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Subject[PATCH 47/49] Staging: add agnx wireless driver
Date
From: Li YanBo <dreamfly281@gmail.com>

This driver is for the Airgo AGNX00 wireless chip.

From: Li YanBo <dreamfly281@gmail.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
---
drivers/staging/Kconfig | 2 +
drivers/staging/Makefile | 1 +
drivers/staging/agnx/Kconfig | 5 +
drivers/staging/agnx/Makefile | 8 +
drivers/staging/agnx/TODO | 22 +
drivers/staging/agnx/agnx.h | 156 +++++++
drivers/staging/agnx/debug.h | 418 ++++++++++++++++++
drivers/staging/agnx/pci.c | 650 ++++++++++++++++++++++++++++
drivers/staging/agnx/phy.c | 958 +++++++++++++++++++++++++++++++++++++++++
drivers/staging/agnx/phy.h | 409 ++++++++++++++++++
drivers/staging/agnx/rf.c | 894 ++++++++++++++++++++++++++++++++++++++
drivers/staging/agnx/sta.c | 219 ++++++++++
drivers/staging/agnx/sta.h | 222 ++++++++++
drivers/staging/agnx/table.c | 168 +++++++
drivers/staging/agnx/table.h | 10 +
drivers/staging/agnx/xmit.c | 819 +++++++++++++++++++++++++++++++++++
drivers/staging/agnx/xmit.h | 250 +++++++++++
17 files changed, 5211 insertions(+), 0 deletions(-)
create mode 100644 drivers/staging/agnx/Kconfig
create mode 100644 drivers/staging/agnx/Makefile
create mode 100644 drivers/staging/agnx/TODO
create mode 100644 drivers/staging/agnx/agnx.h
create mode 100644 drivers/staging/agnx/debug.h
create mode 100644 drivers/staging/agnx/pci.c
create mode 100644 drivers/staging/agnx/phy.c
create mode 100644 drivers/staging/agnx/phy.h
create mode 100644 drivers/staging/agnx/rf.c
create mode 100644 drivers/staging/agnx/sta.c
create mode 100644 drivers/staging/agnx/sta.h
create mode 100644 drivers/staging/agnx/table.c
create mode 100644 drivers/staging/agnx/table.h
create mode 100644 drivers/staging/agnx/xmit.c
create mode 100644 drivers/staging/agnx/xmit.h

diff --git a/drivers/staging/Kconfig b/drivers/staging/Kconfig
index e1654f5..ce1ed93 100644
--- a/drivers/staging/Kconfig
+++ b/drivers/staging/Kconfig
@@ -45,4 +45,6 @@ source "drivers/staging/at76_usb/Kconfig"

source "drivers/staging/poch/Kconfig"

+source "drivers/staging/agnx/Kconfig"
+
endif # STAGING
diff --git a/drivers/staging/Makefile b/drivers/staging/Makefile
index 71c4d53..704306f 100644
--- a/drivers/staging/Makefile
+++ b/drivers/staging/Makefile
@@ -14,3 +14,4 @@ obj-$(CONFIG_PRISM2_USB) += wlan-ng/
obj-$(CONFIG_ECHO) += echo/
obj-$(CONFIG_USB_ATMEL) += at76_usb/
obj-$(CONFIG_POCH) += poch/
+obj-$(CONFIG_AGNX) += agnx/
diff --git a/drivers/staging/agnx/Kconfig b/drivers/staging/agnx/Kconfig
new file mode 100644
index 0000000..7f43549
--- /dev/null
+++ b/drivers/staging/agnx/Kconfig
@@ -0,0 +1,5 @@
+config AGNX
+ tristate "Wireless Airgo AGNX support"
+ depends on WLAN_80211 && MAC80211
+ ---help---
+ This is an experimental driver for Airgo AGNX00 wireless chip.
diff --git a/drivers/staging/agnx/Makefile b/drivers/staging/agnx/Makefile
new file mode 100644
index 0000000..1216564
--- /dev/null
+++ b/drivers/staging/agnx/Makefile
@@ -0,0 +1,8 @@
+obj-$(CONFIG_AGNX) += agnx.o
+
+agnx-objs := rf.o \
+ pci.o \
+ xmit.o \
+ table.o \
+ sta.o \
+ phy.o
diff --git a/drivers/staging/agnx/TODO b/drivers/staging/agnx/TODO
new file mode 100644
index 0000000..89bec74
--- /dev/null
+++ b/drivers/staging/agnx/TODO
@@ -0,0 +1,22 @@
+2008 7/18
+
+The RX has can't receive OFDM packet correctly,
+Guess it need be do RX calibrate.
+
+
+before 2008 3/1
+
+1: The RX get too much "CRC failed" pakets, it make the card work very unstable,
+2: After running a while, the card will get infinity "RX Frame" and "Error"
+interrupt, not know the root reason so far, try to fix it
+3: Using two tx queue txd and txm but not only txm.
+4: Set the hdr correctly.
+5: Try to do recalibrate correvtly
+6: To support G mode in future
+7: Fix the mac address can't be readed and set correctly in BE machine.
+8: Fix include and exclude FCS in promisous mode and manage mode
+9: Using sta_notify to notice sta change
+10: Turn on frame reception at the end of start
+11: Guess the card support HW_MULTICAST_FILTER
+12: The tx process should be implment atomic?
+13: Using mac80211 function to control the TX&RX LED.
diff --git a/drivers/staging/agnx/agnx.h b/drivers/staging/agnx/agnx.h
new file mode 100644
index 0000000..6f89b9b
--- /dev/null
+++ b/drivers/staging/agnx/agnx.h
@@ -0,0 +1,156 @@
+#ifndef AGNX_H_
+#define AGNX_H_
+
+#include "xmit.h"
+
+#define PFX KBUILD_MODNAME ": "
+
+static inline u32 agnx_read32(void __iomem *mem_region, u32 offset)
+{
+ return ioread32(mem_region + offset);
+}
+
+static inline void agnx_write32(void __iomem *mem_region, u32 offset, u32 val)
+{
+ iowrite32(val, mem_region + offset);
+}
+
+/* static const struct ieee80211_rate agnx_rates_80211b[] = { */
+/* { .rate = 10, */
+/* .val = 0xa, */
+/* .flags = IEEE80211_RATE_CCK }, */
+/* { .rate = 20, */
+/* .val = 0x14, */
+/* .hw_value = -0x14, */
+/* .flags = IEEE80211_RATE_CCK_2 }, */
+/* { .rate = 55, */
+/* .val = 0x37, */
+/* .val2 = -0x37, */
+/* .flags = IEEE80211_RATE_CCK_2 }, */
+/* { .rate = 110, */
+/* .val = 0x6e, */
+/* .val2 = -0x6e, */
+/* .flags = IEEE80211_RATE_CCK_2 } */
+/* }; */
+
+
+static const struct ieee80211_rate agnx_rates_80211g[] = {
+/* { .bitrate = 10, .hw_value = 1, .flags = IEEE80211_RATE_SHORT_PREAMBLE }, */
+/* { .bitrate = 20, .hw_value = 2, .flags = IEEE80211_RATE_SHORT_PREAMBLE }, */
+/* { .bitrate = 55, .hw_value = 3, .flags = IEEE80211_RATE_SHORT_PREAMBLE }, */
+/* { .bitrate = 110, .hw_value = 4, .flags = IEEE80211_RATE_SHORT_PREAMBLE }, */
+ { .bitrate = 10, .hw_value = 1, },
+ { .bitrate = 20, .hw_value = 2, },
+ { .bitrate = 55, .hw_value = 3, },
+ { .bitrate = 110, .hw_value = 4,},
+
+ { .bitrate = 60, .hw_value = 0xB, },
+ { .bitrate = 90, .hw_value = 0xF, },
+ { .bitrate = 120, .hw_value = 0xA },
+ { .bitrate = 180, .hw_value = 0xE, },
+// { .bitrate = 240, .hw_value = 0xd, },
+ { .bitrate = 360, .hw_value = 0xD, },
+ { .bitrate = 480, .hw_value = 0x8, },
+ { .bitrate = 540, .hw_value = 0xC, },
+};
+
+static const struct ieee80211_channel agnx_channels[] = {
+ { .center_freq = 2412, .hw_value = 1, },
+ { .center_freq = 2417, .hw_value = 2, },
+ { .center_freq = 2422, .hw_value = 3, },
+ { .center_freq = 2427, .hw_value = 4, },
+ { .center_freq = 2432, .hw_value = 5, },
+ { .center_freq = 2437, .hw_value = 6, },
+ { .center_freq = 2442, .hw_value = 7, },
+ { .center_freq = 2447, .hw_value = 8, },
+ { .center_freq = 2452, .hw_value = 9, },
+ { .center_freq = 2457, .hw_value = 10, },
+ { .center_freq = 2462, .hw_value = 11, },
+ { .center_freq = 2467, .hw_value = 12, },
+ { .center_freq = 2472, .hw_value = 13, },
+ { .center_freq = 2484, .hw_value = 14, },
+};
+
+#define NUM_DRIVE_MODES 2
+/* Agnx operate mode */
+enum {
+ AGNX_MODE_80211A,
+ AGNX_MODE_80211A_OOB,
+ AGNX_MODE_80211A_MIMO,
+ AGNX_MODE_80211B_SHORT,
+ AGNX_MODE_80211B_LONG,
+ AGNX_MODE_80211G,
+ AGNX_MODE_80211G_OOB,
+ AGNX_MODE_80211G_MIMO,
+};
+
+enum {
+ AGNX_UNINIT,
+ AGNX_START,
+ AGNX_STOP,
+};
+
+struct agnx_priv {
+ struct pci_dev *pdev;
+ struct ieee80211_hw *hw;
+
+ spinlock_t lock;
+ struct mutex mutex;
+ unsigned int init_status;
+
+ void __iomem *ctl; /* pointer to base ram address */
+ void __iomem *data; /* pointer to mem region #2 */
+
+ struct agnx_ring rx;
+ struct agnx_ring txm;
+ struct agnx_ring txd;
+
+ /* Need volatile? */
+ u32 irq_status;
+
+ struct delayed_work periodic_work; /* Periodic tasks like recalibrate*/
+ struct ieee80211_low_level_stats stats;
+
+// unsigned int phymode;
+ int mode;
+ int channel;
+ u8 bssid[ETH_ALEN];
+ u8 ssid[32];
+ size_t ssid_len;
+
+ u8 mac_addr[ETH_ALEN];
+ u8 revid;
+
+ struct ieee80211_supported_band band;
+};
+
+
+#define AGNX_CHAINS_MAX 6
+#define AGNX_PERIODIC_DELAY 60000 /* unit: ms */
+#define LOCAL_STAID 0 /* the station entry for the card itself */
+#define BSSID_STAID 1 /* the station entry for the bsssid AP */
+#define spi_delay() udelay(40)
+#define eeprom_delay() udelay(40)
+#define routing_table_delay() udelay(50)
+
+/* PDU pool MEM region #2 */
+#define AGNX_PDUPOOL 0x40000 /* PDU pool */
+#define AGNX_PDUPOOL_SIZE 0x8000 /* PDU pool size*/
+#define AGNX_PDU_TX_WQ 0x41000 /* PDU list TX workqueue */
+#define AGNX_PDU_FREE 0x41800 /* Free Pool */
+#define PDU_SIZE 0x80 /* Free Pool node size */
+#define PDU_FREE_CNT 0xd0 /* Free pool node count */
+
+
+/* RF stuffs */
+extern void rf_chips_init(struct agnx_priv *priv);
+extern void spi_rc_write(void __iomem *mem_region, u32 chip_ids, u32 sw);
+extern void calibrate_oscillator(struct agnx_priv *priv);
+extern void do_calibration(struct agnx_priv *priv);
+extern void antenna_calibrate(struct agnx_priv *priv);
+extern void __antenna_calibrate(struct agnx_priv *priv);
+extern void print_offsets(struct agnx_priv *priv);
+extern int agnx_set_channel(struct agnx_priv *priv, unsigned int channel);
+
+
+#endif /* AGNX_H_ */
diff --git a/drivers/staging/agnx/debug.h b/drivers/staging/agnx/debug.h
new file mode 100644
index 0000000..e3e25dd
--- /dev/null
+++ b/drivers/staging/agnx/debug.h
@@ -0,0 +1,418 @@
+#ifndef AGNX_DEBUG_H_
+#define AGNX_DEBUG_H_
+
+#include "agnx.h"
+#include "phy.h"
+#include "sta.h"
+#include "xmit.h"
+
+#define AGNX_TRACE printk(KERN_ERR PFX "function:%s line:%d\n", __func__, __LINE__)
+
+#define PRINTK_LE16(prefix, var) printk(KERN_DEBUG PFX #prefix ": " #var " 0x%.4x\n", le16_to_cpu(var))
+#define PRINTK_LE32(prefix, var) printk(KERN_DEBUG PFX #prefix ": " #var " 0x%.8x\n", le32_to_cpu(var))
+#define PRINTK_U8(prefix, var) printk(KERN_DEBUG PFX #prefix ": " #var " 0x%.2x\n", var)
+#define PRINTK_BE16(prefix, var) printk(KERN_DEBUG PFX #prefix ": " #var " 0x%.4x\n", be16_to_cpu(var))
+#define PRINTK_BE32(prefix, var) printk(KERN_DEBUG PFX #prefix ": " #var " 0x%.8x\n", be32_to_cpu(var))
+#define PRINTK_BITS(prefix, field) printk(KERN_DEBUG PFX #prefix ": " #field ": 0x%x\n", (reg & field) >> field##_SHIFT)
+
+static inline void agnx_bug(char *reason)
+{
+ printk(KERN_ERR PFX "%s\n", reason);
+ BUG();
+}
+
+static inline void agnx_print_desc(struct agnx_desc *desc)
+{
+ u32 reg = be32_to_cpu(desc->frag);
+
+ PRINTK_BITS(DESC, PACKET_LEN);
+
+ if (reg & FIRST_FRAG) {
+ PRINTK_BITS(DESC, FIRST_PACKET_MASK);
+ PRINTK_BITS(DESC, FIRST_RESERV2);
+ PRINTK_BITS(DESC, FIRST_TKIP_ERROR);
+ PRINTK_BITS(DESC, FIRST_TKIP_PACKET);
+ PRINTK_BITS(DESC, FIRST_RESERV1);
+ PRINTK_BITS(DESC, FIRST_FRAG_LEN);
+ } else {
+ PRINTK_BITS(DESC, SUB_RESERV2);
+ PRINTK_BITS(DESC, SUB_TKIP_ERROR);
+ PRINTK_BITS(DESC, SUB_TKIP_PACKET);
+ PRINTK_BITS(DESC, SUB_RESERV1);
+ PRINTK_BITS(DESC, SUB_FRAG_LEN);
+ }
+
+ PRINTK_BITS(DESC, FIRST_FRAG);
+ PRINTK_BITS(DESC, LAST_FRAG);
+ PRINTK_BITS(DESC, OWNER);
+}
+
+
+static inline void dump_ieee80211b_phy_hdr(__be32 _11b0, __be32 _11b1)
+{
+
+}
+
+static inline void agnx_print_hdr(struct agnx_hdr *hdr)
+{
+ u32 reg;
+ int i;
+
+ reg = be32_to_cpu(hdr->reg0);
+ PRINTK_BITS(HDR, RTS);
+ PRINTK_BITS(HDR, MULTICAST);
+ PRINTK_BITS(HDR, ACK);
+ PRINTK_BITS(HDR, TM);
+ PRINTK_BITS(HDR, RELAY);
+ PRINTK_BITS(HDR, REVISED_FCS);
+ PRINTK_BITS(HDR, NEXT_BUFFER_ADDR);
+
+ reg = be32_to_cpu(hdr->reg1);
+ PRINTK_BITS(HDR, MAC_HDR_LEN);
+ PRINTK_BITS(HDR, DURATION_OVERIDE);
+ PRINTK_BITS(HDR, PHY_HDR_OVERIDE);
+ PRINTK_BITS(HDR, CRC_FAIL);
+ PRINTK_BITS(HDR, SEQUENCE_NUMBER);
+ PRINTK_BITS(HDR, BUFF_HEAD_ADDR);
+
+ reg = be32_to_cpu(hdr->reg2);
+ PRINTK_BITS(HDR, PDU_COUNT);
+ PRINTK_BITS(HDR, WEP_KEY);
+ PRINTK_BITS(HDR, USES_WEP_KEY);
+ PRINTK_BITS(HDR, KEEP_ALIVE);
+ PRINTK_BITS(HDR, BUFF_TAIL_ADDR);
+
+ reg = be32_to_cpu(hdr->reg3);
+ PRINTK_BITS(HDR, CTS_11G);
+ PRINTK_BITS(HDR, RTS_11G);
+ PRINTK_BITS(HDR, FRAG_SIZE);
+ PRINTK_BITS(HDR, PAYLOAD_LEN);
+ PRINTK_BITS(HDR, FRAG_NUM);
+
+ reg = be32_to_cpu(hdr->reg4);
+ PRINTK_BITS(HDR, RELAY_STAID);
+ PRINTK_BITS(HDR, STATION_ID);
+ PRINTK_BITS(HDR, WORKQUEUE_ID);
+
+ reg = be32_to_cpu(hdr->reg5);
+ /* printf the route flag */
+ PRINTK_BITS(HDR, ROUTE_HOST);
+ PRINTK_BITS(HDR, ROUTE_CARD_CPU);
+ PRINTK_BITS(HDR, ROUTE_ENCRYPTION);
+ PRINTK_BITS(HDR, ROUTE_TX);
+ PRINTK_BITS(HDR, ROUTE_RX1);
+ PRINTK_BITS(HDR, ROUTE_RX2);
+ PRINTK_BITS(HDR, ROUTE_COMPRESSION);
+
+ PRINTK_BE32(HDR, hdr->_11g0);
+ PRINTK_BE32(HDR, hdr->_11g1);
+ PRINTK_BE32(HDR, hdr->_11b0);
+ PRINTK_BE32(HDR, hdr->_11b1);
+
+ dump_ieee80211b_phy_hdr(hdr->_11b0, hdr->_11b1);
+
+ /* Fixme */
+ for (i = 0; i < ARRAY_SIZE(hdr->mac_hdr); i++) {
+ if (i == 0)
+ printk(KERN_DEBUG PFX "IEEE80211 HDR: ");
+ printk("%.2x ", hdr->mac_hdr[i]);
+ if (i + 1 == ARRAY_SIZE(hdr->mac_hdr))
+ printk("\n");
+ }
+
+ PRINTK_BE16(HDR, hdr->rts_duration);
+ PRINTK_BE16(HDR, hdr->last_duration);
+ PRINTK_BE16(HDR, hdr->sec_last_duration);
+ PRINTK_BE16(HDR, hdr->other_duration);
+ PRINTK_BE16(HDR, hdr->tx_other_duration);
+ PRINTK_BE16(HDR, hdr->last_11g_len);
+ PRINTK_BE16(HDR, hdr->other_11g_len);
+ PRINTK_BE16(HDR, hdr->last_11b_len);
+ PRINTK_BE16(HDR, hdr->other_11b_len);
+
+ /* FIXME */
+ reg = be16_to_cpu(hdr->reg6);
+ PRINTK_BITS(HDR, MBF);
+ PRINTK_BITS(HDR, RSVD4);
+
+ PRINTK_BE16(HDR, hdr->rx_frag_stat);
+
+ PRINTK_BE32(HDR, hdr->time_stamp);
+ PRINTK_BE32(HDR, hdr->phy_stats_hi);
+ PRINTK_BE32(HDR, hdr->phy_stats_lo);
+ PRINTK_BE32(HDR, hdr->mic_key0);
+ PRINTK_BE32(HDR, hdr->mic_key1);
+} /* agnx_print_hdr */
+
+
+static inline void agnx_print_rx_hdr(struct agnx_hdr *hdr)
+{
+ agnx_print_hdr(hdr);
+
+ PRINTK_BE16(HDR, hdr->rx.rx_packet_duration);
+ PRINTK_BE16(HDR, hdr->rx.replay_cnt);
+
+ PRINTK_U8(HDR, hdr->rx_channel);
+}
+
+static inline void agnx_print_tx_hdr(struct agnx_hdr *hdr)
+{
+ agnx_print_hdr(hdr);
+
+ PRINTK_U8(HDR, hdr->tx.long_retry_limit);
+ PRINTK_U8(HDR, hdr->tx.short_retry_limit);
+ PRINTK_U8(HDR, hdr->tx.long_retry_cnt);
+ PRINTK_U8(HDR, hdr->tx.short_retry_cnt);
+
+ PRINTK_U8(HDR, hdr->rx_channel);
+}
+
+static inline void
+agnx_print_sta_power(struct agnx_priv *priv, unsigned int sta_idx)
+{
+ struct agnx_sta_power power;
+ u32 reg;
+
+ get_sta_power(priv, &power, sta_idx);
+
+ reg = le32_to_cpu(power.reg);
+ PRINTK_BITS(STA_POWER, SIGNAL);
+ PRINTK_BITS(STA_POWER, RATE);
+ PRINTK_BITS(STA_POWER, TIFS);
+ PRINTK_BITS(STA_POWER, EDCF);
+ PRINTK_BITS(STA_POWER, CHANNEL_BOND);
+ PRINTK_BITS(STA_POWER, PHY_MODE);
+ PRINTK_BITS(STA_POWER, POWER_LEVEL);
+ PRINTK_BITS(STA_POWER, NUM_TRANSMITTERS);
+}
+
+static inline void
+agnx_print_sta_tx_wq(struct agnx_priv *priv, unsigned int sta_idx, unsigned int wq_idx)
+{
+ struct agnx_sta_tx_wq tx_wq;
+ u32 reg;
+
+ get_sta_tx_wq(priv, &tx_wq, sta_idx, wq_idx);
+
+ reg = le32_to_cpu(tx_wq.reg0);
+ PRINTK_BITS(STA_TX_WQ, TAIL_POINTER);
+ PRINTK_BITS(STA_TX_WQ, HEAD_POINTER_LOW);
+
+ reg = le32_to_cpu(tx_wq.reg3);
+ PRINTK_BITS(STA_TX_WQ, HEAD_POINTER_HIGH);
+ PRINTK_BITS(STA_TX_WQ, ACK_POINTER_LOW);
+
+ reg = le32_to_cpu(tx_wq.reg1);
+ PRINTK_BITS(STA_TX_WQ, ACK_POINTER_HIGH);
+ PRINTK_BITS(STA_TX_WQ, HEAD_TIMOUT_TAIL_PACK_CNT);
+ PRINTK_BITS(STA_TX_WQ, ACK_TIMOUT_TAIL_PACK_CNT);
+
+ reg = le32_to_cpu(tx_wq.reg2);
+ PRINTK_BITS(STA_TX_WQ, HEAD_TIMOUT_WIN_LIM_BYTE_CNT);
+ PRINTK_BITS(STA_TX_WQ, HEAD_TIMOUT_WIN_LIM_FRAG_CNT);
