = uea_read_cmv_e4(sc, 1, E4_SA_INFO, 69, 3, &data); if (ret < 0) return ret; sc->stats.phy.usmargin = data / 10; return 0; } static void cmvs_file_name(struct uea_softc *sc, char *const cmv_name, int ver) { char file_arr[] = "CMVxy.bin"; char *file; kernel_param_lock(THIS_MODULE); /* set proper name corresponding modem version and line type */ if (cmv_file[sc->modem_index] == NULL) { if (UEA_CHIP_VERSION(sc) == ADI930) file_arr[3] = '9'; else if (UEA_CHIP_VERSION(sc) == EAGLE_IV) file_arr[3] = '4'; else file_arr[3] = 'e'; file_arr[4] = IS_ISDN(sc) ? 'i' : 'p'; file = file_arr; } else file = cmv_file[sc->modem_index]; strcpy(cmv_name, FW_DIR); strlcat(cmv_name, file, UEA_FW_NAME_MAX); if (ver == 2) strlcat(cmv_name, ".v2", UEA_FW_NAME_MAX); kernel_param_unlock(THIS_MODULE); } static int request_cmvs_old(struct uea_softc *sc, void **cmvs, const struct firmware **fw) { int ret, size; u8 *data; char cmv_name[UEA_FW_NAME_MAX]; /* 30 bytes stack variable */ cmvs_file_name(sc, cmv_name, 1); ret = request_firmware(fw, cmv_name, &sc->usb_dev->dev); if (ret < 0) { uea_err(INS_TO_USBDEV(sc), "requesting firmware %s failed with error %d\n", cmv_name, ret); return ret; } data = (u8 *) (*fw)->data; size = (*fw)->size; if (size < 1) goto err_fw_corrupted; if (size != *data * sizeof(struct uea_cmvs_v1) + 1) goto err_fw_corrupted; *cmvs = (void *)(data + 1); return *data; err_fw_corrupted: uea_err(INS_TO_USBDEV(sc), "firmware %s is corrupted\n", cmv_name); release_firmware(*fw); return -EILSEQ; } static int request_cmvs(struct uea_softc *sc, void **cmvs, const struct firmware **fw, int *ver) { int ret, size; u32 crc; u8 *data; char cmv_name[UEA_FW_NAME_MAX]; /* 30 bytes stack variable */ cmvs_file_name(sc, cmv_name, 2); ret = request_firmware(fw, cmv_name, &sc->usb_dev->dev); if (ret < 0) { /* if caller can handle old version, try to provide it */ if (*ver == 1) { uea_warn(INS_TO_USBDEV(sc), "requesting " "firmware %s failed, " "try to get older cmvs\n", cmv_name); return request_cmvs_old(sc, cmvs, fw); } uea_err(INS_TO_USBDEV(sc), "requesting firmware %s failed with error %d\n", cmv_name, ret); return ret; } size = (*fw)->size; data = (u8 *) (*fw)->data; if (size < 4 || strncmp(data, "cmv2", 4) != 0) { if (*ver == 1) { uea_warn(INS_TO_USBDEV(sc), "firmware %s is corrupted," " try to get older cmvs\n", cmv_name); release_firmware(*fw); return request_cmvs_old(sc, cmvs, fw); } goto err_fw_corrupted; } *ver = 2; data += 4; size -= 4; if (size < 5) goto err_fw_corrupted; crc = get_unaligned_le32(data); data += 4; size -= 4; if (crc32_be(0, data, size) != crc) goto err_fw_corrupted; if (size != *data * sizeof(struct uea_cmvs_v2) + 1) goto err_fw_corrupted; *cmvs = (void *) (data + 1); return *data; err_fw_corrupted: uea_err(INS_TO_USBDEV(sc), "firmware %s is corrupted\n", cmv_name); release_firmware(*fw); return -EILSEQ; } static int uea_send_cmvs_e1(struct uea_softc *sc) { int i, ret, len; void *cmvs_ptr; const struct firmware *cmvs_fw; int ver = 1; /* we can handle v1 cmv firmware version; */ /* Enter in R-IDLE (cmv) until instructed otherwise */ ret = uea_write_cmv_e1(sc, E1_SA_CNTL, 0, 1); if (ret < 0) return ret; /* Dump firmware version */ ret = uea_read_cmv_e1(sc, E1_SA_INFO, 10, &sc->stats.phy.firmid); if (ret < 0) return ret; uea_info(INS_TO_USBDEV(sc), "ATU-R firmware version : %x\n", sc->stats.phy.firmid); /* get options */ ret = len = request_cmvs(sc, &cmvs_ptr, &cmvs_fw, &ver); if (ret < 0) return ret; /* send options */ if (ver == 1) { struct uea_cmvs_v1 *cmvs_v1 = cmvs_ptr; uea_warn(INS_TO_USBDEV(sc), "use deprecated cmvs version, " "please update your firmware\n"); for (i = 0; i < len; i++) { ret = uea_write_cmv_e1(sc, get_unaligned_le32(&cmvs_v1[i].address), get_unaligned_le16(&cmvs_v1[i].offset), get_unaligned_le32(&cmvs_v1[i].data)); if (ret < 0) goto out; } } else if (ver == 2) { struct uea_cmvs_v2 *cmvs_v2 = cmvs_ptr; for (i = 0; i < len; i++) { ret = uea_write_cmv_e1(sc, get_unaligned_le32(&cmvs_v2[i].address), (u16) get_unaligned_le32(&cmvs_v2[i].offset), get_unaligned_le32(&cmvs_v2[i].data)); if (ret < 0) goto out; } } else { /* This really should not happen */ uea_err(INS_TO_USBDEV(sc), "bad cmvs version %d\n", ver); goto out; } /* Enter in R-ACT-REQ */ ret = uea_write_cmv_e1(sc, E1_SA_CNTL, 0, 2); uea_vdbg(INS_TO_USBDEV(sc), "Entering in R-ACT-REQ state\n"); uea_info(INS_TO_USBDEV(sc), "modem started, waiting " "synchronization...\n"); out: release_firmware(cmvs_fw); return ret; } static int uea_send_cmvs_e4(struct uea_softc *sc) { int i, ret, len; void *cmvs_ptr; const struct firmware *cmvs_fw; int ver = 2; /* we can only handle v2 cmv firmware version; */ /* Enter in R-IDLE (cmv) until instructed otherwise */ ret = uea_write_cmv_e4(sc, 1, E4_SA_CNTL, 0, 0, 1); if (ret < 0) return ret; /* Dump firmware version */ /* XXX don't read the 3th byte as it is always 6 */ ret = uea_read_cmv_e4(sc, 2, E4_SA_INFO, 55, 0, &sc->stats.phy.firmid); if (ret < 0) return ret; uea_info(INS_TO_USBDEV(sc), "ATU-R firmware version : %x\n", sc->stats.phy.firmid); /* get options */ ret = len = request_cmvs(sc, &cmvs_ptr, &cmvs_fw, &ver); if (ret < 0) return ret; /* send options */ if (ver == 2) { struct uea_cmvs_v2 *cmvs_v2 = cmvs_ptr; for (i = 0; i < len; i++) { ret = uea_write_cmv_e4(sc, 1, get_unaligned_le32(&cmvs_v2[i].group), get_unaligned_le32(&cmvs_v2[i].address), get_unaligned_le32(&cmvs_v2[i].offset), get_unaligned_le32(&cmvs_v2[i].data)); if (ret < 0) goto out; } } else { /* This really should not happen */ uea_err(INS_TO_USBDEV(sc), "bad cmvs version %d\n", ver); goto out; } /* Enter in R-ACT-REQ */ ret = uea_write_cmv_e4(sc, 1, E4_SA_CNTL, 0, 0, 2); uea_vdbg(INS_TO_USBDEV(sc), "Entering in R-ACT-REQ state\n"); uea_info(INS_TO_USBDEV(sc), "modem started, waiting " "synchronization...\n"); out: release_firmware(cmvs_fw); return ret; } /* Start boot post firmware modem: * - send reset commands through usb control pipe * - start workqueue for DSP loading * - send CMV options to modem */ static int uea_start_reset(struct uea_softc *sc) { u16 zero = 0; /* ;-) */ int ret; uea_enters(INS_TO_USBDEV(sc)); uea_info(INS_TO_USBDEV(sc), "(re)booting started\n"); /* mask interrupt */ sc->booting = 1; /* We need to set this here because, a ack timeout could have occurred, * but before we start the reboot, the ack occurs and set this to 1. * So we will failed to wait Ready CMV. */ sc->cmv_ack = 0; UPDATE_ATM_SIGNAL(ATM_PHY_SIG_LOST); /* reset statistics */ memset(&sc->stats, 0, sizeof(struct uea_stats)); /* tell the modem that we want to boot in IDMA mode */ uea_request(sc, UEA_SET_MODE, UEA_LOOPBACK_ON, 0, NULL); uea_request(sc, UEA_SET_MODE, UEA_BOOT_IDMA, 0, NULL); /* enter reset mode */ uea_request(sc, UEA_SET_MODE, UEA_START_RESET, 0, NULL); /* original driver use 200ms, but windows driver use 100ms */ ret = uea_wait(sc, 0, msecs_to_jiffies(100)); if (ret < 0) return ret; /* leave reset mode */ uea_request(sc, UEA_SET_MODE, UEA_END_RESET, 0, NULL); if (UEA_CHIP_VERSION(sc) != EAGLE_IV) { /* clear tx and rx mailboxes */ uea_request(sc, UEA_SET_2183_DATA, UEA_MPTX_MAILBOX, 2, &zero); uea_request(sc, UEA_SET_2183_DATA, UEA_MPRX_MAILBOX, 2, &zero); uea_request(sc, UEA_SET_2183_DATA, UEA_SWAP_MAILBOX, 2, &zero); } ret = uea_wait(sc, 0, msecs_to_jiffies(1000)); if (ret < 0) return ret; if (UEA_CHIP_VERSION(sc) == EAGLE_IV) sc->cmv_dsc.e4.function = E4_MAKEFUNCTION(E4_ADSLDIRECTIVE, E4_MODEMREADY, 1); else sc->cmv_dsc.e1.function = E1_MAKEFUNCTION(E1_ADSLDIRECTIVE, E1_MODEMREADY); /* demask interrupt */ sc->booting = 0; /* start loading DSP */ sc->pageno = 0; sc->ovl = 0; schedule_work(&sc->task); /* wait for modem ready CMV */ ret = wait_cmv_ack(sc); if (ret < 0) return ret; uea_vdbg(INS_TO_USBDEV(sc), "Ready CMV received\n"); ret = sc->send_cmvs(sc); if (ret < 0) return ret; sc->reset = 0; uea_leaves(INS_TO_USBDEV(sc)); return ret; } /* * In case of an error wait 1s before rebooting the modem * if the modem don't request reboot (-EAGAIN). * Monitor the modem every 1s. */ static int uea_kthread(void *data) { struct uea_softc *sc = data; int ret = -EAGAIN; set_freezable(); uea_enters(INS_TO_USBDEV(sc)); while (!kthread_should_stop()) { if (ret < 0 || sc->reset) ret = uea_start_reset(sc); if (!ret) ret = sc->stat(sc); if (ret != -EAGAIN) uea_wait(sc, 0, msecs_to_jiffies(1000)); try_to_freeze(); } uea_leaves(INS_TO_USBDEV(sc)); return ret; } /* Load second usb firmware for ADI930 chip */ static int load_XILINX_firmware(struct uea_softc *sc) { const struct firmware *fw_entry; int ret, size, u, ln; const u8 *pfw; u8 value; char *fw_name = FPGA930_FIRMWARE; uea_enters(INS_TO_USBDEV(sc)); ret = request_firmware(&fw_entry, fw_name, &sc->usb_dev->dev); if (ret) { uea_err(INS_TO_USBDEV(sc), "firmware %s is not available\n", fw_name); goto err0; } pfw = fw_entry->data; size = fw_entry->size; if (size != 0x577B) { uea_err(INS_TO_USBDEV(sc), "firmware %s is corrupted\n", fw_name); ret = -EILSEQ; goto err1; } for (u = 0; u < size; u += ln) { ln = min(size - u, 64); ret = uea_request(sc, 0xe, 0, ln, pfw + u); if (ret < 0) { uea_err(INS_TO_USBDEV(sc), "elsa download data failed (%d)\n", ret); goto err1; } } /* finish to send the fpga */ ret = uea_request(sc, 0xe, 1, 0, NULL); if (ret < 0) { uea_err(INS_TO_USBDEV(sc), "elsa download data failed (%d)\n", ret); goto err1; } /* Tell the modem we finish : de-assert reset */ value = 0; ret = uea_send_modem_cmd(sc->usb_dev, 0xe, 1, &value); if (ret < 0) uea_err(sc->usb_dev, "elsa de-assert failed with error" " %d\n", ret); err1: release_firmware(fw_entry); err0: uea_leaves(INS_TO_USBDEV(sc)); return ret; } /* The modem send us an ack. First with check if it right */ static void uea_dispatch_cmv_e1(struct uea_softc *sc, struct intr_pkt *intr) { struct cmv_dsc_e1 *dsc = &sc->cmv_dsc.e1; struct cmv_e1 *cmv = &intr->u.e1.s2.cmv; uea_enters(INS_TO_USBDEV(sc)); if (le16_to_cpu(cmv->wPreamble) != E1_PREAMBLE) goto bad1; if (cmv->bDirection != E1_MODEMTOHOST) goto bad1; /* FIXME : ADI930 reply wrong preambule (func = 2, sub = 2) to * the first MEMACCESS cmv. Ignore it... */ if (cmv->bFunction != dsc->function) { if (UEA_CHIP_VERSION(sc) == ADI930 && cmv->bFunction == E1_MAKEFUNCTION(2, 2)) { cmv->wIndex = cpu_to_le16(dsc->idx); put_unaligned_le32(dsc->address, &cmv->dwSymbolicAddress); cmv->wOffsetAddress = cpu_to_le16(dsc->offset); } else goto bad2; } if (cmv->bFunction == E1_MAKEFUNCTION(E1_ADSLDIRECTIVE, E1_MODEMREADY)) { wake_up_cmv_ack(sc); uea_leaves(INS_TO_USBDEV(sc)); return; } /* in case of MEMACCESS */ if (le16_to_cpu(cmv->wIndex) != dsc->idx || get_unaligned_le32(&cmv->dwSymbolicAddress) != dsc->address || le16_to_cpu(cmv->wOffsetAddress) != dsc->offset) goto bad2; sc->data = get_unaligned_le32(&cmv->dwData); sc->data = sc->data << 16 | sc->data >> 16; wake_up_cmv_ack(sc); uea_leaves(INS_TO_USBDEV(sc)); return; bad2: uea_err(INS_TO_USBDEV(sc), "unexpected cmv received, " "Function : %d, Subfunction : %d\n", E1_FUNCTION_TYPE(cmv->bFunction), E1_FUNCTION_SUBTYPE(cmv->bFunction)); uea_leaves(INS_TO_USBDEV(sc)); return; bad1: uea_err(INS_TO_USBDEV(sc), "invalid cmv received, " "wPreamble %d, bDirection %d\n", le16_to_cpu(cmv->wPreamble), cmv->bDirection); uea_leaves(INS_TO_USBDEV(sc)); } /* The modem send us an ack. First with check if it right */ static void uea_dispatch_cmv_e4(struct uea_softc *sc, struct intr_pkt *intr) { struct cmv_dsc_e4 *dsc = &sc->cmv_dsc.e4; struct cmv_e4 *cmv = &intr->u.e4.s2.cmv; uea_enters(INS_TO_USBDEV(sc)); uea_dbg(INS_TO_USBDEV(sc), "cmv %x %x %x %x %x %x\n", be16_to_cpu(cmv->wGroup), be16_to_cpu(cmv->wFunction), be16_to_cpu(cmv->wOffset), be16_to_cpu(cmv->wAddress), be32_to_cpu(cmv->dwData[0]), be32_to_cpu(cmv->dwData[1])); if (be16_to_cpu(cmv->wFunction) != dsc->function) goto bad2; if (be16_to_cpu(cmv->wFunction) == E4_MAKEFUNCTION(E4_ADSLDIRECTIVE, E4_MODEMREADY, 1)) { wake_up_cmv_ack(sc); uea_leaves(INS_TO_USBDEV(sc)); return; } /* in case of MEMACCESS */ if (be16_to_cpu(cmv->wOffset) != dsc->offset || be16_to_cpu(cmv->wGroup) != dsc->group || be16_to_cpu(cmv->wAddress) != dsc->address) goto bad2; sc->data = be32_to_cpu(cmv->dwData[0]); sc->data1 = be32_to_cpu(cmv->dwData[1]); wake_up_cmv_ack(sc); uea_leaves(INS_TO_USBDEV(sc)); return; bad2: uea_err(INS_TO_USBDEV(sc), "unexpected cmv received, " "Function : %d, Subfunction : %d\n", E4_FUNCTION_TYPE(cmv->wFunction), E4_FUNCTION_SUBTYPE(cmv->wFunction)); uea_leaves(INS_TO_USBDEV(sc)); return; } static void uea_schedule_load_page_e1(struct uea_softc *sc, struct intr_pkt *intr) { sc->pageno = intr->e1_bSwapPageNo; sc->ovl = intr->e1_bOvl >> 4 | intr->e1_bOvl << 4; schedule_work(&sc->task); } static void uea_schedule_load_page_e4(struct uea_softc *sc, struct intr_pkt *intr) { sc->pageno = intr->e4_bSwapPageNo; schedule_work(&sc->task); } /* * interrupt handler */ static void uea_intr(struct urb *urb) { struct uea_softc *sc = urb->context; struct intr_pkt *intr = urb->transfer_buffer; int status = urb->status; uea_enters(INS_TO_USBDEV(sc)); if (unlikely(status < 0)) { uea_err(INS_TO_USBDEV(sc), "uea_intr() failed with %d\n", status); return; } /* device-to-host interrupt */ if (intr->bType != 0x08 || sc->booting) { uea_err(INS_TO_USBDEV(sc), "wrong interrupt\n"); goto resubmit; } switch (le16_to_cpu(intr->wInterrupt)) { case INT_LOADSWAPPAGE: sc->schedule_load_page(sc, intr); break; case INT_INCOMINGCMV: sc->dispatch_cmv(sc, intr); break; default: uea_err(INS_TO_USBDEV(sc), "unknown interrupt %u\n", le16_to_cpu(intr->wInterrupt)); } resubmit: usb_submit_urb(sc->urb_int, GFP_ATOMIC); } /* * Start the modem : init the data and start kernel thread */ static int uea_boot(struct uea_softc *sc, struct usb_interface *intf) { struct intr_pkt *intr; int ret = -ENOMEM; int size; uea_enters(INS_TO_USBDEV(sc)); if (UEA_CHIP_VERSION(sc) == EAGLE_IV) { size = E4_INTR_PKT_SIZE; sc->dispatch_cmv = uea_dispatch_cmv_e4; sc->schedule_load_page = uea_schedule_load_page_e4; sc->stat = uea_stat_e4; sc->send_cmvs = uea_send_cmvs_e4; INIT_WORK(&sc->task, uea_load_page_e4); } else { size = E1_INTR_PKT_SIZE; sc->dispatch_cmv = uea_dispatch_cmv_e1; sc->schedule_load_page = uea_schedule_load_page_e1; sc->stat = uea_stat_e1; sc->send_cmvs = uea_send_cmvs_e1; INIT_WORK(&sc->task, uea_load_page_e1); } init_waitqueue_head(&sc->sync_q); if (UEA_CHIP_VERSION(sc) == ADI930) load_XILINX_firmware(sc); if (intf->cur_altsetting->desc.bNumEndpoints < 1) { ret = -ENODEV; goto err0; } intr = kmalloc(size, GFP_KERNEL); if (!intr) goto err0; sc->urb_int = usb_alloc_urb(0, GFP_KERNEL); if (!sc->urb_int) goto