+ PRINTK_BITS(STA_TX_WQ, WORK_QUEUE_ACK_TYPE);
+ PRINTK_BITS(STA_TX_WQ, WORK_QUEUE_VALID);
+}
+
+static inline void agnx_print_sta_traffic(struct agnx_sta_traffic *traffic)
+{
+ u32 reg;
+
+ reg = le32_to_cpu(traffic->reg0);
+ PRINTK_BITS(STA_TRAFFIC, ACK_TIMOUT_CNT);
+ PRINTK_BITS(STA_TRAFFIC, TRAFFIC_ACK_TYPE);
+ PRINTK_BITS(STA_TRAFFIC, NEW_PACKET);
+ PRINTK_BITS(STA_TRAFFIC, TRAFFIC_VALID);
+ PRINTK_BITS(STA_TRAFFIC, RX_HDR_DESC_POINTER);
+
+ reg = le32_to_cpu(traffic->reg1);
+ PRINTK_BITS(STA_TRAFFIC, RX_PACKET_TIMESTAMP);
+ PRINTK_BITS(STA_TRAFFIC, TRAFFIC_RESERVED);
+ PRINTK_BITS(STA_TRAFFIC, SV);
+ PRINTK_BITS(STA_TRAFFIC, RX_SEQUENCE_NUM);
+
+ PRINTK_LE32(STA_TRAFFIC, traffic->tx_replay_cnt_low);
+
+ PRINTK_LE16(STA_TRAFFIC, traffic->tx_replay_cnt_high);
+ PRINTK_LE16(STA_TRAFFIC, traffic->rx_replay_cnt_high);
+
+ PRINTK_LE32(STA_TRAFFIC, traffic->rx_replay_cnt_low);
+}
+
+static inline void agnx_print_sta(struct agnx_priv *priv, unsigned int sta_idx)
+{
+ struct agnx_sta station;
+ struct agnx_sta *sta = &station;
+ u32 reg;
+ unsigned int i;
+
+ get_sta(priv, sta, sta_idx);
+
+ for (i = 0; i < 4; i++)
+ PRINTK_LE32(STA, sta->tx_session_keys[i]);
+ for (i = 0; i < 4; i++)
+ PRINTK_LE32(STA, sta->rx_session_keys[i]);
+
+ reg = le32_to_cpu(sta->reg);
+ PRINTK_BITS(STA, ID_1);
+ PRINTK_BITS(STA, ID_0);
+ PRINTK_BITS(STA, ENABLE_CONCATENATION);
+ PRINTK_BITS(STA, ENABLE_DECOMPRESSION);
+ PRINTK_BITS(STA, STA_RESERVED);
+ PRINTK_BITS(STA, EAP);
+ PRINTK_BITS(STA, ED_NULL);
+ PRINTK_BITS(STA, ENCRYPTION_POLICY);
+ PRINTK_BITS(STA, DEFINED_KEY_ID);
+ PRINTK_BITS(STA, FIXED_KEY);
+ PRINTK_BITS(STA, KEY_VALID);
+ PRINTK_BITS(STA, STATION_VALID);
+
+ PRINTK_LE32(STA, sta->tx_aes_blks_unicast);
+ PRINTK_LE32(STA, sta->rx_aes_blks_unicast);
+
+ PRINTK_LE16(STA, sta->aes_format_err_unicast_cnt);
+ PRINTK_LE16(STA, sta->aes_replay_unicast);
+
+ PRINTK_LE16(STA, sta->aes_decrypt_err_unicast);
+ PRINTK_LE16(STA, sta->aes_decrypt_err_default);
+
+ PRINTK_LE16(STA, sta->single_retry_packets);
+ PRINTK_LE16(STA, sta->failed_tx_packets);
+
+ PRINTK_LE16(STA, sta->muti_retry_packets);
+ PRINTK_LE16(STA, sta->ack_timeouts);
+
+ PRINTK_LE16(STA, sta->frag_tx_cnt);
+ PRINTK_LE16(STA, sta->rts_brq_sent);
+
+ PRINTK_LE16(STA, sta->tx_packets);
+ PRINTK_LE16(STA, sta->cts_back_timeout);
+
+ PRINTK_LE32(STA, sta->phy_stats_high);
+ PRINTK_LE32(STA, sta->phy_stats_low);
+
+// for (i = 0; i < 8; i++)
+ agnx_print_sta_traffic(sta->traffic + 0);
+
+ PRINTK_LE16(STA, sta->traffic_class0_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class1_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class2_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class3_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class4_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class5_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class6_frag_success);
+ PRINTK_LE16(STA, sta->traffic_class7_frag_success);
+
+ PRINTK_LE16(STA, sta->num_frag_non_prime_rates);
+ PRINTK_LE16(STA, sta->ack_timeout_non_prime_rates);
+}
+
+
+static inline void dump_ieee80211_hdr(struct ieee80211_hdr *hdr, char *tag)
+{
+ u16 fctl;
+ int hdrlen;
+ DECLARE_MAC_BUF(mac);
+
+ fctl = le16_to_cpu(hdr->frame_control);
+ switch (fctl & IEEE80211_FCTL_FTYPE) {
+ case IEEE80211_FTYPE_DATA:
+ printk(PFX "%s DATA ", tag);
+ break;
+ case IEEE80211_FTYPE_CTL:
+ printk(PFX "%s CTL ", tag);
+ break;
+ case IEEE80211_FTYPE_MGMT:
+ printk(PFX "%s MGMT ", tag);
+ switch(fctl & IEEE80211_FCTL_STYPE) {
+ case IEEE80211_STYPE_ASSOC_REQ:
+ printk("SubType: ASSOC_REQ ");
+ break;
+ case IEEE80211_STYPE_ASSOC_RESP:
+ printk("SubType: ASSOC_RESP ");
+ break;
+ case IEEE80211_STYPE_REASSOC_REQ:
+ printk("SubType: REASSOC_REQ ");
+ break;
+ case IEEE80211_STYPE_REASSOC_RESP:
+ printk("SubType: REASSOC_RESP ");
+ break;
+ case IEEE80211_STYPE_PROBE_REQ:
+ printk("SubType: PROBE_REQ ");
+ break;
+ case IEEE80211_STYPE_PROBE_RESP:
+ printk("SubType: PROBE_RESP ");
+ break;
+ case IEEE80211_STYPE_BEACON:
+ printk("SubType: BEACON ");
+ break;
+ case IEEE80211_STYPE_ATIM:
+ printk("SubType: ATIM ");
+ break;
+ case IEEE80211_STYPE_DISASSOC:
+ printk("SubType: DISASSOC ");
+ break;
+ case IEEE80211_STYPE_AUTH:
+ printk("SubType: AUTH ");
+ break;
+ case IEEE80211_STYPE_DEAUTH:
+ printk("SubType: DEAUTH ");
+ break;
+ case IEEE80211_STYPE_ACTION:
+ printk("SubType: ACTION ");
+ break;
+ default:
+ printk("SubType: Unknow\n");
+ }
+ break;
+ default:
+ printk(PFX "%s Packet type: Unknow\n", tag);
+ }
+
+ hdrlen = ieee80211_hdrlen(fctl);
+
+ if (hdrlen >= 4)
+ printk("FC=0x%04x DUR=0x%04x",
+ fctl, le16_to_cpu(hdr->duration_id));
+ if (hdrlen >= 10)
+ printk(" A1=%s", print_mac(mac, hdr->addr1));
+ if (hdrlen >= 16)
+ printk(" A2=%s", print_mac(mac, hdr->addr2));
+ if (hdrlen >= 24)
+ printk(" A3=%s", print_mac(mac, hdr->addr3));
+ if (hdrlen >= 30)
+ printk(" A4=%s", print_mac(mac, hdr->addr4));
+ printk("\n");
+}
+
+static inline void dump_txm_registers(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int i;
+ for (i = 0; i <=0x1e8; i += 4) {
+ printk(KERN_DEBUG PFX "TXM: %x---> 0x%.8x\n", i, ioread32(ctl + i));
+ }
+}
+static inline void dump_rxm_registers(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int i;
+ for (i = 0; i <=0x108; i += 4)
+ printk(KERN_DEBUG PFX "RXM: %x---> 0x%.8x\n", i, ioread32(ctl + 0x2000 + i));
+}
+static inline void dump_bm_registers(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int i;
+ for (i = 0; i <=0x90; i += 4)
+ printk(KERN_DEBUG PFX "BM: %x---> 0x%.8x\n", i, ioread32(ctl + 0x2c00 + i));
+}
+static inline void dump_cir_registers(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int i;
+ for (i = 0; i <=0xb8; i += 4)
+ printk(KERN_DEBUG PFX "CIR: %x---> 0x%.8x\n", i, ioread32(ctl + 0x3000 + i));
+}
+
+#endif /* AGNX_DEBUG_H_ */
diff --git a/drivers/staging/agnx/pci.c b/drivers/staging/agnx/pci.c
new file mode 100644
index 0000000..2e3a8d3
--- /dev/null
+++ b/drivers/staging/agnx/pci.c
@@ -0,0 +1,650 @@
+/**
+ * Airgo MIMO wireless driver
+ *
+ * Copyright (c) 2007 Li YanBo <dreamfly281@gmail.com>
+
+ * Thanks for Jeff Williams <angelbane@gmail.com> do reverse engineer
+ * works and published the SPECS at http://airgo.wdwconsulting.net/mymoin
+
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ */
+
+#include <linux/init.h>
+#include <linux/etherdevice.h>
+#include <linux/pci.h>
+#include <linux/delay.h>
+
+#include "agnx.h"
+#include "debug.h"
+#include "xmit.h"
+#include "phy.h"
+
+MODULE_AUTHOR("Li YanBo <dreamfly281@gmail.com>");
+MODULE_DESCRIPTION("Airgo MIMO PCI wireless driver");
+MODULE_LICENSE("GPL");
+
+static struct pci_device_id agnx_pci_id_tbl[] __devinitdata = {
+ { PCI_DEVICE(0x17cb, 0x0001) }, /* Beklin F5d8010, Netgear WGM511 etc */
+ { PCI_DEVICE(0x17cb, 0x0002) }, /* Netgear Wpnt511 */
+ { 0 }
+};
+
+MODULE_DEVICE_TABLE(pci, agnx_pci_id_tbl);
+
+
+static inline void agnx_interrupt_ack(struct agnx_priv *priv, u32 *reason)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ if ( *reason & AGNX_STAT_RX ) {
+ /* Mark complete RX */
+ reg = ioread32(ctl + AGNX_CIR_RXCTL);
+ reg |= 0x4;
+ iowrite32(reg, ctl + AGNX_CIR_RXCTL);
+ /* disable Rx interrupt */
+ }
+ if ( *reason & AGNX_STAT_TX ) {
+ reg = ioread32(ctl + AGNX_CIR_TXDCTL);
+ if (reg & 0x4) {
+ iowrite32(reg, ctl + AGNX_CIR_TXDCTL);
+ *reason |= AGNX_STAT_TXD;
+ }
+ reg = ioread32(ctl + AGNX_CIR_TXMCTL);
+ if (reg & 0x4) {
+ iowrite32(reg, ctl + AGNX_CIR_TXMCTL);
+ *reason |= AGNX_STAT_TXM;
+ }
+ }
+ if ( *reason & AGNX_STAT_X ) {
+/* reg = ioread32(ctl + AGNX_INT_STAT); */
+/* iowrite32(reg, ctl + AGNX_INT_STAT); */
+/* /\* FIXME reinit interrupt mask *\/ */
+/* reg = 0xc390bf9 & ~IRQ_TX_BEACON; */
+/* reg &= ~IRQ_TX_DISABLE; */
+/* iowrite32(reg, ctl + AGNX_INT_MASK); */
+/* iowrite32(0x800, ctl + AGNX_CIR_BLKCTL); */
+ }
+} /* agnx_interrupt_ack */
+
+static irqreturn_t agnx_interrupt_handler(int irq, void *dev_id)
+{
+ struct ieee80211_hw *dev = dev_id;
+ struct agnx_priv *priv = dev->priv;
+ void __iomem *ctl = priv->ctl;
+ irqreturn_t ret = IRQ_NONE;
+ u32 irq_reason;
+
+ spin_lock(&priv->lock);
+
+// printk(KERN_ERR PFX "Get a interrupt %s\n", __func__);
+
+ if (priv->init_status != AGNX_START)
+ goto out;
+
+ /* FiXME Here has no lock, Is this will lead to race? */
+ irq_reason = ioread32(ctl + AGNX_CIR_BLKCTL);
+ if (!(irq_reason & 0x7))
+ goto out;
+
+ ret = IRQ_HANDLED;
+ priv->irq_status = ioread32(ctl + AGNX_INT_STAT);
+
+// printk(PFX "Interrupt reason is 0x%x\n", irq_reason);
+ /* Make sure the txm and txd flags don't conflict with other unknown
+ interrupt flag, maybe is not necessary */
+ irq_reason &= 0xF;
+
+ disable_rx_interrupt(priv);
+ /* TODO Make sure the card finished initialized */
+ agnx_interrupt_ack(priv, &irq_reason);
+
+ if ( irq_reason & AGNX_STAT_RX )
+ handle_rx_irq(priv);
+ if ( irq_reason & AGNX_STAT_TXD )
+ handle_txd_irq(priv);
+ if ( irq_reason & AGNX_STAT_TXM )
+ handle_txm_irq(priv);
+ if ( irq_reason & AGNX_STAT_X )
+ handle_other_irq(priv);
+
+ enable_rx_interrupt(priv);
+out:
+ spin_unlock(&priv->lock);
+ return ret;
+} /* agnx_interrupt_handler */
+
+
+/* FIXME */
+static int agnx_tx(struct ieee80211_hw *dev, struct sk_buff *skb)
+{
+ AGNX_TRACE;
+ return _agnx_tx(dev->priv, skb);
+} /* agnx_tx */
+
+
+static int agnx_get_mac_address(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ /* Attention! directly read the MAC or other date from EEPROM will
+ lead to cardbus(WGM511) lock up when write to PM PLL register */
+ reg = agnx_read32(ctl, 0x3544);
+ udelay(40);
+ reg = agnx_read32(ctl, 0x354c);
+ udelay(50);
+ /* Get the mac address */
+ reg = agnx_read32(ctl, 0x3544);
+ udelay(40);
+
+ /* HACK */
+ reg = cpu_to_le32(reg);
+ priv->mac_addr[0] = ((u8 *)&reg)[2];
+ priv->mac_addr[1] = ((u8 *)&reg)[3];
+ reg = agnx_read32(ctl, 0x3548);
+ udelay(50);
+ *((u32 *)(priv->mac_addr + 2)) = cpu_to_le32(reg);
+
+ if (!is_valid_ether_addr(priv->mac_addr)) {
+ DECLARE_MAC_BUF(mbuf);
+ printk(KERN_WARNING PFX "read mac %s\n", print_mac(mbuf, priv->mac_addr));
+ printk(KERN_WARNING PFX "Invalid hwaddr! Using random hwaddr\n");
+ random_ether_addr(priv->mac_addr);
+ }
+
+ return 0;
+} /* agnx_get_mac_address */
+
+static int agnx_alloc_rings(struct agnx_priv *priv)
+{
+ unsigned int len;
+ AGNX_TRACE;
+
+ /* Allocate RX/TXM/TXD rings info */
+ priv->rx.size = AGNX_RX_RING_SIZE;
+ priv->txm.size = AGNX_TXM_RING_SIZE;
+ priv->txd.size = AGNX_TXD_RING_SIZE;
+
+ len = priv->rx.size + priv->txm.size + priv->txd.size;
+
+// priv->rx.info = kzalloc(sizeof(struct agnx_info) * len, GFP_KERNEL);
+ priv->rx.info = kzalloc(sizeof(struct agnx_info) * len, GFP_ATOMIC);
+ if (!priv->rx.info)
+ return -ENOMEM;
+ priv->txm.info = priv->rx.info + priv->rx.size;
+ priv->txd.info = priv->txm.info + priv->txm.size;
+
+ /* Allocate RX/TXM/TXD descriptors */
+ priv->rx.desc = pci_alloc_consistent(priv->pdev, sizeof(struct agnx_desc) * len,
+ &priv->rx.dma);
+ if (!priv->rx.desc) {
+ kfree(priv->rx.info);
+ return -ENOMEM;
+ }
+
+ priv->txm.desc = priv->rx.desc + priv->rx.size;
+ priv->txm.dma = priv->rx.dma + sizeof(struct agnx_desc) * priv->rx.size;
+ priv->txd.desc = priv->txm.desc + priv->txm.size;
+ priv->txd.dma = priv->txm.dma + sizeof(struct agnx_desc) * priv->txm.size;
+
+ return 0;
+} /* agnx_alloc_rings */
+
+static void rings_free(struct agnx_priv *priv)
+{
+ unsigned int len = priv->rx.size + priv->txm.size + priv->txd.size;
+ unsigned long flags;
+ AGNX_TRACE;
+
+ spin_lock_irqsave(&priv->lock, flags);
+ kfree(priv->rx.info);
+ pci_free_consistent(priv->pdev, sizeof(struct agnx_desc) * len,
+ priv->rx.desc, priv->rx.dma);
+ spin_unlock_irqrestore(&priv->lock, flags);
+}
+
+
+static void agnx_periodic_work_handler(struct work_struct *work)
+{
+ struct agnx_priv *priv = container_of(work, struct agnx_priv,
+ periodic_work.work);
+// unsigned long flags;
+ unsigned long delay;
+
+ /* fixme: using mutex?? */
+// spin_lock_irqsave(&priv->lock, flags);
+
+ /* TODO Recalibrate*/
+// calibrate_oscillator(priv);
+// antenna_calibrate(priv);
+// agnx_send_packet(priv, 997);
+ /* FIXME */
+/* if (debug == 3) */
+/* delay = msecs_to_jiffies(AGNX_PERIODIC_DELAY); */
+/* else */
+ delay = msecs_to_jiffies(AGNX_PERIODIC_DELAY);
+// delay = round_jiffies(HZ * 15);
+
+ queue_delayed_work(priv->hw->workqueue, &priv->periodic_work, delay);
+
+// spin_unlock_irqrestore(&priv->lock, flags);
+}
+
+
+static int agnx_start(struct ieee80211_hw *dev)
+{
+ struct agnx_priv *priv = dev->priv;
+ unsigned long delay;
+ int err = 0;
+ AGNX_TRACE;
+
+ err = agnx_alloc_rings(priv);
+ if (err) {
+ printk(KERN_ERR PFX "Can't alloc RX/TXM/TXD rings\n");
+ goto out;
+ }
+ err = request_irq(priv->pdev->irq, &agnx_interrupt_handler,
+ IRQF_SHARED, "agnx_pci", dev);
+ if (err) {
+ printk(KERN_ERR PFX "Failed to register IRQ handler\n");
+ rings_free(priv);
+ goto out;
+ }
+
+// mdelay(500);
+
+ might_sleep();
+ agnx_hw_init(priv);
+
+// mdelay(500);
+ might_sleep();
+
+ priv->init_status = AGNX_START;
+/* INIT_DELAYED_WORK(&priv->periodic_work, agnx_periodic_work_handler); */
+/* delay = msecs_to_jiffies(AGNX_PERIODIC_DELAY); */
+/* queue_delayed_work(priv->hw->workqueue, &priv->periodic_work, delay); */
+out:
+ return err;
+} /* agnx_start */
+
+static void agnx_stop(struct ieee80211_hw *dev)
+{
+ struct agnx_priv *priv = dev->priv;
+ AGNX_TRACE;
+
+ priv->init_status = AGNX_STOP;
+ /* make sure hardware will not generate irq */
+ agnx_hw_reset(priv);
+ free_irq(priv->pdev->irq, dev);
+ flush_workqueue(priv->hw->workqueue);
+// cancel_delayed_work_sync(&priv->periodic_work);
+ unfill_rings(priv);
+ rings_free(priv);
+}
+
+static int agnx_config(struct ieee80211_hw *dev,
+ struct ieee80211_conf *conf)
+{
+ struct agnx_priv *priv = dev->priv;
+ int channel = ieee80211_frequency_to_channel(conf->channel->center_freq);
+ AGNX_TRACE;
+
+ spin_lock(&priv->lock);
+ /* FIXME need priv lock? */
+ if (channel != priv->channel) {
+ priv->channel = channel;
+ agnx_set_channel(priv, priv->channel);
+ }
+
+ spin_unlock(&priv->lock);
+ return 0;
+}
+
+static int agnx_config_interface(struct ieee80211_hw *dev,
+ struct ieee80211_vif *vif,
+ struct ieee80211_if_conf *conf)
+{
+ struct agnx_priv *priv = dev->priv;
+ void __iomem *ctl = priv->ctl;
+ AGNX_TRACE;
+
+ spin_lock(&priv->lock);
+
+ if (memcmp(conf->bssid, priv->bssid, ETH_ALEN)) {
+// u32 reghi, reglo;
+ agnx_set_bssid(priv, conf->bssid);
+ memcpy(priv->bssid, conf->bssid, ETH_ALEN);
+ hash_write(priv, conf->bssid, BSSID_STAID);
+ sta_init(priv, BSSID_STAID);
+ /* FIXME needed? */
+ sta_power_init(priv, BSSID_STAID);
+ agnx_write32(ctl, AGNX_BM_MTSM, 0xff & ~0x1);
+ }
+ if (conf->ssid_len != priv->ssid_len ||
+ memcmp(conf->ssid, priv->ssid, conf->ssid_len)) {
+ agnx_set_ssid(priv, conf->ssid, conf->ssid_len);
+ priv->ssid_len = conf->ssid_len;
+ memcpy(priv->ssid, conf->ssid, conf->ssid_len);
+ }
+ spin_unlock(&priv->lock);
+ return 0;
+} /* agnx_config_interface */
+
+
+static void agnx_configure_filter(struct ieee80211_hw *dev,
+ unsigned int changed_flags,
+ unsigned int *total_flags,
+ int mc_count, struct dev_mc_list *mclist)
+{
+ unsigned int new_flags = 0;
+
+ *total_flags = new_flags;
+ /* TODO */
+}
+
+static int agnx_add_interface(struct ieee80211_hw *dev,
+ struct ieee80211_if_init_conf *conf)
+{
+ struct agnx_priv *priv = dev->priv;
+ AGNX_TRACE;
+
+ spin_lock(&priv->lock);
+ /* FIXME */
+ if (priv->mode != NL80211_IFTYPE_MONITOR)
+ return -EOPNOTSUPP;
+
+ switch (conf->type) {
+ case NL80211_IFTYPE_STATION:
+ priv->mode = conf->type;
+ break;
+ default:
+ return -EOPNOTSUPP;
+ }
+
+ spin_unlock(&priv->lock);
+
+ return 0;
+}
+
+static void agnx_remove_interface(struct ieee80211_hw *dev,
+ struct ieee80211_if_init_conf *conf)
+{
+ struct agnx_priv *priv = dev->priv;
+ AGNX_TRACE;
+
+ /* TODO */
+ priv->mode = NL80211_IFTYPE_MONITOR;
+}
+
+static int agnx_get_stats(struct ieee80211_hw *dev,
+ struct ieee80211_low_level_stats *stats)
+{
+ struct agnx_priv *priv = dev->priv;
+ AGNX_TRACE;
+ spin_lock(&priv->lock);
+ /* TODO !! */
+ memcpy(stats, &priv->stats, sizeof(*stats));
+ spin_unlock(&priv->lock);
+
+ return 0;
+}
+
+static u64 agnx_get_tsft(struct ieee80211_hw *dev)
+{
+ void __iomem *ctl = ((struct agnx_priv *)dev->priv)->ctl;
+ u32 tsftl;
+ u64 tsft;
+ AGNX_TRACE;
+
+ /* FIXME */
+ tsftl = ioread32(ctl + AGNX_TXM_TIMESTAMPLO);
+ tsft = ioread32(ctl + AGNX_TXM_TIMESTAMPHI);
+ tsft <<= 32;
+ tsft |= tsftl;
+
+ return tsft;
+}
+
+static int agnx_get_tx_stats(struct ieee80211_hw *dev,
+ struct ieee80211_tx_queue_stats *stats)
+{
+ struct agnx_priv *priv = dev->priv;
+ AGNX_TRACE;
+
+ /* FIXME now we just using txd queue, but should using txm queue too */
+ stats[0].len = (priv->txd.idx - priv->txd.idx_sent) / 2;
+ stats[0].limit = priv->txd.size - 2;
+ stats[0].count = priv->txd.idx / 2;
+
+ return 0;
+}
+
+static struct ieee80211_ops agnx_ops = {
+ .tx = agnx_tx,
+ .start = agnx_start,
+ .stop = agnx_stop,
+ .add_interface = agnx_add_interface,
+ .remove_interface = agnx_remove_interface,
+ .config = agnx_config,
+ .config_interface = agnx_config_interface,
+ .configure_filter = agnx_configure_filter,
+ .get_stats = agnx_get_stats,
+ .get_tx_stats = agnx_get_tx_stats,
+ .get_tsf = agnx_get_tsft
+};
+
+static void __devexit agnx_pci_remove(struct pci_dev *pdev)
+{
+ struct ieee80211_hw *dev = pci_get_drvdata(pdev);
+ struct agnx_priv *priv = dev->priv;
+ AGNX_TRACE;
+
+ if (!dev)
+ return;
+ ieee80211_unregister_hw(dev);
+ pci_iounmap(pdev, priv->ctl);
+ pci_iounmap(pdev, priv->data);
+ pci_release_regions(pdev);
+ pci_disable_device(pdev);
+
+ ieee80211_free_hw(dev);
+}
+
+static int __devinit agnx_pci_probe(struct pci_dev *pdev,
+ const struct pci_device_id *id)
+{
+ struct ieee80211_hw *dev;
+ struct agnx_priv *priv;
+ u32 mem_addr0, mem_len0;
+ u32 mem_addr1, mem_len1;
+ int err;
+ DECLARE_MAC_BUF(mac);
+
+ err = pci_enable_device(pdev);
+ if (err) {
+ printk(KERN_ERR PFX "Can't enable new PCI device\n");
+ return err;
+ }
+
+ /* get pci resource */
+ mem_addr0 = pci_resource_start(pdev, 0);
+ mem_len0 = pci_resource_len(pdev, 0);
+ mem_addr1 = pci_resource_start(pdev, 1);
+ mem_len1 = pci_resource_len(pdev, 1);
+ printk(KERN_DEBUG PFX "Memaddr0 is %x, length is %x\n", mem_addr0, mem_len0);
+ printk(KERN_DEBUG PFX "Memaddr1 is %x, length is %x\n", mem_addr1, mem_len1);
+
+ err = pci_request_regions(pdev, "agnx-pci");
+ if (err) {
+ printk(KERN_ERR PFX "Can't obtain PCI resource\n");
+ return err;
+ }
+
+ if (pci_set_dma_mask(pdev, DMA_32BIT_MASK) ||
+ pci_set_consistent_dma_mask(pdev, DMA_32BIT_MASK)) {
+ printk(KERN_ERR PFX "No suitable DMA available\n");
+ goto err_free_reg;
+ }
+
+ pci_set_master(pdev);
+ printk(KERN_DEBUG PFX "pdev->irq is %d\n", pdev->irq);
+
+ dev = ieee80211_alloc_hw(sizeof(*priv), &agnx_ops);
+ if (!dev) {
+ printk(KERN_ERR PFX "ieee80211 alloc failed\n");
+ err = -ENOMEM;
+ goto err_free_reg;
+ }
+ /* init priv */
+ priv = dev->priv;
+ memset(priv, 0, sizeof(*priv));
+ priv->mode = NL80211_IFTYPE_MONITOR;
+ priv->pdev = pdev;
+ priv->hw = dev;
+ spin_lock_init(&priv->lock);
+ priv->init_status = AGNX_UNINIT;
+
+ /* Map mem #1 and #2 */
+ priv->ctl = pci_iomap(pdev, 0, mem_len0);
+// printk(KERN_DEBUG PFX"MEM1 mapped address is 0x%p\n", priv->ctl);
+ if (!priv->ctl) {
+ printk(KERN_ERR PFX "Can't map device memory\n");
+ goto err_free_dev;
+ }
+ priv->data = pci_iomap(pdev, 1, mem_len1);
+ printk(KERN_DEBUG PFX "MEM2 mapped address is 0x%p\n", priv->data);
+ if (!priv->data) {
+ printk(KERN_ERR PFX "Can't map device memory\n");
+ goto err_iounmap2;
+ }
+
+ pci_read_config_byte(pdev, PCI_REVISION_ID, &priv->revid);
+
+ priv->band.channels = (struct ieee80211_channel *)agnx_channels;
+ priv->band.n_channels = ARRAY_SIZE(agnx_channels);
+ priv->band.bitrates = (struct ieee80211_rate *)agnx_rates_80211g;
+ priv->band.n_bitrates = ARRAY_SIZE(agnx_rates_80211g);
+
+ /* Init ieee802.11 dev */
+ SET_IEEE80211_DEV(dev, &pdev->dev);
+ pci_set_drvdata(pdev, dev);
+ dev->extra_tx_headroom = sizeof(struct agnx_hdr);
+
+ /* FIXME It only include FCS in promious mode but not manage mode */
+/* dev->flags = IEEE80211_HW_RX_INCLUDES_FCS; */
+ dev->channel_change_time = 5000;
+ dev->max_signal = 100;
+ /* FIXME */
+ dev->queues = 1;
+
+ agnx_get_mac_address(priv);
+
+ SET_IEEE80211_PERM_ADDR(dev, priv->mac_addr);
+
+/* /\* FIXME *\/ */
+/* for (i = 1; i < NUM_DRIVE_MODES; i++) { */
+/* err = ieee80211_register_hwmode(dev, &priv->modes[i]); */
+/* if (err) { */
+/* printk(KERN_ERR PFX "Can't register hwmode\n"); */
+/* goto err_iounmap; */
+/* } */
+/* } */
+
+ priv->channel = 1;
+ dev->wiphy->bands[IEEE80211_BAND_2GHZ] = &priv->band;
+
+ err = ieee80211_register_hw(dev);
+ if (err) {
+ printk(KERN_ERR PFX "Can't register hardware\n");
+ goto err_iounmap;
+ }
+
+ agnx_hw_reset(priv);
+
+
+ printk(PFX "%s: hwaddr %s, Rev 0x%02x\n", wiphy_name(dev->wiphy),
+ print_mac(mac, dev->wiphy->perm_addr), priv->revid);
+ return 0;
+
+ err_iounmap:
+ pci_iounmap(pdev, priv->data);
+
+ err_iounmap2:
+ pci_iounmap(pdev, priv->ctl);
+
+ err_free_dev:
+ pci_set_drvdata(pdev, NULL);
+ ieee80211_free_hw(dev);
+
+ err_free_reg:
+ pci_release_regions(pdev);
+
+ pci_disable_device(pdev);
+ return err;
+} /* agnx_pci_probe*/
+
+#ifdef CONFIG_PM
+
+static int agnx_pci_suspend(struct pci_dev *pdev, pm_message_t state)
+{
+ struct ieee80211_hw *dev = pci_get_drvdata(pdev);
+ AGNX_TRACE;
+
+ ieee80211_stop_queues(dev);
+ agnx_stop(dev);
+
+ pci_save_state(pdev);
+ pci_set_power_state(pdev, pci_choose_state(pdev, state));
+ return 0;
+}
+
+static int agnx_pci_resume(struct pci_dev *pdev)
+{
+ struct ieee80211_hw *dev = pci_get_drvdata(pdev);
+ AGNX_TRACE;
+
+ pci_set_power_state(pdev, PCI_D0);
+ pci_restore_state(pdev);
+
+ agnx_start(dev);
+ ieee80211_wake_queues(dev);
+
+ return 0;
+}
+
+#else
+
+#define agnx_pci_suspend NULL
+#define agnx_pci_resume NULL
+
+#endif /* CONFIG_PM */
+
+
+static struct pci_driver agnx_pci_driver = {
+ .name = "agnx-pci",
+ .id_table = agnx_pci_id_tbl,
+ .probe = agnx_pci_probe,
+ .remove = __devexit_p(agnx_pci_remove),
+ .suspend = agnx_pci_suspend,
+ .resume = agnx_pci_resume,
+};
+
+static int __init agnx_pci_init(void)
+{
+ AGNX_TRACE;
+ return pci_register_driver(&agnx_pci_driver);
+}
+
+static void __exit agnx_pci_exit(void)
+{
+ AGNX_TRACE;
+ pci_unregister_driver(&agnx_pci_driver);
+}
+
+
+module_init(agnx_pci_init);
+module_exit(agnx_pci_exit);
diff --git a/drivers/staging/agnx/phy.c b/drivers/staging/agnx/phy.c
new file mode 100644
index 0000000..625d192
--- /dev/null
+++ b/drivers/staging/agnx/phy.c
@@ -0,0 +1,958 @@
+/**
+ * Airgo MIMO wireless driver
+ *
+ * Copyright (c) 2007 Li YanBo <dreamfly281@gmail.com>
+
+ * Thanks for Jeff Williams <angelbane@gmail.com> do reverse engineer
+ * works and published the SPECS at http://airgo.wdwconsulting.net/mymoin
+
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ */
+
+#include <linux/init.h>
+#include <linux/etherdevice.h>
+#include <linux/pci.h>
+#include <linux/delay.h>
+#include "agnx.h"
+#include "debug.h"
+#include "phy.h"
+#include "table.h"
+#include "sta.h"
+#include "xmit.h"
+
+u8 read_from_eeprom(struct agnx_priv *priv, u16 address)
+{
+ void __iomem *ctl = priv->ctl;
+ struct agnx_eeprom cmd;
+ u32 reg;
+
+ memset(&cmd, 0, sizeof(cmd));
+ cmd.cmd = EEPROM_CMD_READ << AGNX_EEPROM_COMMAND_SHIFT;
+ cmd.address = address;
+ /* Verify that the Status bit is clear */
+ /* Read Command and Address are written to the Serial Interface */
+ iowrite32(*(__le32 *)&cmd, ctl + AGNX_CIR_SERIALITF);
+ /* Wait for the Status bit to clear again */
+ eeprom_delay();
+ /* Read from Data */
+ reg = ioread32(ctl + AGNX_CIR_SERIALITF);
+
+ cmd = *(struct agnx_eeprom *)&reg;
+
+ return cmd.data;
+}
+
+static int card_full_reset(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ reg = agnx_read32(ctl, AGNX_CIR_BLKCTL);
+ agnx_write32(ctl, AGNX_CIR_BLKCTL, 0x80);
+ reg = agnx_read32(ctl, AGNX_CIR_BLKCTL);
+ return 0;
+}
+
+inline void enable_power_saving(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg &= ~0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+}
+
+inline void disable_power_saving(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+}
+
+
+void disable_receiver(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ AGNX_TRACE;
+
+ /* FIXME Disable the receiver */
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x0);
+ /* Set gain control reset */
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x1);
+ /* Reset gain control reset */
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x0);
+}
+
+
+/* Fixme this shoule be disable RX, above is enable RX */
+void enable_receiver(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ AGNX_TRACE;
+
+ /* Set adaptive gain control discovery mode */
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x3);
+ /* Set gain control reset */
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x1);
+ /* Clear gain control reset */
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x0);
+}
+
+static void mac_address_set(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u8 *mac_addr = priv->mac_addr;
+ u32 reg;
+
+ /* FIXME */
+ reg = (mac_addr[0] << 24) | (mac_addr[1] << 16) | mac_addr[2] << 8 | mac_addr[3];
+ iowrite32(reg, ctl + AGNX_RXM_MACHI);
+ reg = (mac_addr[4] << 8) | mac_addr[5];
+ iowrite32(reg, ctl + AGNX_RXM_MACLO);
+}
+
+static void receiver_bssid_set(struct agnx_priv *priv, u8 *bssid)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ disable_receiver(priv);
+ /* FIXME */
+ reg = bssid[0] << 24 | (bssid[1] << 16) | (bssid[2] << 8) | bssid[3];
+ iowrite32(reg, ctl + AGNX_RXM_BSSIDHI);
+ reg = (bssid[4] << 8) | bssid[5];
+ iowrite32(reg, ctl + AGNX_RXM_BSSIDLO);
+
+ /* Enable the receiver */
+ enable_receiver(priv);
+
+ /* Clear the TSF */
+/* agnx_write32(ctl, AGNX_TXM_TSFLO, 0x0); */
+/* agnx_write32(ctl, AGNX_TXM_TSFHI, 0x0); */
+ /* Clear the TBTT */
+ agnx_write32(ctl, AGNX_TXM_TBTTLO, 0x0);
+ agnx_write32(ctl, AGNX_TXM_TBTTHI, 0x0);
+ disable_receiver(priv);
+} /* receiver_bssid_set */
+
+static void band_management_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ void __iomem *data = priv->data;
+ u32 reg;
+ int i;
+ AGNX_TRACE;
+
+ agnx_write32(ctl, AGNX_BM_TXWADDR, AGNX_PDU_TX_WQ);
+ agnx_write32(ctl, AGNX_CIR_ADDRWIN, 0x0);
+ memset_io(data + AGNX_PDUPOOL, 0x0, AGNX_PDUPOOL_SIZE);
+ agnx_write32(ctl, AGNX_BM_BMCTL, 0x200);
+
+ agnx_write32(ctl, AGNX_BM_CIPDUWCNT, 0x40);
+ agnx_write32(ctl, AGNX_BM_SPPDUWCNT, 0x2);
+ agnx_write32(ctl, AGNX_BM_RFPPDUWCNT, 0x0);
+ agnx_write32(ctl, AGNX_BM_RHPPDUWCNT, 0x22);
+
+ /* FIXME Initialize the Free Pool Linked List */
+ /* 1. Write the Address of the Next Node ((0x41800 + node*size)/size)
+ to the first word of each node. */
+ for (i = 0; i < PDU_FREE_CNT; i++) {
+ iowrite32((AGNX_PDU_FREE + (i+1)*PDU_SIZE)/PDU_SIZE,
+ data + AGNX_PDU_FREE + (PDU_SIZE * i));
+ /* The last node should be set to 0x0 */
+ if ((i + 1) == PDU_FREE_CNT)
+ memset_io(data + AGNX_PDU_FREE + (PDU_SIZE * i),
+ 0x0, PDU_SIZE);
+ }
+
+ /* Head is First Pool address (0x41800) / size (0x80) */
+ agnx_write32(ctl, AGNX_BM_FPLHP, AGNX_PDU_FREE/PDU_SIZE);
+ /* Tail is Last Pool Address (0x47f80) / size (0x80) */
+ agnx_write32(ctl, AGNX_BM_FPLTP, 0x47f80/PDU_SIZE);
+ /* Count is Number of Nodes in the Pool (0xd0) */
+ agnx_write32(ctl, AGNX_BM_FPCNT, PDU_FREE_CNT);
+
+ /* Start all workqueue */
+ agnx_write32(ctl, AGNX_BM_CIWQCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_CPULWCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_CPUHWCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_CPUTXWCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_CPURXWCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_SPRXWCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_SPTXWCTL, 0x80000);
+ agnx_write32(ctl, AGNX_BM_RFPWCTL, 0x80000);
+
+ /* Enable the Band Management */
+ reg = agnx_read32(ctl, AGNX_BM_BMCTL);
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_BM_BMCTL, reg);
+} /* band_managment_init */
+
+
+static void system_itf_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, 0x0);
+ agnx_write32(ctl, AGNX_PM_TESTPHY, 0x11e143a);
+
+ if (priv->revid == 0) {
+ reg = agnx_read32(ctl, AGNX_SYSITF_SYSMODE);
+ reg |= 0x11;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, reg);
+ }
+ /* ??? What is that means? it should difference for differice type
+ of cards */
+ agnx_write32(ctl, AGNX_CIR_SERIALITF, 0xfff81006);
+
+ agnx_write32(ctl, AGNX_SYSITF_GPIOIN, 0x1f0000);
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, 0x5);
+ reg = agnx_read32(ctl, AGNX_SYSITF_GPIOIN);
+}
+
+static void encryption_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ AGNX_TRACE;
+
+ agnx_write32(ctl, AGNX_ENCRY_WEPKEY0, 0x0);
+ agnx_write32(ctl, AGNX_ENCRY_WEPKEY1, 0x0);
+ agnx_write32(ctl, AGNX_ENCRY_WEPKEY2, 0x0);
+ agnx_write32(ctl, AGNX_ENCRY_WEPKEY3, 0x0);
+ agnx_write32(ctl, AGNX_ENCRY_CCMRECTL, 0x8);
+}
+
+static void tx_management_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ void __iomem *data = priv->data;
+ u32 reg;
+ AGNX_TRACE;
+
+ /* Fill out the ComputationalEngineLookupTable
+ * starting at memory #2 offset 0x800
+ */
+ tx_engine_lookup_tbl_init(priv);
+ memset_io(data + 0x1000, 0, 0xfe0);
+ /* Enable Transmission Management Functions */
+ agnx_write32(ctl, AGNX_TXM_ETMF, 0x3ff);
+ /* Write 0x3f to Transmission Template */
+ agnx_write32(ctl, AGNX_TXM_TXTEMP, 0x3f);
+
+ if (priv->revid >= 2)
+ agnx_write32(ctl, AGNX_TXM_SIFSPIFS, 0x1e140a0b);
+ else
+ agnx_write32(ctl, AGNX_TXM_SIFSPIFS, 0x1e190a0b);
+
+ reg = agnx_read32(ctl, AGNX_TXM_TIFSEIFS);
+ reg &= 0xff00;
+ reg |= 0xb;
+ agnx_write32(ctl, AGNX_TXM_TIFSEIFS, reg);
+ reg = agnx_read32(ctl, AGNX_TXM_TIFSEIFS);
+ reg &= 0xffff00ff;
+ reg |= 0xa00;
+ agnx_write32(ctl, AGNX_TXM_TIFSEIFS, reg);
+ /* Enable TIFS */
+ agnx_write32(ctl, AGNX_TXM_CTL, 0x40000);
+
+ reg = agnx_read32(ctl, AGNX_TXM_TIFSEIFS);
+ reg &= 0xff00ffff;
+ reg |= 0x510000;
+ agnx_write32(ctl, AGNX_TXM_TIFSEIFS, reg);
+ reg = agnx_read32(ctl, AGNX_TXM_PROBDELAY);
+ reg &= 0xff00ffff;
+ agnx_write32(ctl, AGNX_TXM_PROBDELAY, reg);
+ reg = agnx_read32(ctl, AGNX_TXM_TIFSEIFS);