err1; usb_fill_int_urb(sc->urb_int, sc->usb_dev, usb_rcvintpipe(sc->usb_dev, UEA_INTR_PIPE), intr, size, uea_intr, sc, intf->cur_altsetting->endpoint[0].desc.bInterval); ret = usb_submit_urb(sc->urb_int, GFP_KERNEL); if (ret < 0) { uea_err(INS_TO_USBDEV(sc), "urb submission failed with error %d\n", ret); goto err1; } /* Create worker thread, but don't start it here. Start it after * all usbatm generic initialization is done. */ sc->kthread = kthread_create(uea_kthread, sc, "ueagle-atm"); if (IS_ERR(sc->kthread)) { uea_err(INS_TO_USBDEV(sc), "failed to create thread\n"); ret = PTR_ERR(sc->kthread); goto err2; } uea_leaves(INS_TO_USBDEV(sc)); return 0; err2: usb_kill_urb(sc->urb_int); err1: usb_free_urb(sc->urb_int); sc->urb_int = NULL; kfree(intr); err0: uea_leaves(INS_TO_USBDEV(sc)); return ret; } /* * Stop the modem : kill kernel thread and free data */ static void uea_stop(struct uea_softc *sc) { int ret; uea_enters(INS_TO_USBDEV(sc)); ret = kthread_stop(sc->kthread); uea_dbg(INS_TO_USBDEV(sc), "kthread finish with status %d\n", ret); uea_request(sc, UEA_SET_MODE, UEA_LOOPBACK_ON, 0, NULL); usb_kill_urb(sc->urb_int); kfree(sc->urb_int->transfer_buffer); usb_free_urb(sc->urb_int); /* flush the work item, when no one can schedule it */ flush_work(&sc->task); release_firmware(sc->dsp_firm); uea_leaves(INS_TO_USBDEV(sc)); } /* syfs interface */ static struct uea_softc *dev_to_uea(struct device *dev) { struct usb_interface *intf; struct usbatm_data *usbatm; intf = to_usb_interface(dev); if (!intf) return NULL; usbatm = usb_get_intfdata(intf); if (!usbatm) return NULL; return usbatm->driver_data; } static ssize_t stat_status_show(struct device *dev, struct device_attribute *attr, char *buf) { int ret = -ENODEV; struct uea_softc *sc; mutex_lock(&uea_mutex); sc = dev_to_uea(dev); if (!sc) goto out; ret = snprintf(buf, 10, "%08x\n", sc->stats.phy.state); out: mutex_unlock(&uea_mutex); return ret; } static ssize_t stat_status_store(struct device *dev, struct device_attribute *attr, const char *buf, size_t count) { int ret = -ENODEV; struct uea_softc *sc; mutex_lock(&uea_mutex); sc = dev_to_uea(dev); if (!sc) goto out; sc->reset = 1; ret = count; out: mutex_unlock(&uea_mutex); return ret; } static DEVICE_ATTR_RW(stat_status); static ssize_t stat_human_status_show(struct device *dev, struct device_attribute *attr, char *buf) { int ret = -ENODEV; int modem_state; struct uea_softc *sc; mutex_lock(&uea_mutex); sc = dev_to_uea(dev); if (!sc) goto out; if (UEA_CHIP_VERSION(sc) == EAGLE_IV) { switch (sc->stats.phy.state) { case 0x0: /* not yet synchronized */ case 0x1: case 0x3: case 0x4: modem_state = 0; break; case 0x5: /* initialization */ case 0x6: case 0x9: case 0xa: modem_state = 1; break; case 0x7: /* operational */ modem_state = 2; break; case 0x2: /* fail ... */ modem_state = 3; break; default: /* unknown */ modem_state = 4; break; } } else modem_state = GET_STATUS(sc->stats.phy.state); switch (modem_state) { case 0: ret = sprintf(buf, "Modem is booting\n"); break; case 1: ret = sprintf(buf, "Modem is initializing\n"); break; case 2: ret = sprintf(buf, "Modem is operational\n"); break; case 3: ret = sprintf(buf, "Modem synchronization failed\n"); break; default: ret = sprintf(buf, "Modem state is unknown\n"); break; } out: mutex_unlock(&uea_mutex); return ret; } static DEVICE_ATTR_RO(stat_human_status); static ssize_t stat_delin_show(struct device *dev, struct device_attribute *attr, char *buf) { int ret = -ENODEV; struct uea_softc *sc; char *delin = "GOOD"; mutex_lock(&uea_mutex); sc = dev_to_uea(dev); if (!sc) goto out; if (UEA_CHIP_VERSION(sc) == EAGLE_IV) { if (sc->stats.phy.flags & 0x4000) delin = "RESET"; else if (sc->stats.phy.flags & 0x0001) delin = "LOSS"; } else { if (sc->stats.phy.flags & 0x0C00) delin = "ERROR"; else if (sc->stats.phy.flags & 0x0030) delin = "LOSS"; } ret = sprintf(buf, "%s\n", delin); out: mutex_unlock(&uea_mutex); return ret; } static DEVICE_ATTR_RO(stat_delin); #define UEA_ATTR(name, reset) \ \ static ssize_t stat_##name##_show(struct device *dev, \ struct device_attribute *attr, char *buf) \ { \ int ret = -ENODEV; \ struct uea_softc *sc; \ \ mutex_lock(&uea_mutex); \ sc = dev_to_uea(dev); \ if (!sc) \ goto out; \ ret = snprintf(buf, 10, "%08x\n", sc->stats.phy.name); \ if (reset) \ sc->stats.phy.name = 0; \ out: \ mutex_unlock(&uea_mutex); \ return ret; \ } \ \ static DEVICE_ATTR_RO(stat_##name) UEA_ATTR(mflags, 1); UEA_ATTR(vidcpe, 0); UEA_ATTR(usrate, 0); UEA_ATTR(dsrate, 0); UEA_ATTR(usattenuation, 0); UEA_ATTR(dsattenuation, 0); UEA_ATTR(usmargin, 0); UEA_ATTR(dsmargin, 0); UEA_ATTR(txflow, 0); UEA_ATTR(rxflow, 0); UEA_ATTR(uscorr, 0); UEA_ATTR(dscorr, 0); UEA_ATTR(usunc, 0); UEA_ATTR(dsunc, 0); UEA_ATTR(firmid, 0); /* Retrieve the device End System Identifier (MAC) */ static int uea_getesi(struct uea_softc *sc, u_char *esi) { unsigned char mac_str[2 * ETH_ALEN + 1]; int i; if (usb_string (sc->usb_dev, sc->usb_dev->descriptor.iSerialNumber, mac_str, sizeof(mac_str)) != 2 * ETH_ALEN) return 1; for (i = 0; i < ETH_ALEN; i++) esi[i] = hex_to_bin(mac_str[2 * i]) * 16 + hex_to_bin(mac_str[2 * i + 1]); return 0; } /* ATM stuff */ static int uea_atm_open(struct usbatm_data *usbatm, struct atm_dev *atm_dev) { struct uea_softc *sc = usbatm->driver_data; return uea_getesi(sc, atm_dev->esi); } static int uea_heavy(struct usbatm_data *usbatm, struct usb_interface *intf) { struct uea_softc *sc = usbatm->driver_data; wait_event_interruptible(sc->sync_q, IS_OPERATIONAL(sc)); return 0; } static int claim_interface(struct usb_device *usb_dev, struct usbatm_data *usbatm, int ifnum) { int ret; struct usb_interface *intf = usb_ifnum_to_if(usb_dev, ifnum); if (!intf) { uea_err(usb_dev, "interface %d not found\n", ifnum); return -ENODEV; } ret = usb_driver_claim_interface(&uea_driver, intf, usbatm); if (ret != 0) uea_err(usb_dev, "can't claim interface %d, error %d\n", ifnum, ret); return ret; } static struct attribute *uea_attrs[] = { &dev_attr_stat_status.attr, &dev_attr_stat_mflags.attr, &dev_attr_stat_human_status.attr, &dev_attr_stat_delin.attr, &dev_attr_stat_vidcpe.attr, &dev_attr_stat_usrate.attr, &dev_attr_stat_dsrate.attr, &dev_attr_stat_usattenuation.attr, &dev_attr_stat_dsattenuation.attr, &dev_attr_stat_usmargin.attr, &dev_attr_stat_dsmargin.attr, &dev_attr_stat_txflow.attr, &dev_attr_stat_rxflow.attr, &dev_attr_stat_uscorr.attr, &dev_attr_stat_dscorr.attr, &dev_attr_stat_usunc.attr, &dev_attr_stat_dsunc.attr, &dev_attr_stat_firmid.attr, NULL, }; ATTRIBUTE_GROUPS(uea); static int uea_bind(struct usbatm_data *usbatm, struct usb_interface *intf, const struct usb_device_id *id) { struct usb_device *usb = interface_to_usbdev(intf); struct uea_softc *sc; int ret, ifnum = intf->altsetting->desc.bInterfaceNumber; unsigned int alt; uea_enters(usb); /* interface 0 is for firmware/monitoring */ if (ifnum != UEA_INTR_IFACE_NO) return -ENODEV; usbatm->flags = (sync_wait[modem_index] ? 