+ reg &= 0x00ffffff;
+ reg |= 0x1c000000;
+ agnx_write32(ctl, AGNX_TXM_TIFSEIFS, reg);
+ reg = agnx_read32(ctl, AGNX_TXM_PROBDELAY);
+ reg &= 0x00ffffff;
+ reg |= 0x01000000;
+ agnx_write32(ctl, AGNX_TXM_PROBDELAY, reg);
+
+ /* # Set DIF 0-1,2-3,4-5,6-7 to defaults */
+ agnx_write32(ctl, AGNX_TXM_DIF01, 0x321d321d);
+ agnx_write32(ctl, AGNX_TXM_DIF23, 0x321d321d);
+ agnx_write32(ctl, AGNX_TXM_DIF45, 0x321d321d);
+ agnx_write32(ctl, AGNX_TXM_DIF67, 0x321d321d);
+
+ /* Max Ack timeout limit */
+ agnx_write32(ctl, AGNX_TXM_MAXACKTIM, 0x1e19);
+ /* Max RX Data Timeout count, */
+ reg = agnx_read32(ctl, AGNX_TXM_MAXRXTIME);
+ reg &= 0xffff0000;
+ reg |= 0xff;
+ agnx_write32(ctl, AGNX_TXM_MAXRXTIME, reg);
+
+ /* CF poll RX Timeout count */
+ reg = agnx_read32(ctl, AGNX_TXM_CFPOLLRXTIM);
+ reg &= 0xffff;
+ reg |= 0xff0000;
+ agnx_write32(ctl, AGNX_TXM_CFPOLLRXTIM, reg);
+
+ /* Max Timeout Exceeded count, */
+ reg = agnx_read32(ctl, AGNX_TXM_MAXTIMOUT);
+ reg &= 0xff00ffff;
+ reg |= 0x190000;
+ agnx_write32(ctl, AGNX_TXM_MAXTIMOUT, reg);
+
+ /* CF ack timeout limit for 11b */
+ reg = agnx_read32(ctl, AGNX_TXM_CFACKT11B);
+ reg &= 0xff00;
+ reg |= 0x1e;
+ agnx_write32(ctl, AGNX_TXM_CFACKT11B, reg);
+
+ /* Max CF Poll Timeout Count */
+ reg = agnx_read32(ctl, AGNX_TXM_CFPOLLRXTIM);
+ reg &= 0xffff0000;
+ reg |= 0x19;
+ agnx_write32(ctl, AGNX_TXM_CFPOLLRXTIM, reg);
+ /* CF Poll RX Timeout Count */
+ reg = agnx_read32(ctl, AGNX_TXM_CFPOLLRXTIM);
+ reg &= 0xffff0000;
+ reg |= 0x1e;
+ agnx_write32(ctl, AGNX_TXM_CFPOLLRXTIM, reg);
+
+ /* # write default to */
+ /* 1. Schedule Empty Count */
+ agnx_write32(ctl, AGNX_TXM_SCHEMPCNT, 0x5);
+ /* 2. CFP Period Count */
+ agnx_write32(ctl, AGNX_TXM_CFPERCNT, 0x1);
+ /* 3. CFP MDV */
+ agnx_write32(ctl, AGNX_TXM_CFPMDV, 0x10000);
+
+ /* Probe Delay */
+ reg = agnx_read32(ctl, AGNX_TXM_PROBDELAY);
+ reg &= 0xffff0000;
+ reg |= 0x400;
+ agnx_write32(ctl, AGNX_TXM_PROBDELAY, reg);
+
+ /* Max CCA count Slot */
+ reg = agnx_read32(ctl, AGNX_TXM_MAXCCACNTSLOT);
+ reg &= 0xffff00ff;
+ reg |= 0x900;
+ agnx_write32(ctl, AGNX_TXM_MAXCCACNTSLOT, reg);
+
+ /* Slot limit/1 msec Limit */
+ reg = agnx_read32(ctl, AGNX_TXM_SLOTLIMIT);
+ reg &= 0xff00ffff;
+ reg |= 0x140077;
+ agnx_write32(ctl, AGNX_TXM_SLOTLIMIT, reg);
+
+ /* # Set CW #(0-7) to default */
+ agnx_write32(ctl, AGNX_TXM_CW0, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW1, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW2, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW3, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW4, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW5, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW6, 0xff0007);
+ agnx_write32(ctl, AGNX_TXM_CW7, 0xff0007);
+
+ /* # Set Short/Long limit #(0-7) to default */
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM0, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM1, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM2, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM3, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM4, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM5, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM6, 0xa000a);
+ agnx_write32(ctl, AGNX_TXM_SLBEALIM7, 0xa000a);
+
+ reg = agnx_read32(ctl, AGNX_TXM_CTL);
+ reg |= 0x1400;
+ agnx_write32(ctl, AGNX_TXM_CTL, reg);
+ /* Wait for bit 0 in Control Reg to clear */
+ udelay(80);
+ reg = agnx_read32(ctl, AGNX_TXM_CTL);
+ /* Or 0x18000 to Control reg */
+ reg = agnx_read32(ctl, AGNX_TXM_CTL);
+ reg |= 0x18000;
+ agnx_write32(ctl, AGNX_TXM_CTL, reg);
+ /* Wait for bit 0 in Control Reg to clear */
+ udelay(80);
+ reg = agnx_read32(ctl, AGNX_TXM_CTL);
+
+ /* Set Listen Interval Count to default */
+ agnx_write32(ctl, AGNX_TXM_LISINTERCNT, 0x1);
+ /* Set DTIM period count to default */
+ agnx_write32(ctl, AGNX_TXM_DTIMPERICNT, 0x2000);
+} /* tx_management_init */
+
+static void rx_management_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ AGNX_TRACE;
+
+ /* Initialize the Routing Table */
+ routing_table_init(priv);
+
+ if (priv->revid >= 3) {
+ agnx_write32(ctl, 0x2074, 0x1f171710);
+ agnx_write32(ctl, 0x2078, 0x10100d0d);
+ agnx_write32(ctl, 0x207c, 0x11111010);
+ }
+ else
+ agnx_write32(ctl, AGNX_RXM_DELAY11, 0x0);
+ agnx_write32(ctl, AGNX_RXM_REQRATE, 0x8195e00);
+}
+
+
+static void agnx_timer_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ AGNX_TRACE;
+
+/* /\* Write 0x249f00 (tick duration?) to Timer 1 *\/ */
+/* agnx_write32(ctl, AGNX_TIMCTL_TIMER1, 0x249f00); */
+/* /\* Write 0xe2 to Timer 1 Control *\/ */
+/* agnx_write32(ctl, AGNX_TIMCTL_TIM1CTL, 0xe2); */
+
+ /* Write 0x249f00 (tick duration?) to Timer 1 */
+ agnx_write32(ctl, AGNX_TIMCTL_TIMER1, 0x0);
+ /* Write 0xe2 to Timer 1 Control */
+ agnx_write32(ctl, AGNX_TIMCTL_TIM1CTL, 0x0);
+
+ iowrite32(0xFFFFFFFF, priv->ctl + AGNX_TXM_BEACON_CTL);
+}
+
+static void power_manage_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ agnx_write32(ctl, AGNX_PM_MACMSW, 0x1f);
+ agnx_write32(ctl, AGNX_PM_RFCTL, 0x1f);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg &= 0xf00f;
+ reg |= 0xa0;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+
+ if (priv->revid >= 3) {
+ reg = agnx_read32(ctl, AGNX_PM_SOFTRST);
+ reg |= 0x18;
+ agnx_write32(ctl, AGNX_PM_SOFTRST, reg);
+ }
+} /* power_manage_init */
+
+
+static void gain_ctlcnt_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ agnx_write32(ctl, AGNX_GCR_TRACNT5, 0x119);
+ agnx_write32(ctl, AGNX_GCR_TRACNT6, 0x118);
+ agnx_write32(ctl, AGNX_GCR_TRACNT7, 0x117);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg &= ~0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+
+ agnx_write32(ctl, AGNX_CIR_ADDRWIN, 0x0);
+
+ /* FIXME Write the initial Station Descriptor for the card */
+ sta_init(priv, LOCAL_STAID);
+ sta_init(priv, BSSID_STAID);
+
+ /* Enable staion 0 and 1 can do TX */
+ /* It seemed if we set other bit to 1 the bit 0 will
+ be auto change to 0 */
+ agnx_write32(ctl, AGNX_BM_TXTOPEER, 0x2 | 0x1);
+// agnx_write32(ctl, AGNX_BM_TXTOPEER, 0x1);
+} /* gain_ctlcnt_init */
+
+
+static void phy_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ void __iomem *data = priv->data;
+ u32 reg;
+ AGNX_TRACE;
+
+ /* Load InitialGainTable */
+ gain_table_init(priv);
+
+ agnx_write32(ctl, AGNX_CIR_ADDRWIN, 0x2000000);
+
+ /* Clear the following offsets in Memory Range #2: */
+ memset_io(data + 0x5040, 0, 0xa * 4);
+ memset_io(data + 0x5080, 0, 0xa * 4);
+ memset_io(data + 0x50c0, 0, 0xa * 4);
+ memset_io(data + 0x5400, 0, 0x80 * 4);
+ memset_io(data + 0x6000, 0, 0x280 * 4);
+ memset_io(data + 0x7000, 0, 0x280 * 4);
+ memset_io(data + 0x8000, 0, 0x280 * 4);
+
+ /* Initialize the Following Registers According to PCI Revision ID */
+ if (priv->revid == 0) {
+ /* fixme the part hasn't been update but below has been update
+ based on WGM511 */
+ agnx_write32(ctl, AGNX_ACI_LEN, 0xf);
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x1d);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x3);
+ agnx_write32(ctl, AGNX_ACI_AICCHA0OVE, 0x11);
+ agnx_write32(ctl, AGNX_ACI_AICCHA1OVE, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THD0A, 0x64);
+ agnx_write32(ctl, AGNX_GCR_THD0AL, 0x4b);
+ agnx_write32(ctl, AGNX_GCR_THD0B, 0x4b);
+ agnx_write32(ctl, AGNX_GCR_DUNSAT, 0x14);
+ agnx_write32(ctl, AGNX_GCR_DSAT, 0x24);
+ agnx_write32(ctl, AGNX_GCR_DFIRCAL, 0x8);
+ agnx_write32(ctl, AGNX_GCR_DGCTL11A, 0x1a);
+ agnx_write32(ctl, AGNX_GCR_DGCTL11B, 0x3);
+ agnx_write32(ctl, AGNX_GCR_GAININIT, 0xd);
+ agnx_write32(ctl, AGNX_GCR_THNOSIG, 0x1);
+ agnx_write32(ctl, AGNX_GCR_COARSTEP, 0x7);
+ agnx_write32(ctl, AGNX_GCR_SIFST11A, 0x28);
+ agnx_write32(ctl, AGNX_GCR_SIFST11B, 0x28);
+ reg = agnx_read32(ctl, AGNX_GCR_CWDETEC);
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_GCR_CWDETEC, reg);
+ agnx_write32(ctl, AGNX_GCR_0X38, 0x1e);
+ agnx_write32(ctl, AGNX_GCR_BOACT, 0x26);
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NLISTANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NACTIANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NMEASANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NCAPTANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_THCAP11A, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THCAP11B, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THCAPRX11A, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THCAPRX11B, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THLEVDRO, 0x10);
+ agnx_write32(ctl, AGNX_GCR_MAXRXTIME11A, 0x1);
+ agnx_write32(ctl, AGNX_GCR_MAXRXTIME11B, 0x1);
+ agnx_write32(ctl, AGNX_GCR_CORRTIME, 0x190);
+ agnx_write32(ctl, AGNX_GCR_SIGHTH, 0x78);
+ agnx_write32(ctl, AGNX_GCR_SIGLTH, 0x1c);
+ agnx_write32(ctl, AGNX_GCR_CORRDROP, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THCD, 0x0);
+ agnx_write32(ctl, AGNX_GCR_MAXPOWDIFF, 0x1);
+ agnx_write32(ctl, AGNX_GCR_TESTBUS, 0x0);
+ agnx_write32(ctl, AGNX_GCR_ANTCFG, 0x1f);
+ agnx_write32(ctl, AGNX_GCR_THJUMP, 0x14);
+ agnx_write32(ctl, AGNX_GCR_THPOWER, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THPOWCLIP, 0x30);
+ agnx_write32(ctl, AGNX_GCR_THD0BTFEST, 0x32);
+ agnx_write32(ctl, AGNX_GCR_THRX11BPOWMIN, 0x19);
+ agnx_write32(ctl, AGNX_GCR_0X14c, 0x0);
+ agnx_write32(ctl, AGNX_GCR_0X150, 0x0);
+ agnx_write32(ctl, 0x9400, 0x0);
+ agnx_write32(ctl, 0x940c, 0x6ff);
+ agnx_write32(ctl, 0x9428, 0xa0);
+ agnx_write32(ctl, 0x9434, 0x0);
+ agnx_write32(ctl, 0x9c04, 0x15);
+ agnx_write32(ctl, 0x9c0c, 0x7f);
+ agnx_write32(ctl, 0x9c34, 0x0);
+ agnx_write32(ctl, 0xc000, 0x38d);
+ agnx_write32(ctl, 0x14018, 0x0);
+ agnx_write32(ctl, 0x16000, 0x1);
+ agnx_write32(ctl, 0x11004, 0x0);
+ agnx_write32(ctl, 0xec54, 0xa);
+ agnx_write32(ctl, 0xec1c, 0x5);
+ } else if (priv->revid > 0) {
+ agnx_write32(ctl, AGNX_ACI_LEN, 0xf);
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x21);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x27);
+ agnx_write32(ctl, AGNX_ACI_AICCHA0OVE, 0x11);
+ agnx_write32(ctl, AGNX_ACI_AICCHA1OVE, 0x0);
+ agnx_write32(ctl, AGNX_GCR_DUNSAT, 0x14);
+ agnx_write32(ctl, AGNX_GCR_DSAT, 0x24);
+ agnx_write32(ctl, AGNX_GCR_DFIRCAL, 0x8);
+ agnx_write32(ctl, AGNX_GCR_DGCTL11A, 0x1a);
+ agnx_write32(ctl, AGNX_GCR_DGCTL11B, 0x3);
+ agnx_write32(ctl, AGNX_GCR_GAININIT, 0xd);
+ agnx_write32(ctl, AGNX_GCR_THNOSIG, 0x1);
+ agnx_write32(ctl, AGNX_GCR_COARSTEP, 0x7);
+ agnx_write32(ctl, AGNX_GCR_SIFST11A, 0x28);
+ agnx_write32(ctl, AGNX_GCR_SIFST11B, 0x28);
+ agnx_write32(ctl, AGNX_GCR_CWDETEC, 0x0);
+ agnx_write32(ctl, AGNX_GCR_0X38, 0x1e);
+// agnx_write32(ctl, AGNX_GCR_BOACT, 0x26);
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x3);
+
+ agnx_write32(ctl, AGNX_GCR_THCAP11A, 0x32);
+ agnx_write32(ctl, AGNX_GCR_THCAP11B, 0x32);
+ agnx_write32(ctl, AGNX_GCR_THCAPRX11A, 0x32);
+ agnx_write32(ctl, AGNX_GCR_THCAPRX11B, 0x32);
+ agnx_write32(ctl, AGNX_GCR_THLEVDRO, 0x10);
+ agnx_write32(ctl, AGNX_GCR_MAXRXTIME11A, 0x1ad);
+ agnx_write32(ctl, AGNX_GCR_MAXRXTIME11B, 0xa10);
+ agnx_write32(ctl, AGNX_GCR_CORRTIME, 0x190);
+ agnx_write32(ctl, AGNX_GCR_CORRDROP, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THCD, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THCS, 0x0);
+ agnx_write32(ctl, AGNX_GCR_MAXPOWDIFF, 0x4);
+ agnx_write32(ctl, AGNX_GCR_TESTBUS, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THJUMP, 0x1e);
+ agnx_write32(ctl, AGNX_GCR_THPOWER, 0x0);
+ agnx_write32(ctl, AGNX_GCR_THPOWCLIP, 0x2a);
+ agnx_write32(ctl, AGNX_GCR_THD0BTFEST, 0x3c);
+ agnx_write32(ctl, AGNX_GCR_THRX11BPOWMIN, 0x19);
+ agnx_write32(ctl, AGNX_GCR_0X14c, 0x0);
+ agnx_write32(ctl, AGNX_GCR_0X150, 0x0);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+ agnx_write32(ctl, AGNX_GCR_WATCHDOG, 0x37);
+ agnx_write32(ctl, 0x9400, 0x0);
+ agnx_write32(ctl, 0x940c, 0x6ff);
+ agnx_write32(ctl, 0x9428, 0xa0);
+ agnx_write32(ctl, 0x9434, 0x0);
+ agnx_write32(ctl, 0x9c04, 0x15);
+ agnx_write32(ctl, 0x9c0c, 0x7f);
+ agnx_write32(ctl, 0x9c34, 0x0);
+ agnx_write32(ctl, 0xc000, 0x38d);
+ agnx_write32(ctl, 0x14014, 0x1000);
+ agnx_write32(ctl, 0x14018, 0x0);
+ agnx_write32(ctl, 0x16000, 0x1);
+ agnx_write32(ctl, 0x11004, 0x0);
+ agnx_write32(ctl, 0xec54, 0xa);
+ agnx_write32(ctl, 0xec1c, 0x50);
+ } else if (priv->revid > 1) {
+ reg = agnx_read32(ctl, 0xec18);
+ reg |= 0x8;
+ agnx_write32(ctl, 0xec18, reg);
+ }
+
+ /* Write the TX Fir Coefficient Table */
+ tx_fir_table_init(priv);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg &= ~0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+ reg = agnx_read32(ctl, AGNX_PM_PLLCTL);
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_PM_PLLCTL, reg);
+
+/* reg = agnx_read32(ctl, 0x1a030); */
+/* reg &= ~0x4; */
+/* agnx_write32(ctl, 0x1a030, reg); */
+
+ agnx_write32(ctl, AGNX_GCR_TRACNT4, 0x113);
+} /* phy_init */
+
+static void chip_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ band_management_init(priv);
+
+ rf_chips_init(priv);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+
+ /* Initialize the PHY */
+ phy_init(priv);
+
+ encryption_init(priv);
+
+ tx_management_init(priv);
+
+ rx_management_init(priv);
+
+ power_manage_init(priv);
+
+ /* Initialize the Timers */
+ agnx_timer_init(priv);
+
+ /* Write 0xc390bf9 to Interrupt Mask (Disable TX) */
+ reg = 0xc390bf9 & ~IRQ_TX_BEACON;
+ reg &= ~IRQ_TX_DISABLE;
+ agnx_write32(ctl, AGNX_INT_MASK, reg);
+
+ reg = agnx_read32(ctl, AGNX_CIR_BLKCTL);
+ reg |= 0x800;
+ agnx_write32(ctl, AGNX_CIR_BLKCTL, reg);
+
+ /* set it when need get multicast enable? */
+ agnx_write32(ctl, AGNX_BM_MTSM, 0xff);
+} /* chip_init */
+
+
+static inline void set_promis_and_managed(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x10 | 0x2);
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x10 | 0x2);
+}
+static inline void set_learn_mode(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x8);
+}
+static inline void set_scan_mode(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x20);
+}
+static inline void set_promiscuous_mode(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ /* agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x210);*/
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x10);
+}
+static inline void set_managed_mode(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x2);
+}
+static inline void set_adhoc_mode(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, 0x0);
+}
+
+static void unknow_register_write(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x0, 0x3e);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x4, 0xb2);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x8, 0x140);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0xc, 0x1C0);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x10, 0x1FF);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x14, 0x1DD);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x18, 0x15F);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x1c, 0xA1);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x20, 0x3E7);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x24, 0x36B);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x28, 0x348);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x2c, 0x37D);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x30, 0x3DE);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x34, 0x36);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x38, 0x64);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x3c, 0x57);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x40, 0x23);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x44, 0x3ED);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x48, 0x3C9);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x4c, 0x3CA);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x50, 0x3E7);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x54, 0x8);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x58, 0x1F);
+ agnx_write32(ctl, AGNX_UNKNOWN_BASE + 0x5c, 0x1a);
+}
+
+static void card_interface_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u8 bssid[ETH_ALEN] = {0xff, 0xff, 0xff, 0xff, 0xff, 0xff};
+ u32 reg;
+ unsigned int i;
+ AGNX_TRACE;
+
+ might_sleep();
+ /* Clear RX Control and Enable RX queues */
+ agnx_write32(ctl, AGNX_CIR_RXCTL, 0x8);
+
+ might_sleep();
+ /* Do a full reset of the card */
+ card_full_reset(priv);
+ might_sleep();
+
+ /* Check and set Card Endianness */
+ reg = ioread32(priv->ctl + AGNX_CIR_ENDIAN);
+ /* TODO If not 0xB3B2B1B0 set to 0xB3B2B1B0 */
+ printk(KERN_INFO PFX "CIR_ENDIAN is %x\n", reg);
+
+
+ /* Config the eeprom */
+ agnx_write32(ctl, AGNX_CIR_SERIALITF, 0x7000086);
+ udelay(10);
+ reg = agnx_read32(ctl, AGNX_CIR_SERIALITF);
+
+
+ agnx_write32(ctl, AGNX_PM_SOFTRST, 0x80000033);
+ reg = agnx_read32(ctl, 0xec50);
+ reg |= 0xf;
+ agnx_write32(ctl, 0xec50, reg);
+ agnx_write32(ctl, AGNX_PM_SOFTRST, 0x0);
+
+
+ reg = agnx_read32(ctl, AGNX_SYSITF_GPIOIN);
+ udelay(10);
+ reg = agnx_read32(ctl, AGNX_CIR_SERIALITF);
+
+ /* Dump the eeprom */
+ do {
+ char eeprom[0x100000/0x100];
+
+ for (i = 0; i < 0x100000; i += 0x100) {
+ agnx_write32(ctl, AGNX_CIR_SERIALITF, 0x3000000 + i);
+ udelay(13);
+ reg = agnx_read32(ctl, AGNX_CIR_SERIALITF);
+ udelay(70);
+ reg = agnx_read32(ctl, AGNX_CIR_SERIALITF);
+ eeprom[i/0x100] = reg & 0xFF;
+ udelay(10);
+ }
+ print_hex_dump_bytes(PFX "EEPROM: ", DUMP_PREFIX_NONE, eeprom,
+ ARRAY_SIZE(eeprom));
+ } while(0);
+
+ spi_rc_write(ctl, RF_CHIP0, 0x26);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+
+ /* Initialize the system interface */
+ system_itf_init(priv);
+
+ might_sleep();
+ /* Chip Initialization (Polaris) */
+ chip_init(priv);
+ might_sleep();
+
+ /* Calibrate the antennae */
+ antenna_calibrate(priv);
+
+ reg = agnx_read32(ctl, 0xec50);
+ reg &= ~0x40;
+ agnx_write32(ctl, 0xec50, reg);
+ agnx_write32(ctl, AGNX_PM_SOFTRST, 0x0);
+ agnx_write32(ctl, AGNX_PM_PLLCTL, 0x1);
+
+ reg = agnx_read32(ctl, AGNX_BM_BMCTL);
+ reg |= 0x8000;
+ agnx_write32(ctl, AGNX_BM_BMCTL, reg);
+ enable_receiver(priv);
+ reg = agnx_read32(ctl, AGNX_SYSITF_SYSMODE);
+ reg |= 0x200;
+ agnx_write32(ctl, AGNX_SYSITF_SYSMODE, reg);
+ enable_receiver(priv);
+
+ might_sleep();
+ /* Initialize Gain Control Counts */
+ gain_ctlcnt_init(priv);
+
+ /* Write Initial Station Power Template for this station(#0) */
+ sta_power_init(priv, LOCAL_STAID);
+
+ might_sleep();
+ /* Initialize the rx,td,tm rings, for each node in the ring */
+ fill_rings(priv);
+
+ might_sleep();
+
+
+ agnx_write32(ctl, AGNX_PM_SOFTRST, 0x80000033);
+ agnx_write32(ctl, 0xec50, 0xc);
+ agnx_write32(ctl, AGNX_PM_SOFTRST, 0x0);
+
+ /* FIXME Initialize the transmit control register */
+ agnx_write32(ctl, AGNX_TXM_CTL, 0x194c1);
+
+ enable_receiver(priv);
+
+ might_sleep();
+ /* FIXME Set the Receive Control Mac Address to card address */
+ mac_address_set(priv);
+ enable_receiver(priv);
+ might_sleep();
+
+ /* Set the recieve request rate */
+ /* FIXME Enable the request */
+ /* Check packet length */
+ /* Set maximum packet length */
+/* agnx_write32(ctl, AGNX_RXM_REQRATE, 0x88195e00); */
+/* enable_receiver(priv); */
+
+ /* Set the Receiver BSSID */
+ receiver_bssid_set(priv, bssid);
+
+ /* FIXME Set to managed mode */
+ set_managed_mode(priv);
+// set_promiscuous_mode(priv);
+/* set_scan_mode(priv); */
+/* set_learn_mode(priv); */
+// set_promis_and_managed(priv);
+// set_adhoc_mode(priv);
+
+ /* Set the recieve request rate */
+ /* Check packet length */
+ agnx_write32(ctl, AGNX_RXM_REQRATE, 0x08000000);
+ reg = agnx_read32(ctl, AGNX_RXM_REQRATE);
+ /* Set maximum packet length */
+ reg |= 0x00195e00;
+ agnx_write32(ctl, AGNX_RXM_REQRATE, reg);
+
+ /* Configure the RX and TX interrupt */
+ reg = ENABLE_RX_INTERRUPT | RX_CACHE_LINE | FRAG_LEN_2048 | FRAG_BE;
+ agnx_write32(ctl, AGNX_CIR_RXCFG, reg);
+ /* FIXME */
+ reg = ENABLE_TX_INTERRUPT | TX_CACHE_LINE | FRAG_LEN_2048 | FRAG_BE;
+ agnx_write32(ctl, AGNX_CIR_TXCFG, reg);
+
+ /* Enable RX TX Interrupts */
+ agnx_write32(ctl, AGNX_CIR_RXCTL, 0x80);
+ agnx_write32(ctl, AGNX_CIR_TXMCTL, 0x80);
+ agnx_write32(ctl, AGNX_CIR_TXDCTL, 0x80);
+
+ /* FIXME Set the master control interrupt in block control */
+ agnx_write32(ctl, AGNX_CIR_BLKCTL, 0x800);
+
+ /* Enable RX and TX queues */
+ reg = agnx_read32(ctl, AGNX_CIR_RXCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_CIR_RXCTL, reg);
+ reg = agnx_read32(ctl, AGNX_CIR_TXMCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_CIR_TXMCTL, reg);
+ reg = agnx_read32(ctl, AGNX_CIR_TXDCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_CIR_TXDCTL, reg);
+
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, 0x5);
+ /* FIXME */
+ /* unknow_register_write(priv); */
+ /* Update local card hash entry */
+ hash_write(priv, priv->mac_addr, LOCAL_STAID);
+
+ might_sleep();
+
+ /* FIXME */
+ agnx_set_channel(priv, 1);
+ might_sleep();
+} /* agnx_card_interface_init */
+
+
+void agnx_hw_init(struct agnx_priv *priv)
+{
+ AGNX_TRACE;
+ might_sleep();
+ card_interface_init(priv);
+}
+
+int agnx_hw_reset(struct agnx_priv *priv)
+{
+ return card_full_reset(priv);
+}
+
+int agnx_set_ssid(struct agnx_priv *priv, u8 *ssid, size_t ssid_len)
+{
+ AGNX_TRACE;
+ return 0;
+}
+
+void agnx_set_bssid(struct agnx_priv *priv, u8 *bssid)
+{
+ receiver_bssid_set(priv, bssid);
+}
diff --git a/drivers/staging/agnx/phy.h b/drivers/staging/agnx/phy.h
new file mode 100644
index 0000000..55e1e22
--- /dev/null
+++ b/drivers/staging/agnx/phy.h
@@ -0,0 +1,409 @@
+#ifndef AGNX_PHY_H_
+#define AGNX_PHY_H_
+
+#include "agnx.h"
+
+/* Transmission Managment Registers */
+#define AGNX_TXM_BASE 0x0000
+#define AGNX_TXM_CTL 0x0000 /* control register */
+#define AGNX_TXM_ETMF 0x0004 /* enable transmission management functions */
+#define AGNX_TXM_TXTEMP 0x0008 /* transmission template */
+#define AGNX_TXM_RETRYSTAID 0x000c /* Retry Station ID */
+#define AGNX_TXM_TIMESTAMPLO 0x0010 /* Timestamp Lo */
+#define AGNX_TXM_TIMESTAMPHI 0x0014 /* Timestamp Hi */
+#define AGNX_TXM_TXDELAY 0x0018 /* tx delay */
+#define AGNX_TXM_TBTTLO 0x0020 /* tbtt Lo */
+#define AGNX_TXM_TBTTHI 0x0024 /* tbtt Hi */
+#define AGNX_TXM_BEAINTER 0x0028 /* Beacon Interval */
+#define AGNX_TXM_NAV 0x0030 /* NAV */
+#define AGNX_TXM_CFPMDV 0x0034 /* CFP MDV */
+#define AGNX_TXM_CFPERCNT 0x0038 /* CFP period count */
+#define AGNX_TXM_PROBDELAY 0x003c /* probe delay */
+#define AGNX_TXM_LISINTERCNT 0x0040 /* listen interval count */
+#define AGNX_TXM_DTIMPERICNT 0x004c /* DTIM period count */
+
+#define AGNX_TXM_BEACON_CTL 0x005c /* beacon control */
+
+#define AGNX_TXM_SCHEMPCNT 0x007c /* schedule empty count */
+#define AGNX_TXM_MAXTIMOUT 0x0084 /* max timeout exceed count */
+#define AGNX_TXM_MAXCFPTIM 0x0088 /* max CF poll timeout count */
+#define AGNX_TXM_MAXRXTIME 0x008c /* max RX timeout count */
+#define AGNX_TXM_MAXACKTIM 0x0090 /* max ACK timeout count */
+#define AGNX_TXM_DIF01 0x00a0 /* DIF 0-1 */
+#define AGNX_TXM_DIF23 0x00a4 /* DIF 2-3 */
+#define AGNX_TXM_DIF45 0x00a8 /* DIF 4-5 */
+#define AGNX_TXM_DIF67 0x00ac /* DIF 6-7 */
+#define AGNX_TXM_SIFSPIFS 0x00b0 /* SIFS/PIFS */
+#define AGNX_TXM_TIFSEIFS 0x00b4 /* TIFS/EIFS */
+#define AGNX_TXM_MAXCCACNTSLOT 0x00b8 /* max CCA count slot */
+#define AGNX_TXM_SLOTLIMIT 0x00bc /* slot limit/1 msec limit */
+#define AGNX_TXM_CFPOLLRXTIM 0x00f0 /* CF poll RX timeout count */
+#define AGNX_TXM_CFACKT11B 0x00f4 /* CF ack timeout limit for 11b */
+#define AGNX_TXM_CW0 0x0100 /* CW 0 */
+#define AGNX_TXM_SLBEALIM0 0x0108 /* short/long beacon limit 0 */
+#define AGNX_TXM_CW1 0x0120 /* CW 1 */
+#define AGNX_TXM_SLBEALIM1 0x0128 /* short/long beacon limit 1 */
+#define AGNX_TXM_CW2 0x0140 /* CW 2 */
+#define AGNX_TXM_SLBEALIM2 0x0148 /* short/long beacon limit 2 */
+#define AGNX_TXM_CW3 0x0160 /* CW 3 */
+#define AGNX_TXM_SLBEALIM3 0x0168 /* short/long beacon limit 3 */
+#define AGNX_TXM_CW4 0x0180 /* CW 4 */
+#define AGNX_TXM_SLBEALIM4 0x0188 /* short/long beacon limit 4 */
+#define AGNX_TXM_CW5 0x01a0 /* CW 5 */
+#define AGNX_TXM_SLBEALIM5 0x01a8 /* short/long beacon limit 5 */
+#define AGNX_TXM_CW6 0x01c0 /* CW 6 */
+#define AGNX_TXM_SLBEALIM6 0x01c8 /* short/long beacon limit 6 */
+#define AGNX_TXM_CW7 0x01e0 /* CW 7 */
+#define AGNX_TXM_SLBEALIM7 0x01e8 /* short/long beacon limit 7 */
+#define AGNX_TXM_BEACONTEMP 0x1000 /* beacon template */
+#define AGNX_TXM_STAPOWTEMP 0x1a00 /* Station Power Template */
+
+/* Receive Management Control Registers */
+#define AGNX_RXM_BASE 0x2000
+#define AGNX_RXM_REQRATE 0x2000 /* requested rate */
+#define AGNX_RXM_MACHI 0x2004 /* first 4 bytes of mac address */
+#define AGNX_RXM_MACLO 0x2008 /* last 2 bytes of mac address */
+#define AGNX_RXM_BSSIDHI 0x200c /* bssid hi */
+#define AGNX_RXM_BSSIDLO 0x2010 /* bssid lo */
+#define AGNX_RXM_HASH_CMD_FLAG 0x2014 /* Flags for the RX Hash Command Default:0 */
+#define AGNX_RXM_HASH_CMD_HIGH 0x2018 /* The High half of the Hash Command */
+#define AGNX_RXM_HASH_CMD_LOW 0x201c /* The Low half of the Hash Command */
+#define AGNX_RXM_ROUTAB 0x2020 /* routing table */
+#define ROUTAB_SUBTYPE_SHIFT 24
+#define ROUTAB_TYPE_SHIFT 28
+#define ROUTAB_STATUS_SHIFT 30
+#define ROUTAB_RW_SHIFT 31
+#define ROUTAB_ROUTE_DROP 0xf00000 /* Drop */
+#define ROUTAB_ROUTE_CPU 0x400000 /* CPU */
+#define ROUTAB_ROUTE_ENCRY 0x500800 /* Encryption */
+#define ROUTAB_ROUTE_RFP 0x800000 /* RFP */
+
+#define ROUTAB_TYPE_MANAG 0x0 /* Management */
+#define ROUTAB_TYPE_CTL 0x1 /* Control */
+#define ROUTAB_TYPE_DATA 0x2 /* Data */
+
+#define ROUTAB_SUBTYPE_DATA 0x0
+#define ROUTAB_SUBTYPE_DATAACK 0x1
+#define ROUTAB_SUBTYPE_DATAPOLL 0x2
+#define ROUTAB_SUBTYPE_DATAPOLLACK 0x3
+#define ROUTAB_SUBTYPE_NULL 0x4 /* NULL */
+#define ROUTAB_SUBTYPE_NULLACK 0x5
+#define ROUTAB_SUBTYPE_NULLPOLL 0x6
+#define ROUTAB_SUBTYPE_NULLPOLLACK 0x7
+#define ROUTAB_SUBTYPE_QOSDATA 0x8 /* QOS DATA */
+#define ROUTAB_SUBTYPE_QOSDATAACK 0x9
+#define ROUTAB_SUBTYPE_QOSDATAPOLL 0xa
+#define ROUTAB_SUBTYPE_QOSDATAACKPOLL 0xb
+#define ROUTAB_SUBTYPE_QOSNULL 0xc
+#define ROUTAB_SUBTYPE_QOSNULLACK 0xd
+#define ROUTAB_SUBTYPE_QOSNULLPOLL 0xe
+#define ROUTAB_SUBTYPE_QOSNULLPOLLACK 0xf
+#define AGNX_RXM_DELAY11 0x2024 /* delay 11(AB) */
+#define AGNX_RXM_SOF_CNT 0x2028 /* SOF Count */
+#define AGNX_RXM_FRAG_CNT 0x202c /* Fragment Count*/
+#define AGNX_RXM_FCS_CNT 0x2030 /* FCS Count */
+#define AGNX_RXM_BSSID_MISS_CNT 0x2034 /* BSSID Miss Count */
+#define AGNX_RXM_PDU_ERR_CNT 0x2038 /* PDU Error Count */
+#define AGNX_RXM_DEST_MISS_CNT 0x203C /* Destination Miss Count */
+#define AGNX_RXM_DROP_CNT 0x2040 /* Drop Count */
+#define AGNX_RXM_ABORT_CNT 0x2044 /* Abort Count */
+#define AGNX_RXM_RELAY_CNT 0x2048 /* Relay Count */
+#define AGNX_RXM_HASH_MISS_CNT 0x204c /* Hash Miss Count */
+#define AGNX_RXM_SA_HI 0x2050 /* Address of received packet Hi */
+#define AGNX_RXM_SA_LO 0x2054 /* Address of received packet Lo */
+#define AGNX_RXM_HASH_DUMP_LST 0x2100 /* Contains Hash Data */
+#define AGNX_RXM_HASH_DUMP_MST 0x2104 /* Contains Hash Data */
+#define AGNX_RXM_HASH_DUMP_DATA 0x2108 /* The Station ID to dump */
+
+
+/* Encryption Managment */
+#define AGNX_ENCRY_BASE 0x2400
+#define AGNX_ENCRY_WEPKEY0 0x2440 /* wep key #0 */
+#define AGNX_ENCRY_WEPKEY1 0x2444 /* wep key #1 */
+#define AGNX_ENCRY_WEPKEY2 0x2448 /* wep key #2 */
+#define AGNX_ENCRY_WEPKEY3 0x244c /* wep key #3 */
+#define AGNX_ENCRY_CCMRECTL 0x2460 /* ccm replay control */
+
+
+/* Band Management Registers */
+#define AGNX_BM_BASE 0x2c00
+#define AGNX_BM_BMCTL 0x2c00 /* band management control */
+#define AGNX_BM_TXWADDR 0x2c18 /* tx workqueue address start */
+#define AGNX_BM_TXTOPEER 0x2c24 /* transmit to peers */
+#define AGNX_BM_FPLHP 0x2c2c /* free pool list head pointer */
+#define AGNX_BM_FPLTP 0x2c30 /* free pool list tail pointer */
+#define AGNX_BM_FPCNT 0x2c34 /* free pool count */
+#define AGNX_BM_CIPDUWCNT 0x2c38 /* card interface pdu workqueue count */
+#define AGNX_BM_SPPDUWCNT 0x2c3c /* sp pdu workqueue count */
+#define AGNX_BM_RFPPDUWCNT 0x2c40 /* rfp pdu workqueue count */
+#define AGNX_BM_RHPPDUWCNT 0x2c44 /* rhp pdu workqueue count */
+#define AGNX_BM_CIWQCTL 0x2c48 /* Card Interface WorkQueue Control */
+#define AGNX_BM_CPUTXWCTL 0x2c50 /* cpu tx workqueue control */
+#define AGNX_BM_CPURXWCTL 0x2c58 /* cpu rx workqueue control */
+#define AGNX_BM_CPULWCTL 0x2c60 /* cpu low workqueue control */
+#define AGNX_BM_CPUHWCTL 0x2c68 /* cpu high workqueue control */
+#define AGNX_BM_SPTXWCTL 0x2c70 /* sp tx workqueue control */
+#define AGNX_BM_SPRXWCTL 0x2c78 /* sp rx workqueue control */
+#define AGNX_BM_RFPWCTL 0x2c80 /* RFP workqueue control */
+#define AGNX_BM_MTSM 0x2c90 /* Multicast Transmit Station Mask */
+
+/* Card Interface Registers (32bits) */
+#define AGNX_CIR_BASE 0x3000
+#define AGNX_CIR_BLKCTL 0x3000 /* block control*/
+#define AGNX_STAT_TX 0x1
+#define AGNX_STAT_RX 0x2
+#define AGNX_STAT_X 0x4
+/* Below two interrupt flags will be set by our but not CPU or the card */
+#define AGNX_STAT_TXD 0x10
+#define AGNX_STAT_TXM 0x20
+
+#define AGNX_CIR_ADDRWIN 0x3004 /* Addressable Windows*/
+#define AGNX_CIR_ENDIAN 0x3008 /* card endianness */
+#define AGNX_CIR_SERIALITF 0x3020 /* serial interface */
+#define AGNX_CIR_RXCFG 0x3040 /* receive config */
+#define ENABLE_RX_INTERRUPT 0x20
+#define RX_CACHE_LINE 0x8
+/* the RX fragment length */
+#define FRAG_LEN_256 0x0 /* 256B */
+#define FRAG_LEN_512 0x1
+#define FRAG_LEN_1024 0x2
+#define FRAG_LEN_2048 0x3
+#define FRAG_BE 0x10
+#define AGNX_CIR_RXCTL 0x3050 /* receive control */
+/* memory address, chipside */
+#define AGNX_CIR_RXCMSTART 0x3054 /* receive client memory start */
+#define AGNX_CIR_RXCMEND 0x3058 /* receive client memory end */
+/* memory address, pci */
+#define AGNX_CIR_RXHOSTADDR 0x3060 /* receive hostside address */
+/* memory address, chipside */
+#define AGNX_CIR_RXCLIADDR 0x3064 /* receive clientside address */
+#define AGNX_CIR_RXDMACTL 0x3068 /* receive dma control */
+#define AGNX_CIR_TXCFG 0x3080 /* transmit config */
+#define AGNX_CIR_TXMCTL 0x3090 /* Transmit Management Control */
+#define ENABLE_TX_INTERRUPT 0x20
+#define TX_CACHE_LINE 0x8
+#define AGNX_CIR_TXMSTART 0x3094 /* Transmit Management Start */
+#define AGNX_CIR_TXMEND 0x3098 /* Transmit Management End */