0 : UDSL_SKIP_HEAVY_INIT); /* interface 1 is for outbound traffic */ ret = claim_interface(usb, usbatm, UEA_US_IFACE_NO); if (ret < 0) return ret; /* ADI930 has only 2 interfaces and inbound traffic is on interface 1 */ if (UEA_CHIP_VERSION(id) != ADI930) { /* interface 2 is for inbound traffic */ ret = claim_interface(usb, usbatm, UEA_DS_IFACE_NO); if (ret < 0) return ret; } sc = kzalloc(sizeof(struct uea_softc), GFP_KERNEL); if (!sc) return -ENOMEM; sc->usb_dev = usb; usbatm->driver_data = sc; sc->usbatm = usbatm; sc->modem_index = (modem_index < NB_MODEM) ? modem_index++ : 0; sc->driver_info = id->driver_info; /* first try to use module parameter */ if (annex[sc->modem_index] == 1) sc->annex = ANNEXA; else if (annex[sc->modem_index] == 2) sc->annex = ANNEXB; /* try to autodetect annex */ else if (sc->driver_info & AUTO_ANNEX_A) sc->annex = ANNEXA; else if (sc->driver_info & AUTO_ANNEX_B) sc->annex = ANNEXB; else sc->annex = (le16_to_cpu (sc->usb_dev->descriptor.bcdDevice) & 0x80) ? ANNEXB : ANNEXA; alt = altsetting[sc->modem_index]; /* ADI930 don't support iso */ if (UEA_CHIP_VERSION(id) != ADI930 && alt > 0) { if (alt <= 8 && usb_set_interface(usb, UEA_DS_IFACE_NO, alt) == 0) { uea_dbg(usb, "set alternate %u for 2 interface\n", alt); uea_info(usb, "using iso mode\n"); usbatm->flags |= UDSL_USE_ISOC | UDSL_IGNORE_EILSEQ; } else { uea_err(usb, "setting alternate %u failed for " "2 interface, using bulk mode\n", alt); } } ret = uea_boot(sc, intf); if (ret < 0) goto error; return 0; error: kfree(sc); return ret; } static void uea_unbind(struct usbatm_data *usbatm, struct usb_interface *intf) { struct uea_softc *sc = usbatm->driver_data; uea_stop(sc); kfree(sc); } static struct usbatm_driver uea_usbatm_driver = { .driver_name = "ueagle-atm", .bind = uea_bind, .atm_start = uea_atm_open, .unbind = uea_unbind, .heavy_init = uea_heavy, .bulk_in = UEA_BULK_DATA_PIPE, .bulk_out = UEA_BULK_DATA_PIPE, .isoc_in = UEA_ISO_DATA_PIPE, }; static int uea_probe(struct usb_interface *intf, const struct usb_device_id *id) { struct usb_device *usb = interface_to_usbdev(intf); int ret; uea_enters(usb); uea_info(usb, "ADSL device founded vid (%#X) pid (%#X) Rev (%#X): %s\n", le16_to_cpu(usb->descriptor.idVendor), le16_to_cpu(usb->descriptor.idProduct), le16_to_cpu(usb->descriptor.bcdDevice), chip_name[UEA_CHIP_VERSION(id)]); usb_reset_device(usb); if (UEA_IS_PREFIRM(id)) return uea_load_firmware(usb, UEA_CHIP_VERSION(id)); ret = usbatm_usb_probe(intf, id, &uea_usbatm_driver); if (ret == 0) { struct usbatm_data *usbatm = usb_get_intfdata(intf); struct uea_softc *sc = usbatm->driver_data; /* Ensure carrier is initialized to off as early as possible */ UPDATE_ATM_SIGNAL(ATM_PHY_SIG_LOST); /* Only start the worker thread when all init is done */ wake_up_process(sc->kthread); } return ret; } static void uea_disconnect(struct usb_interface *intf) { struct usb_device *usb = interface_to_usbdev(intf); int ifnum = intf->altsetting->desc.bInterfaceNumber; uea_enters(usb); /* ADI930 has 2 interfaces and eagle 3 interfaces. * Pre-firmware device has one interface */ if (usb->config->desc.bNumInterfaces != 1 && ifnum == 0) { mutex_lock(&uea_mutex); usbatm_usb_disconnect(intf); mutex_unlock(&uea_mutex); uea_info(usb, "ADSL device removed\n"); } uea_leaves(usb); } /* * List of supported VID/PID */ static const struct usb_device_id uea_ids[] = { {USB_DEVICE(ANALOG_VID, ADI930_PID_PREFIRM), .driver_info = ADI930 | PREFIRM}, {USB_DEVICE(ANALOG_VID, ADI930_PID_PSTFIRM), .driver_info = ADI930 | PSTFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_I_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_I_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_II_PID_PREFIRM), .driver_info = EAGLE_II | PREFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_II_PID_PSTFIRM), .driver_info = EAGLE_II | PSTFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_IIC_PID_PREFIRM), .driver_info = EAGLE_II | PREFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_IIC_PID_PSTFIRM), .driver_info = EAGLE_II | PSTFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_III_PID_PREFIRM), .driver_info = EAGLE_III | PREFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_III_PID_PSTFIRM), .driver_info = EAGLE_III | PSTFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_IV_PID_PREFIRM), .driver_info = EAGLE_IV | PREFIRM}, {USB_DEVICE(ANALOG_VID, EAGLE_IV_PID_PSTFIRM), .driver_info = EAGLE_IV | PSTFIRM}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_I_A_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_I_A_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM | AUTO_ANNEX_A}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_I_B_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_I_B_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM | AUTO_ANNEX_B}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_II_A_PID_PREFIRM), .driver_info = EAGLE_II | PREFIRM}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_II_A_PID_PSTFIRM), .driver_info = EAGLE_II | PSTFIRM | AUTO_ANNEX_A}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_II_B_PID_PREFIRM), .driver_info = EAGLE_II | PREFIRM}, {USB_DEVICE(DEVOLO_VID, DEVOLO_EAGLE_II_B_PID_PSTFIRM), .driver_info = EAGLE_II | PSTFIRM | AUTO_ANNEX_B}, {USB_DEVICE(ELSA_VID, ELSA_PID_PREFIRM), .driver_info = ADI930 | PREFIRM}, {USB_DEVICE(ELSA_VID, ELSA_PID_PSTFIRM), .driver_info = ADI930 | PSTFIRM}, {USB_DEVICE(ELSA_VID, ELSA_PID_A_PREFIRM), .driver_info = ADI930 | PREFIRM}, {USB_DEVICE(ELSA_VID, ELSA_PID_A_PSTFIRM), .driver_info = ADI930 | PSTFIRM | AUTO_ANNEX_A}, {USB_DEVICE(ELSA_VID, ELSA_PID_B_PREFIRM), .driver_info = ADI930 | PREFIRM}, {USB_DEVICE(ELSA_VID, ELSA_PID_B_PSTFIRM), .driver_info = ADI930 | PSTFIRM | AUTO_ANNEX_B}, {USB_DEVICE(USR_VID, MILLER_A_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(USR_VID, MILLER_A_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM | AUTO_ANNEX_A}, {USB_DEVICE(USR_VID, MILLER_B_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(USR_VID, MILLER_B_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM | AUTO_ANNEX_B}, {USB_DEVICE(USR_VID, HEINEKEN_A_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(USR_VID, HEINEKEN_A_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM | AUTO_ANNEX_A}, {USB_DEVICE(USR_VID, HEINEKEN_B_PID_PREFIRM), .driver_info = EAGLE_I | PREFIRM}, {USB_DEVICE(USR_VID, HEINEKEN_B_PID_PSTFIRM), .driver_info = EAGLE_I | PSTFIRM | AUTO_ANNEX_B}, {} }; /* * USB driver descriptor */ static struct usb_driver uea_driver = { .name = "ueagle-atm", .id_table = uea_ids, .probe = uea_probe, .disconnect = uea_disconnect, .dev_groups = uea_groups, }; MODULE_DEVICE_TABLE(usb, uea_ids); module_usb_driver(uea_driver); MODULE_AUTHOR("Damien Bergamini/Matthieu Castet/Stanislaw W. Gruszka"); MODULE_DESCRIPTION("ADI 930/Eagle USB ADSL Modem driver"); MODULE_LICENSE("Dual BSD/GPL"); MODULE_FIRMWARE(EAGLE_FIRMWARE); MODULE_FIRMWARE(ADI930_FIRMWARE); MODULE_FIRMWARE(EAGLE_I_FIRMWARE); MODULE_FIRMWARE(EAGLE_II_FIRMWARE); MODULE_FIRMWARE(EAGLE_III_FIRMWARE); MODULE_FIRMWARE(EAGLE_IV_FIRMWARE); MODULE_FIRMWARE(DSP4I_FIRMWARE); MODULE_FIRMWARE(DSP4P_FIRMWARE); MODULE_FIRMWARE(DSP9I_FIRMWARE); MODULE_FIRMWARE(DSP9P_FIRMWARE); MODULE_FIRMWARE(DSPEI_FIRMWARE); MODULE_FIRMWARE(DSPEP_FIRMWARE); MODULE_FIRMWARE(FPGA930_FIRMWARE); MODULE_FIRMWARE(CMV4P_FIRMWARE); MODULE_FIRMWARE(CMV4PV2_FIRMWARE); MODULE_FIRMWARE(CMV4I_FIRMWARE); MODULE_FIRMWARE(CMV4IV2_FIRMWARE); MODULE_FIRMWARE(CMV9P_FIRMWARE); MODULE_FIRMWARE(CMV9PV2_FIRMWARE); MODULE_FIRMWARE(CMV9I_FIRMWARE); MODULE_FIRMWARE(CMV9IV2_FIRMWARE); MODULE_FIRMWARE(CMVEP_FIRMWARE); MODULE_FIRMWARE(CMVEPV2_FIRMWARE); MODULE_FIRMWARE(CMVEI_FIRMWARE); MODULE_FIRMWARE(CMVEIV2_FIRMWARE);
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