+#define AGNX_CIR_TXDCTL 0x30a0 /* transmit data control */
+/* memeory address, chipset */
+#define AGNX_CIR_TXDSTART 0x30a4 /* transmit data start */
+#define AGNX_CIR_TXDEND 0x30a8 /* transmit data end */
+#define AGNX_CIR_TXMHADDR 0x30b0 /* Transmit Management Hostside Address */
+#define AGNX_CIR_TXMCADDR 0x30b4 /* Transmit Management Clientside Address */
+#define AGNX_CIR_TXDMACTL 0x30b8 /* transmit dma control */
+
+
+/* Power Managment Unit */
+#define AGNX_PM_BASE 0x3c00
+#define AGNX_PM_PMCTL 0x3c00 /* PM Control*/
+#define AGNX_PM_MACMSW 0x3c08 /* MAC Manual Slow Work Enable */
+#define AGNX_PM_RFCTL 0x3c0c /* RF Control */
+#define AGNX_PM_PHYMW 0x3c14 /* Phy Mannal Work */
+#define AGNX_PM_SOFTRST 0x3c18 /* PMU Soft Reset */
+#define AGNX_PM_PLLCTL 0x3c1c /* PMU PLL control*/
+#define AGNX_PM_TESTPHY 0x3c24 /* PMU Test Phy */
+
+
+/* Interrupt Control interface */
+#define AGNX_INT_BASE 0x4000
+#define AGNX_INT_STAT 0x4000 /* interrupt status */
+#define AGNX_INT_MASK 0x400c /* interrupt mask */
+/* FIXME */
+#define IRQ_TX_BEACON 0x1 /* TX Beacon */
+#define IRQ_TX_RETRY 0x8 /* TX Retry Interrupt */
+#define IRQ_TX_ACTIVITY 0x10 /* TX Activity */
+#define IRQ_RX_ACTIVITY 0x20 /* RX Activity */
+/* FIXME I guess that instead RX a none exist staion's packet or
+ the station hasn't been init */
+#define IRQ_RX_X 0x40
+#define IRQ_RX_Y 0x80 /* RX ? */
+#define IRQ_RX_HASHHIT 0x100 /* RX Hash Hit */
+#define IRQ_RX_FRAME 0x200 /* RX Frame */
+#define IRQ_ERR_INT 0x400 /* Error Interrupt */
+#define IRQ_TX_QUE_FULL 0x800 /* TX Workqueue Full */
+#define IRQ_BANDMAN_ERR 0x10000 /* Bandwidth Management Error */
+#define IRQ_TX_DISABLE 0x20000 /* TX Disable */
+#define IRQ_RX_IVASESKEY 0x80000 /* RX Invalid Session Key */
+#define IRQ_RX_KEYIDMIS 0x100000 /* RX key ID Mismatch */
+#define IRQ_REP_THHIT 0x200000 /* Replay Threshold Hit */
+#define IRQ_TIMER1 0x4000000 /* Timer1 */
+#define IRQ_TIMER_CNT 0x10000000 /* Timer Count */
+#define IRQ_PHY_FASTINT 0x20000000 /* Phy Fast Interrupt */
+#define IRQ_PHY_SLOWINT 0x40000000 /* Phy Slow Interrupt */
+#define IRQ_OTHER 0x80000000 /* Unknow interrupt */
+#define AGNX_IRQ_ALL 0xffffffff
+
+/* System Interface */
+#define AGNX_SYSITF_BASE 0x4400
+#define AGNX_SYSITF_SYSMODE 0x4400 /* system mode */
+#define AGNX_SYSITF_GPIOIN 0x4410 /* GPIO In */
+/* PIN lines for leds? */
+#define AGNX_SYSITF_GPIOUT 0x4414 /* GPIO Out */
+
+/* Timer Control */
+#define AGNX_TIMCTL_TIMER1 0x4800 /* Timer 1 */
+#define AGNX_TIMCTL_TIM1CTL 0x4808 /* Timer 1 Control */
+
+
+/* Antenna Calibration Interface */
+#define AGNX_ACI_BASE 0x5000
+#define AGNX_ACI_MODE 0x5000 /* Mode */
+#define AGNX_ACI_MEASURE 0x5004 /* Measure */
+#define AGNX_ACI_SELCHAIN 0x5008 /* Select Chain */
+#define AGNX_ACI_LEN 0x500c /* Length */
+#define AGNX_ACI_TIMER1 0x5018 /* Timer 1 */
+#define AGNX_ACI_TIMER2 0x501c /* Timer 2 */
+#define AGNX_ACI_OFFSET 0x5020 /* Offset */
+#define AGNX_ACI_STATUS 0x5030 /* Status */
+#define CALI_IDLE 0x0
+#define CALI_DONE 0x1
+#define CALI_BUSY 0x2
+#define CALI_ERR 0x3
+#define AGNX_ACI_AICCHA0OVE 0x5034 /* AIC Channel 0 Override */
+#define AGNX_ACI_AICCHA1OVE 0x5038 /* AIC Channel 1 Override */
+
+/* Gain Control Registers */
+#define AGNX_GCR_BASE 0x9000
+/* threshold of primary antenna */
+#define AGNX_GCR_THD0A 0x9000 /* threshold? D0 A */
+/* low threshold of primary antenna */
+#define AGNX_GCR_THD0AL 0x9004 /* threshold? D0 A low */
+/* threshold of secondary antenna */
+#define AGNX_GCR_THD0B 0x9008 /* threshold? D0_B */
+#define AGNX_GCR_DUNSAT 0x900c /* d unsaturated */
+#define AGNX_GCR_DSAT 0x9010 /* d saturated */
+#define AGNX_GCR_DFIRCAL 0x9014 /* D Fir/Cal */
+#define AGNX_GCR_DGCTL11A 0x9018 /* d gain control 11a */
+#define AGNX_GCR_DGCTL11B 0x901c /* d gain control 11b */
+/* strength of gain */
+#define AGNX_GCR_GAININIT 0x9020 /* gain initialization */
+#define AGNX_GCR_THNOSIG 0x9024 /* threhold no signal */
+#define AGNX_GCR_COARSTEP 0x9028 /* coarse stepping */
+#define AGNX_GCR_SIFST11A 0x902c /* sifx time 11a */
+#define AGNX_GCR_SIFST11B 0x9030 /* sifx time 11b */
+#define AGNX_GCR_CWDETEC 0x9034 /* cw detection */
+#define AGNX_GCR_0X38 0x9038 /* ???? */
+#define AGNX_GCR_BOACT 0x903c /* BO Active */
+#define AGNX_GCR_BOINACT 0x9040 /* BO Inactive */
+#define AGNX_GCR_BODYNA 0x9044 /* BO dynamic */
+/* 802.11 mode(a,b,g) */
+#define AGNX_GCR_DISCOVMOD 0x9048 /* discovery mode */
+#define AGNX_GCR_NLISTANT 0x904c /* number of listening antenna */
+#define AGNX_GCR_NACTIANT 0x9050 /* number of active antenna */
+#define AGNX_GCR_NMEASANT 0x9054 /* number of measuring antenna */
+#define AGNX_GCR_NCAPTANT 0x9058 /* number of capture antenna */
+#define AGNX_GCR_THCAP11A 0x905c /* threshold capture 11a */
+#define AGNX_GCR_THCAP11B 0x9060 /* threshold capture 11b */
+#define AGNX_GCR_THCAPRX11A 0x9064 /* threshold capture rx 11a */
+#define AGNX_GCR_THCAPRX11B 0x9068 /* threshold capture rx 11b */
+#define AGNX_GCR_THLEVDRO 0x906c /* threshold level drop */
+#define AGNX_GCR_GAINSET0 0x9070 /* Gainset 0 */
+#define AGNX_GCR_GAINSET1 0x9074 /* Gainset 1 */
+#define AGNX_GCR_GAINSET2 0x9078 /* Gainset 2 */
+#define AGNX_GCR_MAXRXTIME11A 0x907c /* maximum rx time 11a */
+#define AGNX_GCR_MAXRXTIME11B 0x9080 /* maximum rx time 11b */
+#define AGNX_GCR_CORRTIME 0x9084 /* correction time */
+/* reset the subsystem, 0 = disable, 1 = enable */
+#define AGNX_GCR_RSTGCTL 0x9088 /* reset gain control */
+/* channel receiving */
+#define AGNX_GCR_RXCHANEL 0x908c /* receive channel */
+#define AGNX_GCR_NOISE0 0x9090 /* Noise 0 */
+#define AGNX_GCR_NOISE1 0x9094 /* Noise 1 */
+#define AGNX_GCR_NOISE2 0x9098 /* Noise 2 */
+#define AGNX_GCR_SIGHTH 0x909c /* Signal High Threshold */
+#define AGNX_GCR_SIGLTH 0x90a0 /* Signal Low Threshold */
+#define AGNX_GCR_CORRDROP 0x90a4 /* correction drop */
+/* threshold of tertiay antenna */
+#define AGNX_GCR_THCD 0x90a8 /* threshold? CD */
+#define AGNX_GCR_THCS 0x90ac /* threshold? CS */
+#define AGNX_GCR_MAXPOWDIFF 0x90b8 /* maximum power difference */
+#define AGNX_GCR_TRACNT4 0x90ec /* Transition Count 4 */
+#define AGNX_GCR_TRACNT5 0x90f0 /* transition count 5 */
+#define AGNX_GCR_TRACNT6 0x90f4 /* transition count 6 */
+#define AGNX_GCR_TRACNT7 0x90f8 /* transition coutn 7 */
+#define AGNX_GCR_TESTBUS 0x911c /* test bus */
+#define AGNX_GCR_CHAINNUM 0x9120 /* Number of Chains */
+#define AGNX_GCR_ANTCFG 0x9124 /* Antenna Config */
+#define AGNX_GCR_THJUMP 0x912c /* threhold jump */
+#define AGNX_GCR_THPOWER 0x9130 /* threshold power */
+#define AGNX_GCR_THPOWCLIP 0x9134 /* threshold power clip*/
+#define AGNX_GCR_FORCECTLCLK 0x9138 /* Force Gain Control Clock */
+#define AGNX_GCR_GAINSETWRITE 0x913c /* Gainset Write */
+#define AGNX_GCR_THD0BTFEST 0x9140 /* threshold d0 b tf estimate */
+#define AGNX_GCR_THRX11BPOWMIN 0x9144 /* threshold rx 11b power minimum */
+#define AGNX_GCR_0X14c 0x914c /* ?? */
+#define AGNX_GCR_0X150 0x9150 /* ?? */
+#define AGNX_GCR_RXOVERIDE 0x9194 /* recieve override */
+#define AGNX_GCR_WATCHDOG 0x91b0 /* watchdog timeout */
+
+
+/* Spi Interface */
+#define AGNX_SPI_BASE 0xdc00
+#define AGNX_SPI_CFG 0xdc00 /* spi configuration */
+/* Only accept 16 bits */
+#define AGNX_SPI_WMSW 0xdc04 /* write most significant word */
+/* Only accept 16 bits */
+#define AGNX_SPI_WLSW 0xdc08 /* write least significant word */
+#define AGNX_SPI_CTL 0xdc0c /* spi control */
+#define AGNX_SPI_RMSW 0xdc10 /* read most significant word */
+#define AGNX_SPI_RLSW 0xdc14 /* read least significant word */
+/* SPI Control Mask */
+#define SPI_READ_CTL 0x4000 /* read control */
+#define SPI_BUSY_CTL 0x8000 /* busy control */
+/* RF and synth chips in spi */
+#define RF_CHIP0 0x400
+#define RF_CHIP1 0x800
+#define RF_CHIP2 0x1000
+#define SYNTH_CHIP 0x2000
+
+/* Unknown register */
+#define AGNX_UNKNOWN_BASE 0x7800
+
+/* FIXME MonitorGain */
+#define AGNX_MONGCR_BASE 0x12000
+
+/* Gain Table */
+#define AGNX_GAIN_TABLE 0x12400
+
+/* The initial FIR coefficient table */
+#define AGNX_FIR_BASE 0x19804
+
+#define AGNX_ENGINE_LOOKUP_TBL 0x800
+
+/* eeprom commands */
+#define EEPROM_CMD_NULL 0x0 /* NULL */
+#define EEPROM_CMD_WRITE 0x2 /* write */
+#define EEPROM_CMD_READ 0x3 /* read */
+#define EEPROM_CMD_STATUSREAD 0x5 /* status register read */
+#define EEPROM_CMD_WRITEENABLE 0x6 /* write enable */
+#define EEPROM_CMD_CONFIGURE 0x7 /* configure */
+
+#define EEPROM_DATAFORCOFIGURE 0x6 /* ??? */
+
+/* eeprom address */
+#define EEPROM_ADDR_SUBVID 0x0 /* Sub Vendor ID */
+#define EEPROM_ADDR_SUBSID 0x2 /* Sub System ID */
+#define EEPROM_ADDR_MACADDR 0x146 /* MAC Address */
+#define EEPROM_ADDR_LOTYPE 0x14f /* LO type */
+
+struct agnx_eeprom {
+ u8 data; /* date */
+ u16 address; /* address in EEPROM */
+ u8 cmd; /* command, unknown, status */
+} __attribute__((__packed__));
+
+#define AGNX_EEPROM_COMMAND_SHIFT 5
+#define AGNX_EEPROM_COMMAND_STAT 0x01
+
+void disable_receiver(struct agnx_priv *priv);
+void enable_receiver(struct agnx_priv *priv);
+u8 read_from_eeprom(struct agnx_priv *priv, u16 address);
+void agnx_hw_init(struct agnx_priv *priv);
+int agnx_hw_reset(struct agnx_priv *priv);
+int agnx_set_ssid(struct agnx_priv *priv, u8 *ssid, size_t ssid_len);
+void agnx_set_bssid(struct agnx_priv *priv, u8 *bssid);
+void enable_power_saving(struct agnx_priv *priv);
+void disable_power_saving(struct agnx_priv *priv);
+void calibrate_antenna_period(unsigned long data);
+
+#endif /* AGNX_PHY_H_ */
diff --git a/drivers/staging/agnx/rf.c b/drivers/staging/agnx/rf.c
new file mode 100644
index 0000000..8294b6e
--- /dev/null
+++ b/drivers/staging/agnx/rf.c
@@ -0,0 +1,894 @@
+/**
+ * Airgo MIMO wireless driver
+ *
+ * Copyright (c) 2007 Li YanBo <dreamfly281@gmail.com>
+
+ * Thanks for Jeff Williams <angelbane@gmail.com> do reverse engineer
+ * works and published the SPECS at http://airgo.wdwconsulting.net/mymoin
+
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation;
+ */
+
+#include <linux/pci.h>
+#include <linux/delay.h>
+#include "agnx.h"
+#include "debug.h"
+#include "phy.h"
+#include "table.h"
+
+/* FIXME! */
+static inline void spi_write(void __iomem *region, u32 chip_ids, u32 sw,
+ u16 size, u32 control)
+{
+ u32 reg;
+ u32 lsw = sw & 0xffff; /* lower 16 bits of sw*/
+ u32 msw = sw >> 16; /* high 16 bits of sw */
+
+ /* FIXME Write Most Significant Word of the 32bit data to MSW */
+ /* FIXME And Least Significant Word to LSW */
+ iowrite32((lsw), region + AGNX_SPI_WLSW);
+ iowrite32((msw), region + AGNX_SPI_WMSW);
+ reg = chip_ids | size | control;
+ /* Write chip id(s), write size and busy control to Control Register */
+ iowrite32((reg), region + AGNX_SPI_CTL);
+ /* Wait for Busy control to clear */
+ spi_delay();
+}
+
+/*
+ * Write to SPI Synth register
+ */
+static inline void spi_sy_write(void __iomem *region, u32 chip_ids, u32 sw)
+{
+ /* FIXME the size 0x15 is a magic value*/
+ spi_write(region, chip_ids, sw, 0x15, SPI_BUSY_CTL);
+}
+
+/*
+ * Write to SPI RF register
+ */
+static inline void spi_rf_write(void __iomem *region, u32 chip_ids, u32 sw)
+{
+ /* FIXME the size 0xd is a magic value*/
+ spi_write(region, chip_ids, sw, 0xd, SPI_BUSY_CTL);
+} /* spi_rf_write */
+
+/*
+ * Write to SPI with Read Control bit set
+ */
+inline void spi_rc_write(void __iomem *region, u32 chip_ids, u32 sw)
+{
+ /* FIXME the size 0xe5 is a magic value */
+ spi_write(region, chip_ids, sw, 0xe5, SPI_BUSY_CTL|SPI_READ_CTL);
+}
+
+/* Get the active chains's count */
+static int get_active_chains(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int num = 0;
+ u32 reg;
+ AGNX_TRACE;
+
+ spi_rc_write(ctl, RF_CHIP0, 0x21);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+ if (reg == 1)
+ num++;
+
+ spi_rc_write(ctl, RF_CHIP1, 0x21);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+ if (reg == 1)
+ num++;
+
+ spi_rc_write(ctl, RF_CHIP2, 0x21);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+ if (reg == 1)
+ num++;
+
+ spi_rc_write(ctl, RF_CHIP0, 0x26);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+ if (0x33 != reg)
+ printk(KERN_WARNING PFX "Unmatched rf chips result\n");
+
+ return num;
+} /* get_active_chains */
+
+void rf_chips_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ int num;
+ AGNX_TRACE;
+
+ if (priv->revid == 1) {
+ reg = agnx_read32(ctl, AGNX_SYSITF_GPIOUT);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, reg);
+ }
+
+ /* Set SPI clock speed to 200NS */
+ reg = agnx_read32(ctl, AGNX_SPI_CFG);
+ reg &= ~0xF;
+ reg |= 0x3;
+ agnx_write32(ctl, AGNX_SPI_CFG, reg);
+
+ /* Set SPI clock speed to 50NS */
+ reg = agnx_read32(ctl, AGNX_SPI_CFG);
+ reg &= ~0xF;
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_SPI_CFG, reg);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1101);
+
+ num = get_active_chains(priv);
+ printk(KERN_INFO PFX "Active chains are %d\n", num);
+
+ reg = agnx_read32(ctl, AGNX_SPI_CFG);
+ reg &= ~0xF;
+ agnx_write32(ctl, AGNX_SPI_CFG, reg);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1908);
+} /* rf_chips_init */
+
+
+static u32 channel_tbl[15][9] = {
+ {0, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00},
+ {1, 0x00, 0x00, 0x624, 0x00, 0x1a4, 0x28, 0x00, 0x1e},
+ {2, 0x00, 0x00, 0x615, 0x00, 0x1ae, 0x28, 0x00, 0x1e},
+ {3, 0x00, 0x00, 0x61a, 0x00, 0x1ae, 0x28, 0x00, 0x1e},
+ {4, 0x00, 0x00, 0x61f, 0x00, 0x1ae, 0x28, 0x00, 0x1e},
+ {5, 0x00, 0x00, 0x624, 0x00, 0x1ae, 0x28, 0x00, 0x1e},
+ {6, 0x00, 0x00, 0x61f, 0x00, 0x1b3, 0x28, 0x00, 0x1e},
+ {7, 0x00, 0x00, 0x624, 0x00, 0x1b3, 0x28, 0x00, 0x1e},
+ {8, 0x00, 0x00, 0x629, 0x00, 0x1b3, 0x28, 0x00, 0x1e},
+ {9, 0x00, 0x00, 0x624, 0x00, 0x1b8, 0x28, 0x00, 0x1e},
+ {10, 0x00, 0x00, 0x629, 0x00, 0x1b8, 0x28, 0x00, 0x1e},
+ {11, 0x00, 0x00, 0x62e, 0x00, 0x1b8, 0x28, 0x00, 0x1e},
+ {12, 0x00, 0x00, 0x633, 0x00, 0x1b8, 0x28, 0x00, 0x1e},
+ {13, 0x00, 0x00, 0x628, 0x00, 0x1b8, 0x28, 0x00, 0x1e},
+ {14, 0x00, 0x00, 0x644, 0x00, 0x1b8, 0x28, 0x00, 0x1e},
+};
+
+
+static inline void
+channel_tbl_write(struct agnx_priv *priv, unsigned int channel, unsigned int reg_num)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ reg = channel_tbl[channel][reg_num];
+ reg <<= 4;
+ reg |= reg_num;
+ spi_sy_write(ctl, SYNTH_CHIP, reg);
+}
+
+static void synth_freq_set(struct agnx_priv *priv, unsigned int channel)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1201);
+
+ /* Set the Clock bits to 50NS */
+ reg = agnx_read32(ctl, AGNX_SPI_CFG);
+ reg &= ~0xF;
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_SPI_CFG, reg);
+
+ /* Write 0x00c0 to LSW and 0x3 to MSW of Synth Chip */
+ spi_sy_write(ctl, SYNTH_CHIP, 0x300c0);
+
+ spi_sy_write(ctl, SYNTH_CHIP, 0x32);
+
+ /* # Write to Register 1 on the Synth Chip */
+ channel_tbl_write(priv, channel, 1);
+ /* # Write to Register 3 on the Synth Chip */
+ channel_tbl_write(priv, channel, 3);
+ /* # Write to Register 6 on the Synth Chip */
+ channel_tbl_write(priv, channel, 6);
+ /* # Write to Register 5 on the Synth Chip */
+ channel_tbl_write(priv, channel, 5);
+ /* # Write to register 8 on the Synth Chip */
+ channel_tbl_write(priv, channel, 8);
+
+ /* FIXME Clear the clock bits */
+ reg = agnx_read32(ctl, AGNX_SPI_CFG);
+ reg &= ~0xf;
+ agnx_write32(ctl, AGNX_SPI_CFG, reg);
+} /* synth_chip_init */
+
+
+static void antenna_init(struct agnx_priv *priv, int num_antenna)
+{
+ void __iomem *ctl = priv->ctl;
+
+ switch (num_antenna) {
+ case 1:
+ agnx_write32(ctl, AGNX_GCR_NLISTANT, 1);
+ agnx_write32(ctl, AGNX_GCR_NMEASANT, 1);
+ agnx_write32(ctl, AGNX_GCR_NACTIANT, 1);
+ agnx_write32(ctl, AGNX_GCR_NCAPTANT, 1);
+
+ agnx_write32(ctl, AGNX_GCR_ANTCFG, 7);
+ agnx_write32(ctl, AGNX_GCR_BOACT, 34);
+ agnx_write32(ctl, AGNX_GCR_BOINACT, 34);
+ agnx_write32(ctl, AGNX_GCR_BODYNA, 30);
+
+ agnx_write32(ctl, AGNX_GCR_THD0A, 125);
+ agnx_write32(ctl, AGNX_GCR_THD0AL, 100);
+ agnx_write32(ctl, AGNX_GCR_THD0B, 90);
+
+ agnx_write32(ctl, AGNX_GCR_THD0BTFEST, 80);
+ agnx_write32(ctl, AGNX_GCR_SIGHTH, 100);
+ agnx_write32(ctl, AGNX_GCR_SIGLTH, 16);
+ break;
+ case 2:
+ agnx_write32(ctl, AGNX_GCR_NLISTANT, 2);
+ agnx_write32(ctl, AGNX_GCR_NMEASANT, 2);
+ agnx_write32(ctl, AGNX_GCR_NACTIANT, 2);
+ agnx_write32(ctl, AGNX_GCR_NCAPTANT, 2);
+ agnx_write32(ctl, AGNX_GCR_ANTCFG, 15);
+ agnx_write32(ctl, AGNX_GCR_BOACT, 36);
+ agnx_write32(ctl, AGNX_GCR_BOINACT, 36);
+ agnx_write32(ctl, AGNX_GCR_BODYNA, 32);
+ agnx_write32(ctl, AGNX_GCR_THD0A, 120);
+ agnx_write32(ctl, AGNX_GCR_THD0AL, 100);
+ agnx_write32(ctl, AGNX_GCR_THD0B, 80);
+ agnx_write32(ctl, AGNX_GCR_THD0BTFEST, 70);
+ agnx_write32(ctl, AGNX_GCR_SIGHTH, 100);
+ agnx_write32(ctl, AGNX_GCR_SIGLTH, 32);
+ break;
+ case 3:
+ agnx_write32(ctl, AGNX_GCR_NLISTANT, 3);
+ agnx_write32(ctl, AGNX_GCR_NMEASANT, 3);
+ agnx_write32(ctl, AGNX_GCR_NACTIANT, 3);
+ agnx_write32(ctl, AGNX_GCR_NCAPTANT, 3);
+ agnx_write32(ctl, AGNX_GCR_ANTCFG, 31);
+ agnx_write32(ctl, AGNX_GCR_BOACT, 36);
+ agnx_write32(ctl, AGNX_GCR_BOINACT, 36);
+ agnx_write32(ctl, AGNX_GCR_BODYNA, 32);
+ agnx_write32(ctl, AGNX_GCR_THD0A, 100);
+ agnx_write32(ctl, AGNX_GCR_THD0AL, 100);
+ agnx_write32(ctl, AGNX_GCR_THD0B, 70);
+ agnx_write32(ctl, AGNX_GCR_THD0BTFEST, 70);
+ agnx_write32(ctl, AGNX_GCR_SIGHTH, 100);
+ agnx_write32(ctl, AGNX_GCR_SIGLTH, 48);
+// agnx_write32(ctl, AGNX_GCR_SIGLTH, 16);
+ break;
+ default:
+ printk(KERN_WARNING PFX "Unknow antenna number\n");
+ }
+} /* antenna_init */
+
+static void chain_update(struct agnx_priv *priv, u32 chain)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ spi_rc_write(ctl, RF_CHIP0, 0x20);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+
+ if (reg == 0x4)
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, reg|0x1000);
+ else if (reg != 0x0)
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, reg|0x1000);
+ else {
+ if (chain == 3 || chain == 6) {
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, reg|0x1000);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+ } else if (chain == 2 || chain == 4) {
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, reg|0x1000);
+ spi_rf_write(ctl, RF_CHIP2, 0x1005);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x824);
+ } else if (chain == 1) {
+ spi_rf_write(ctl, RF_CHIP0, reg|0x1000);
+ spi_rf_write(ctl, RF_CHIP1|RF_CHIP2, 0x1004);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0xc36);
+ }
+ }
+
+ spi_rc_write(ctl, RF_CHIP0, 0x22);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+
+ switch (reg) {
+ case 0:
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1005);
+ break;
+ case 1:
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1201);
+ break;
+ case 2:
+ if (chain == 6 || chain == 4) {
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1202);
+ spi_rf_write(ctl, RF_CHIP2, 0x1005);
+ } else if (chain < 3) {
+ spi_rf_write(ctl, RF_CHIP0, 0x1202);
+ spi_rf_write(ctl, RF_CHIP1|RF_CHIP2, 0x1005);
+ }
+ break;
+ default:
+ if (chain == 3) {
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1203);
+ spi_rf_write(ctl, RF_CHIP2, 0x1201);
+ } else if (chain == 2) {
+ spi_rf_write(ctl, RF_CHIP0, 0x1203);
+ spi_rf_write(ctl, RF_CHIP2, 0x1200);
+ spi_rf_write(ctl, RF_CHIP1, 0x1201);
+ } else if (chain == 1) {
+ spi_rf_write(ctl, RF_CHIP0, 0x1203);
+ spi_rf_write(ctl, RF_CHIP1|RF_CHIP2, 0x1200);
+ } else if (chain == 4) {
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1203);
+ spi_rf_write(ctl, RF_CHIP2, 0x1201);
+ } else {
+ spi_rf_write(ctl, RF_CHIP0, 0x1203);
+ spi_rf_write(ctl, RF_CHIP1|RF_CHIP2, 0x1201);
+ }
+ }
+} /* chain_update */
+
+static void antenna_config(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ /* Write 0x0 to the TX Management Control Register Enable bit */
+ reg = agnx_read32(ctl, AGNX_TXM_CTL);
+ reg &= ~0x1;
+ agnx_write32(ctl, AGNX_TXM_CTL, reg);
+
+ /* FIXME */
+ /* Set initial value based on number of Antennae */
+ antenna_init(priv, 3);
+
+ /* FIXME Update Power Templates for current valid Stations */
+ /* sta_power_init(priv, 0);*/
+
+ /* FIXME the number of chains should get from eeprom*/
+ chain_update(priv, AGNX_CHAINS_MAX);
+} /* antenna_config */
+
+void calibrate_oscillator(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ spi_rc_write(ctl, RF_CHIP0|RF_CHIP1, 0x1201);
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET1);
+ reg |= 0x10;
+ agnx_write32(ctl, AGNX_GCR_GAINSET1, reg);
+
+ agnx_write32(ctl, AGNX_GCR_GAINSETWRITE, 1);
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 1);
+
+ agnx_write32(ctl, AGNX_ACI_LEN, 0x3ff);
+
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x27);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x27);
+ /* (Residual DC Calibration) to Calibration Mode */
+ agnx_write32(ctl, AGNX_ACI_MODE, 0x2);
+
+ spi_rc_write(ctl, RF_CHIP0|RF_CHIP1, 0x1004);
+ agnx_write32(ctl, AGNX_ACI_LEN, 0x3ff);
+ /* (TX LO Calibration) to Calibration Mode */
+ agnx_write32(ctl, AGNX_ACI_MODE, 0x4);
+
+ do {
+ u32 reg1, reg2, reg3;
+ /* Enable Power Saving Control */
+ enable_power_saving(priv);
+ /* Save the following registers to restore */
+ reg1 = ioread32(ctl + 0x11000);
+ reg2 = ioread32(ctl + 0xec50);
+ reg3 = ioread32(ctl + 0xec54);
+ wmb();
+
+ agnx_write32(ctl, 0x11000, 0xcfdf);
+ agnx_write32(ctl, 0xec50, 0x70);
+ /* Restore the registers */
+ agnx_write32(ctl, 0x11000, reg1);
+ agnx_write32(ctl, 0xec50, reg2);
+ agnx_write32(ctl, 0xec54, reg3);
+ /* Disable Power Saving Control */
+ disable_power_saving(priv);
+ } while (0);
+
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0);
+} /* calibrate_oscillator */
+
+
+static void radio_channel_set(struct agnx_priv *priv, unsigned int channel)
+{
+ void __iomem *ctl = priv->ctl;
+ unsigned int freq = priv->band.channels[channel - 1].center_freq;
+ u32 reg;
+ AGNX_TRACE;
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1201);
+ /* Set SPI Clock to 50 Ns */
+ reg = agnx_read32(ctl, AGNX_SPI_CFG);
+ reg &= ~0xF;
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_SPI_CFG, reg);
+
+ /* Clear the Disable Tx interrupt bit in Interrupt Mask */
+/* reg = agnx_read32(ctl, AGNX_INT_MASK); */
+/* reg &= ~IRQ_TX_DISABLE; */
+/* agnx_write32(ctl, AGNX_INT_MASK, reg); */
+
+ /* Band Selection */
+ reg = agnx_read32(ctl, AGNX_SYSITF_GPIOUT);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, reg);
+
+ /* FIXME Set the SiLabs Chip Frequency */
+ synth_freq_set(priv, channel);
+
+ reg = agnx_read32(ctl, AGNX_PM_SOFTRST);
+ reg |= 0x80100030;
+ agnx_write32(ctl, AGNX_PM_SOFTRST, reg);
+ reg = agnx_read32(ctl, AGNX_PM_PLLCTL);
+ reg |= 0x20009;
+ agnx_write32(ctl, AGNX_PM_PLLCTL, reg);
+
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, 0x5);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1100);
+
+ /* Load the MonitorGain Table */
+ monitor_gain_table_init(priv);
+
+ /* Load the TX Fir table */
+ tx_fir_table_init(priv);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg |= 0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+
+ spi_rc_write(ctl, RF_CHIP0|RF_CHIP1, 0x22);
+ udelay(80);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+
+
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0xff);
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x3);
+
+ reg = agnx_read32(ctl, 0xec50);
+ reg |= 0x4f;
+ agnx_write32(ctl, 0xec50, reg);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1201);
+ agnx_write32(ctl, 0x11008, 0x1);
+ agnx_write32(ctl, 0x1100c, 0x0);
+ agnx_write32(ctl, 0x11008, 0x0);
+ agnx_write32(ctl, 0xec50, 0xc);
+
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x3);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+ agnx_write32(ctl, 0x11010, 0x6e);
+ agnx_write32(ctl, 0x11014, 0x6c);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1201);
+
+ /* Calibrate the Antenna */
+ /* antenna_calibrate(priv); */
+ /* Calibrate the TxLocalOscillator */
+ calibrate_oscillator(priv);
+
+ reg = agnx_read32(ctl, AGNX_PM_PMCTL);
+ reg &= ~0x8;
+ agnx_write32(ctl, AGNX_PM_PMCTL, reg);
+ agnx_write32(ctl, AGNX_GCR_GAININIT, 0xa);
+ agnx_write32(ctl, AGNX_GCR_THCD, 0x0);
+
+ agnx_write32(ctl, 0x11018, 0xb);
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x0);
+
+ /* Write Frequency to Gain Control Channel */
+ agnx_write32(ctl, AGNX_GCR_RXCHANEL, freq);
+ /* Write 0x140000/Freq to 0x9c08 */
+ reg = 0x140000/freq;
+ agnx_write32(ctl, 0x9c08, reg);
+
+ reg = agnx_read32(ctl, AGNX_PM_SOFTRST);
+ reg &= ~0x80100030;
+ agnx_write32(ctl, AGNX_PM_SOFTRST, reg);
+
+ reg = agnx_read32(ctl, AGNX_PM_PLLCTL);
+ reg &= ~0x20009;
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_PM_PLLCTL, reg);
+
+ agnx_write32(ctl, AGNX_ACI_MODE, 0x0);
+
+/* FIXME According to Number of Chains: */
+
+/* 1. 1: */
+/* 1. Write 0x1203 to RF Chip 0 */
+/* 2. Write 0x1200 to RF Chips 1 +2 */
+/* 2. 2: */
+/* 1. Write 0x1203 to RF Chip 0 */
+/* 2. Write 0x1200 to RF Chip 2 */
+/* 3. Write 0x1201 to RF Chip 1 */
+/* 3. 3: */
+/* 1. Write 0x1203 to RF Chip 0 */
+/* 2. Write 0x1201 to RF Chip 1 + 2 */
+/* 4. 4: */
+/* 1. Write 0x1203 to RF Chip 0 + 1 */
+/* 2. Write 0x1200 to RF Chip 2 */
+
+/* 5. 6: */
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1, 0x1203);
+ spi_rf_write(ctl, RF_CHIP2, 0x1201);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1000);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+
+ /* FIXME Set the Disable Tx interrupt bit in Interrupt Mask
+ (Or 0x20000 to Interrupt Mask) */
+/* reg = agnx_read32(ctl, AGNX_INT_MASK); */
+/* reg |= IRQ_TX_DISABLE; */
+/* agnx_write32(ctl, AGNX_INT_MASK, reg); */
+
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x1);
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x0);
+
+ /* Configure the Antenna */
+ antenna_config(priv);
+
+ /* Write 0x0 to Discovery Mode Enable detect G, B, A packet? */
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0);
+
+ reg = agnx_read32(ctl, AGNX_RXM_REQRATE);
+ reg |= 0x80000000;
+ agnx_write32(ctl, AGNX_RXM_REQRATE, reg);
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x1);
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x0);
+
+ /* enable radio on and the power LED */
+ reg = agnx_read32(ctl, AGNX_SYSITF_GPIOUT);
+ reg &= ~0x1;
+ reg |= 0x2;
+ agnx_write32(ctl, AGNX_SYSITF_GPIOUT, reg);
+
+ reg = agnx_read32(ctl, AGNX_TXM_CTL);
+ reg |= 0x1;
+ agnx_write32(ctl, AGNX_TXM_CTL, reg);
+} /* radio_channel_set */
+
+static void base_band_filter_calibrate(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1700);
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1001);
+ agnx_write32(ctl, AGNX_GCR_FORCECTLCLK, 0x0);
+ spi_rc_write(ctl, RF_CHIP0, 0x27);
+ spi_rc_write(ctl, RF_CHIP1, 0x27);
+ spi_rc_write(ctl, RF_CHIP2, 0x27);
+ agnx_write32(ctl, AGNX_GCR_FORCECTLCLK, 0x1);
+}
+
+static void print_offset(struct agnx_priv *priv, u32 chain)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 offset;
+
+ iowrite32((chain), ctl + AGNX_ACI_SELCHAIN);
+ udelay(10);
+ offset = (ioread32(ctl + AGNX_ACI_OFFSET));
+ printk(PFX "Chain is 0x%x, Offset is 0x%x\n", chain, offset);
+}
+
+void print_offsets(struct agnx_priv *priv)
+{
+ print_offset(priv, 0);
+ print_offset(priv, 4);
+ print_offset(priv, 1);
+ print_offset(priv, 5);
+ print_offset(priv, 2);
+ print_offset(priv, 6);
+}
+
+
+struct chains {
+ u32 cali; /* calibrate value*/
+
+#define NEED_CALIBRATE 0
+#define SUCCESS_CALIBRATE 1
+ int status;
+};
+
+static void chain_calibrate(struct agnx_priv *priv, struct chains *chains,
+ unsigned int num)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 calibra = chains[num].cali;
+
+ if (num < 3)
+ calibra |= 0x1400;
+ else
+ calibra |= 0x1500;
+
+ switch (num) {
+ case 0:
+ case 4:
+ spi_rf_write(ctl, RF_CHIP0, calibra);
+ break;
+ case 1:
+ case 5:
+ spi_rf_write(ctl, RF_CHIP1, calibra);
+ break;
+ case 2:
+ case 6:
+ spi_rf_write(ctl, RF_CHIP2, calibra);
+ break;
+ default:
+ BUG();
+ }
+} /* chain_calibrate */
+
+
+static void inline get_calibrete_value(struct agnx_priv *priv, struct chains *chains,
+ unsigned int num)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 offset;
+
+ iowrite32((num), ctl + AGNX_ACI_SELCHAIN);
+ /* FIXME */
+ udelay(10);
+ offset = (ioread32(ctl + AGNX_ACI_OFFSET));
+
+ if (offset < 0xf) {
+ chains[num].status = SUCCESS_CALIBRATE;
+ return;
+ }
+
+ if (num == 0 || num == 1 || num == 2) {
+ if ( 0 == chains[num].cali)
+ chains[num].cali = 0xff;
+ else
+ chains[num].cali--;
+ } else
+ chains[num].cali++;
+
+ chains[num].status = NEED_CALIBRATE;
+}
+
+static inline void calibra_delay(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ unsigned int i = 100;
+
+ wmb();
+ while (i--) {
+ reg = (ioread32(ctl + AGNX_ACI_STATUS));
+ if (reg == 0x4000)
+ break;
+ udelay(10);
+ }
+ if (!i)
+ printk(PFX "calibration failed\n");
+}
+
+void do_calibration(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ struct chains chains[7];
+ unsigned int i, j;
+ AGNX_TRACE;
+
+ for (i = 0; i < 7; i++) {
+ if (i == 3)
+ continue;
+
+ chains[i].cali = 0x7f;
+ chains[i].status = NEED_CALIBRATE;
+ }
+
+ /* FIXME 0x300 is a magic number */
+ for (j = 0; j < 0x300; j++) {
+ if (chains[0].status == SUCCESS_CALIBRATE &&
+ chains[1].status == SUCCESS_CALIBRATE &&
+ chains[2].status == SUCCESS_CALIBRATE &&
+ chains[4].status == SUCCESS_CALIBRATE &&
+ chains[5].status == SUCCESS_CALIBRATE &&
+ chains[6].status == SUCCESS_CALIBRATE)
+ break;
+
+ /* Attention, there is no chain 3 */
+ for (i = 0; i < 7; i++) {
+ if (i == 3)
+ continue;
+ if (chains[i].status == NEED_CALIBRATE)
+ chain_calibrate(priv, chains, i);
+ }
+ /* Write 0x1 to Calibration Measure */
+ iowrite32((0x1), ctl + AGNX_ACI_MEASURE);
+ calibra_delay(priv);
+
+ for (i = 0; i < 7; i++) {
+ if (i == 3)
+ continue;
+
+ get_calibrete_value(priv, chains, i);
+ }
+ }
+ printk(PFX "Clibrate times is %d\n", j);
+ print_offsets(priv);
+} /* do_calibration */
+
+void antenna_calibrate(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+ AGNX_TRACE;
+
+ agnx_write32(ctl, AGNX_GCR_NLISTANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NMEASANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NACTIANT, 0x3);
+ agnx_write32(ctl, AGNX_GCR_NCAPTANT, 0x3);
+
+ agnx_write32(ctl, AGNX_GCR_ANTCFG, 0x1f);
+ agnx_write32(ctl, AGNX_GCR_BOACT, 0x24);
+ agnx_write32(ctl, AGNX_GCR_BOINACT, 0x24);
+ agnx_write32(ctl, AGNX_GCR_BODYNA, 0x20);
+ agnx_write32(ctl, AGNX_GCR_THD0A, 0x64);
+ agnx_write32(ctl, AGNX_GCR_THD0AL, 0x64);
+ agnx_write32(ctl, AGNX_GCR_THD0B, 0x46);
+ agnx_write32(ctl, AGNX_GCR_THD0BTFEST, 0x3c);
+ agnx_write32(ctl, AGNX_GCR_SIGHTH, 0x64);
+ agnx_write32(ctl, AGNX_GCR_SIGLTH, 0x30);
+
+ spi_rc_write(ctl, RF_CHIP0, 0x20);
+ /* Fixme */
+ udelay(80);
+ /* 1. Should read 0x0 */
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+ if (0x0 != reg)
+ printk(KERN_WARNING PFX "Unmatched rf chips result\n");
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1000);
+
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+
+ spi_rc_write(ctl, RF_CHIP0, 0x22);
+ udelay(80);
+ reg = agnx_read32(ctl, AGNX_SPI_RLSW);
+ if (0x0 != reg)
+ printk(KERN_WARNING PFX "Unmatched rf chips result\n");
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1005);
+
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x1);
+ agnx_write32(ctl, AGNX_GCR_RSTGCTL, 0x0);
+
+ reg = agnx_read32(ctl, AGNX_PM_SOFTRST);
+ reg |= 0x1c000032;
+ agnx_write32(ctl, AGNX_PM_SOFTRST, reg);
+ reg = agnx_read32(ctl, AGNX_PM_PLLCTL);
+ reg |= 0x0003f07;
+ agnx_write32(ctl, AGNX_PM_PLLCTL, reg);
+
+ reg = agnx_read32(ctl, 0xec50);
+ reg |= 0x40;
+ agnx_write32(ctl, 0xec50, reg);
+
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0xff8);
+ agnx_write32(ctl, AGNX_GCR_DISCOVMOD, 0x3);
+
+ agnx_write32(ctl, AGNX_GCR_CHAINNUM, 0x6);
+ agnx_write32(ctl, 0x19874, 0x0);
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1700);
+
+ /* Calibrate the BaseBandFilter */
+ base_band_filter_calibrate(priv);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1002);
+
+ agnx_write32(ctl, AGNX_GCR_GAINSET0, 0x1d);
+ agnx_write32(ctl, AGNX_GCR_GAINSET1, 0x1d);
+ agnx_write32(ctl, AGNX_GCR_GAINSET2, 0x1d);
+ agnx_write32(ctl, AGNX_GCR_GAINSETWRITE, 0x1);
+
+ agnx_write32(ctl, AGNX_ACI_MODE, 0x1);
+ agnx_write32(ctl, AGNX_ACI_LEN, 0x3ff);
+
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x27);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x27);
+
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1400);
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1500);
+
+ /* Measure Calibration */
+ agnx_write32(ctl, AGNX_ACI_MEASURE, 0x1);
+ calibra_delay(priv);
+
+ /* do calibration */
+ do_calibration(priv);
+
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x21);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x27);
+ agnx_write32(ctl, AGNX_ACI_LEN, 0xf);
+
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET0);
+ reg &= 0xf;
+ agnx_write32(ctl, AGNX_GCR_GAINSET0, reg);
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET1);
+ reg &= 0xf;
+ agnx_write32(ctl, AGNX_GCR_GAINSET1, reg);
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET2);
+ reg &= 0xf;
+ agnx_write32(ctl, AGNX_GCR_GAINSET2, reg);
+
+ agnx_write32(ctl, AGNX_GCR_GAINSETWRITE, 0x0);
+ disable_receiver(priv);
+} /* antenna_calibrate */
+
+void __antenna_calibrate(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ /* Calibrate the BaseBandFilter */
+ /* base_band_filter_calibrate(priv); */
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1002);
+
+
+ agnx_write32(ctl, AGNX_GCR_GAINSET0, 0x1d);
+ agnx_write32(ctl, AGNX_GCR_GAINSET1, 0x1d);
+ agnx_write32(ctl, AGNX_GCR_GAINSET2, 0x1d);
+
+ agnx_write32(ctl, AGNX_GCR_GAINSETWRITE, 0x1);
+
+ agnx_write32(ctl, AGNX_ACI_MODE, 0x1);
+ agnx_write32(ctl, AGNX_ACI_LEN, 0x3ff);
+
+
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x27);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x27);
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1400);
+ spi_rf_write(ctl, RF_CHIP0|RF_CHIP1|RF_CHIP2, 0x1500);
+ /* Measure Calibration */
+ agnx_write32(ctl, AGNX_ACI_MEASURE, 0x1);
+ calibra_delay(priv);
+ do_calibration(priv);
+ agnx_write32(ctl, AGNX_GCR_RXOVERIDE, 0x0);
+
+ agnx_write32(ctl, AGNX_ACI_TIMER1, 0x21);
+ agnx_write32(ctl, AGNX_ACI_TIMER2, 0x27);
+
+ agnx_write32(ctl, AGNX_ACI_LEN, 0xf);
+
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET0);
+ reg &= 0xf;
+ agnx_write32(ctl, AGNX_GCR_GAINSET0, reg);
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET1);
+ reg &= 0xf;
+ agnx_write32(ctl, AGNX_GCR_GAINSET1, reg);
+ reg = agnx_read32(ctl, AGNX_GCR_GAINSET2);
+ reg &= 0xf;
+ agnx_write32(ctl, AGNX_GCR_GAINSET2, reg);
+
+
+ agnx_write32(ctl, AGNX_GCR_GAINSETWRITE, 0x0);
+
+ /* Write 0x3 Gain Control Discovery Mode */
+ enable_receiver(priv);
+}
+
+int agnx_set_channel(struct agnx_priv *priv, unsigned int channel)
+{
+ AGNX_TRACE;
+
+ printk(KERN_ERR PFX "Channel is %d %s\n", channel, __func__);
+ radio_channel_set(priv, channel);
+ return 0;
+}
diff --git a/drivers/staging/agnx/sta.c b/drivers/staging/agnx/sta.c
new file mode 100644
index 0000000..d3ac675
--- /dev/null
+++ b/drivers/staging/agnx/sta.c
@@ -0,0 +1,219 @@
+#include <linux/delay.h>
+#include <linux/etherdevice.h>
+#include "phy.h"
+#include "sta.h"
+#include "debug.h"
+
+void hash_read(struct agnx_priv *priv, u32 reghi, u32 reglo, u8 sta_id)
+{
+ void __iomem *ctl = priv->ctl;
+
+ reglo &= 0xFFFF;
+ reglo |= 0x30000000;
+ reglo |= 0x40000000; /* Set status busy */
+ reglo |= sta_id << 16;
+
+ iowrite32(0, ctl + AGNX_RXM_HASH_CMD_FLAG);
+ iowrite32(reghi, ctl + AGNX_RXM_HASH_CMD_HIGH);
+ iowrite32(reglo, ctl + AGNX_RXM_HASH_CMD_LOW);
+
+ reghi = ioread32(ctl + AGNX_RXM_HASH_CMD_HIGH);
+ reglo = ioread32(ctl + AGNX_RXM_HASH_CMD_LOW);
+ printk(PFX "RX hash cmd are : %.8x%.8x\n", reghi, reglo);
+}
+
+void hash_write(struct agnx_priv *priv, u8 *mac_addr, u8 sta_id)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reghi, reglo;
+
+ if (!is_valid_ether_addr(mac_addr))
+ printk(KERN_WARNING PFX "Update hash table: Invalid hwaddr!\n");
+
+ reghi = mac_addr[0] << 24 | mac_addr[1] << 16 | mac_addr[2] << 8 | mac_addr[3];
+ reglo = mac_addr[4] << 8 | mac_addr[5];
+ reglo |= 0x10000000; /* Set hash commmand */
+ reglo |= 0x40000000; /* Set status busy */
+ reglo |= sta_id << 16;
+
+ iowrite32(0, ctl + AGNX_RXM_HASH_CMD_FLAG);
+ iowrite32(reghi, ctl + AGNX_RXM_HASH_CMD_HIGH);
+ iowrite32(reglo, ctl + AGNX_RXM_HASH_CMD_LOW);
+
+ reglo = ioread32(ctl + AGNX_RXM_HASH_CMD_LOW);
+ if (!(reglo & 0x80000000))
+ printk(KERN_WARNING PFX "Update hash table failed\n");
+}
+
+void hash_delete(struct agnx_priv *priv, u32 reghi, u32 reglo, u8 sta_id)
+{
+ void __iomem *ctl = priv->ctl;
+
+ reglo &= 0xFFFF;
+ reglo |= 0x20000000;
+ reglo |= 0x40000000; /* Set status busy */
+ reglo |= sta_id << 16;
+
+ iowrite32(0, ctl + AGNX_RXM_HASH_CMD_FLAG);
+ iowrite32(reghi, ctl + AGNX_RXM_HASH_CMD_HIGH);
+ iowrite32(reglo, ctl + AGNX_RXM_HASH_CMD_LOW);
+ reghi = ioread32(ctl + AGNX_RXM_HASH_CMD_HIGH);
+
+ reglo = ioread32(ctl + AGNX_RXM_HASH_CMD_LOW);
+ printk(PFX "RX hash cmd are : %.8x%.8x\n", reghi, reglo);
+
+}
+
+void hash_dump(struct agnx_priv *priv, u8 sta_id)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reghi, reglo;
+
+ reglo = 0x0; /* dump command */
+ reglo|= 0x40000000; /* status bit */
+ iowrite32(reglo, ctl + AGNX_RXM_HASH_CMD_LOW);
+ iowrite32(sta_id << 16, ctl + AGNX_RXM_HASH_DUMP_DATA);
+
+ udelay(80);
+
+ reghi = ioread32(ctl + AGNX_RXM_HASH_CMD_HIGH);
+ reglo = ioread32(ctl + AGNX_RXM_HASH_CMD_LOW);
+ printk(PFX "hash cmd are : %.8x%.8x\n", reghi, reglo);
+ reghi = ioread32(ctl + AGNX_RXM_HASH_CMD_FLAG);
+ printk(PFX "hash flag is : %.8x\n", reghi);
+ reghi = ioread32(ctl + AGNX_RXM_HASH_DUMP_MST);
+ reglo = ioread32(ctl + AGNX_RXM_HASH_DUMP_LST);
+ printk(PFX "hash dump mst lst: %.8x%.8x\n", reghi, reglo);
+ reghi = ioread32(ctl + AGNX_RXM_HASH_DUMP_DATA);
+ printk(PFX "hash dump data: %.8x\n", reghi);
+}
+
+void get_sta_power(struct agnx_priv *priv, struct agnx_sta_power *power, unsigned int sta_idx)
+{
+ void __iomem *ctl = priv->ctl;
+ memcpy_fromio(power, ctl + AGNX_TXM_STAPOWTEMP + sizeof(*power) * sta_idx,
+ sizeof(*power));
+}
+
+inline void
+set_sta_power(struct agnx_priv *priv, struct agnx_sta_power *power, unsigned int sta_idx)
+{
+ void __iomem *ctl = priv->ctl;
+ /* FIXME 2. Write Template to offset + station number */
+ memcpy_toio(ctl + AGNX_TXM_STAPOWTEMP + sizeof(*power) * sta_idx,
+ power, sizeof(*power));
+}
+
+
+void get_sta_tx_wq(struct agnx_priv *priv, struct agnx_sta_tx_wq *tx_wq,
+ unsigned int sta_idx, unsigned int wq_idx)
+{
+ void __iomem *data = priv->data;
+ memcpy_fromio(tx_wq, data + AGNX_PDU_TX_WQ + sizeof(*tx_wq) * STA_TX_WQ_NUM * sta_idx +
+ sizeof(*tx_wq) * wq_idx, sizeof(*tx_wq));
+
+}
+
+inline void set_sta_tx_wq(struct agnx_priv *priv, struct agnx_sta_tx_wq *tx_wq,
+ unsigned int sta_idx, unsigned int wq_idx)
+{
+ void __iomem *data = priv->data;
+ memcpy_toio(data + AGNX_PDU_TX_WQ + sizeof(*tx_wq) * STA_TX_WQ_NUM * sta_idx +
+ sizeof(*tx_wq) * wq_idx, tx_wq, sizeof(*tx_wq));
+}
+
+
+void get_sta(struct agnx_priv *priv, struct agnx_sta *sta, unsigned int sta_idx)
+{
+ void __iomem *data = priv->data;
+
+ memcpy_fromio(sta, data + AGNX_PDUPOOL + sizeof(*sta) * sta_idx,
+ sizeof(*sta));
+}
+
+inline void set_sta(struct agnx_priv *priv, struct agnx_sta *sta, unsigned int sta_idx)
+{
+ void __iomem *data = priv->data;
+
+ memcpy_toio(data + AGNX_PDUPOOL + sizeof(*sta) * sta_idx,
+ sta, sizeof(*sta));
+}
+
+/* FIXME */
+void sta_power_init(struct agnx_priv *priv, unsigned int sta_idx)
+{
+ struct agnx_sta_power power;
+ u32 reg;
+ AGNX_TRACE;
+
+ memset(&power, 0, sizeof(power));
+ reg = agnx_set_bits(EDCF, EDCF_SHIFT, 0x1);
+ power.reg = cpu_to_le32(reg);
+ set_sta_power(priv, &power, sta_idx);
+ udelay(40);
+} /* add_power_template */
+
+
+/* @num: The #number of station that is visible to the card */
+static void sta_tx_workqueue_init(struct agnx_priv *priv, unsigned int sta_idx)
+{
+ struct agnx_sta_tx_wq tx_wq;
+ u32 reg;
+ unsigned int i;
+
+ memset(&tx_wq, 0, sizeof(tx_wq));
+
+ reg = agnx_set_bits(WORK_QUEUE_VALID, WORK_QUEUE_VALID_SHIFT, 1);
+ reg |= agnx_set_bits(WORK_QUEUE_ACK_TYPE, WORK_QUEUE_ACK_TYPE_SHIFT, 1);
+// reg |= agnx_set_bits(WORK_QUEUE_ACK_TYPE, WORK_QUEUE_ACK_TYPE_SHIFT, 0);
+ tx_wq.reg2 |= cpu_to_le32(reg);
+
+ /* Suppose all 8 traffic class are used */
+ for (i = 0; i < STA_TX_WQ_NUM; i++)
+ set_sta_tx_wq(priv, &tx_wq, sta_idx, i);
+} /* sta_tx_workqueue_init */
+
+
+static void sta_traffic_init(struct agnx_sta_traffic *traffic)
+{
+ u32 reg;
+ memset(traffic, 0, sizeof(*traffic));
+
+ reg = agnx_set_bits(NEW_PACKET, NEW_PACKET_SHIFT, 1);
+ reg |= agnx_set_bits(TRAFFIC_VALID, TRAFFIC_VALID_SHIFT, 1);
+// reg |= agnx_set_bits(TRAFFIC_ACK_TYPE, TRAFFIC_ACK_TYPE_SHIFT, 1);
+ traffic->reg0 = cpu_to_le32(reg);
+
+ /* 3. setting RX Sequence Number to 4095 */
+ reg = agnx_set_bits(RX_SEQUENCE_NUM, RX_SEQUENCE_NUM_SHIFT, 4095);
+ traffic->reg1 = cpu_to_le32(reg);
+}
+
+
+/* @num: The #number of station that is visible to the card */
+void sta_init(struct agnx_priv *priv, unsigned int sta_idx)
+{
+ /* FIXME the length of sta is 256 bytes Is that
+ * dangerous to stack overflow? */
+ struct agnx_sta sta;
+ u32 reg;
+ int i;
+
+ memset(&sta, 0, sizeof(sta));
+ /* Set valid to 1 */
+ reg = agnx_set_bits(STATION_VALID, STATION_VALID_SHIFT, 1);
+ /* Set Enable Concatenation to 0 (?) */
+ reg |= agnx_set_bits(ENABLE_CONCATENATION, ENABLE_CONCATENATION_SHIFT, 0);
+ /* Set Enable Decompression to 0 (?) */
+ reg |= agnx_set_bits(ENABLE_DECOMPRESSION, ENABLE_DECOMPRESSION_SHIFT, 0);
+ sta.reg = cpu_to_le32(reg);
+
+ /* Initialize each of the Traffic Class Structures by: */
+ for (i = 0; i < 8; i++)
+ sta_traffic_init(sta.traffic + i);
+
+ set_sta(priv, &sta, sta_idx);
+ sta_tx_workqueue_init(priv, sta_idx);
+} /* sta_descriptor_init */
+
+
diff --git a/drivers/staging/agnx/sta.h b/drivers/staging/agnx/sta.h
new file mode 100644
index 0000000..58d0b12
--- /dev/null
+++ b/drivers/staging/agnx/sta.h
@@ -0,0 +1,222 @@
+#ifndef AGNX_STA_H_
+#define AGNX_STA_H_
+
+#define STA_TX_WQ_NUM 8 /* The number of TX workqueue one STA has */
+
+struct agnx_hash_cmd {
+ __be32 cmdhi;
+#define MACLO 0xFFFF0000
+#define MACLO_SHIFT 16
+#define STA_ID 0x0000FFF0
+#define STA_ID_SHIFT 4
+#define CMD 0x0000000C
+#define CMD_SHIFT 2
+#define STATUS 0x00000002
+#define STATUS_SHIFT 1
+#define PASS 0x00000001
+#define PASS_SHIFT 1
+ __be32 cmdlo;
+}__attribute__((__packed__));
+
+
+/*
+ * Station Power Template
+ * FIXME Just for agn100 yet
+ */
+struct agnx_sta_power {
+ __le32 reg;
+#define SIGNAL 0x000000FF /* signal */
+#define SIGNAL_SHIFT 0
+#define RATE 0x00000F00
+#define RATE_SHIFT 8
+#define TIFS 0x00001000
+#define TIFS_SHIFT 12
+#define EDCF 0x00002000
+#define EDCF_SHIFT 13
+#define CHANNEL_BOND 0x00004000
+#define CHANNEL_BOND_SHIFT 14
+#define PHY_MODE 0x00038000
+#define PHY_MODE_SHIFT 15
+#define POWER_LEVEL 0x007C0000
+#define POWER_LEVEL_SHIFT 18
+#define NUM_TRANSMITTERS 0x00800000
+#define NUM_TRANSMITTERS_SHIFT 23
+} __attribute__((__packed__));
+
+/*
+ * TX Workqueue Descriptor
+ */
+struct agnx_sta_tx_wq {
+ __le32 reg0;
+#define HEAD_POINTER_LOW 0xFF000000 /* Head pointer low */
+#define HEAD_POINTER_LOW_SHIFT 24
+#define TAIL_POINTER 0x00FFFFFF /* Tail pointer */
+#define TAIL_POINTER_SHIFT 0
+
+ __le32 reg3;
+#define ACK_POINTER_LOW 0xFFFF0000 /* ACK pointer low */
+#define ACK_POINTER_LOW_SHIFT 16
+#define HEAD_POINTER_HIGH 0x0000FFFF /* Head pointer high */
+#define HEAD_POINTER_HIGH_SHIFT 0
+
+ __le32 reg1;
+/* ACK timeout tail packet count */
+#define ACK_TIMOUT_TAIL_PACK_CNT 0xFFF00000
+#define ACK_TIMOUT_TAIL_PACK_CNT_SHIFT 20
+/* Head timeout tail packet count */
+#define HEAD_TIMOUT_TAIL_PACK_CNT 0x000FFF00
+#define HEAD_TIMOUT_TAIL_PACK_CNT_SHIFT 8
+#define ACK_POINTER_HIGH 0x000000FF /* ACK pointer high */
+#define ACK_POINTER_HIGH_SHIFT 0
+
+ __le32 reg2;
+#define WORK_QUEUE_VALID 0x80000000 /* valid */
+#define WORK_QUEUE_VALID_SHIFT 31
+#define WORK_QUEUE_ACK_TYPE 0x40000000 /* ACK type */
+#define WORK_QUEUE_ACK_TYPE_SHIFT 30
+/* Head timeout window limit fragmentation count */
+#define HEAD_TIMOUT_WIN_LIM_FRAG_CNT 0x3FFF0000
+#define HEAD_TIMOUT_WIN_LIM_FRAG_CNT_SHIFT 16
+/* Head timeout window limit byte count */
+#define HEAD_TIMOUT_WIN_LIM_BYTE_CNT 0x0000FFFF
+#define HEAD_TIMOUT_WIN_LIM_BYTE_CNT_SHIFT 0
+} __attribute__((__packed__));
+
+
+/*
+ * Traffic Class Structure
+ */
+struct agnx_sta_traffic {
+ __le32 reg0;
+#define ACK_TIMOUT_CNT 0xFF800000 /* ACK Timeout Counts */
+#define ACK_TIMOUT_CNT_SHIFT 23
+#define TRAFFIC_ACK_TYPE 0x00600000 /* ACK Type */
+#define TRAFFIC_ACK_TYPE_SHIFT 21
+#define NEW_PACKET 0x00100000 /* New Packet */
+#define NEW_PACKET_SHIFT 20
+#define TRAFFIC_VALID 0x00080000 /* Valid */
+#define TRAFFIC_VALID_SHIFT 19
+#define RX_HDR_DESC_POINTER 0x0007FFFF /* RX Header Descripter pointer */
+#define RX_HDR_DESC_POINTER_SHIFT 0
+
+ __le32 reg1;
+#define RX_PACKET_TIMESTAMP 0xFFFF0000 /* RX Packet Timestamp */
+#define RX_PACKET_TIMESTAMP_SHIFT 16
+#define TRAFFIC_RESERVED 0x0000E000 /* Reserved */
+#define TRAFFIC_RESERVED_SHIFT 13
+#define SV 0x00001000 /* sv */
+#define SV_SHIFT 12
+#define RX_SEQUENCE_NUM 0x00000FFF /* RX Sequence Number */
+#define RX_SEQUENCE_NUM_SHIFT 0
+
+ __le32 tx_replay_cnt_low; /* TX Replay Counter Low */
+
+ __le16 tx_replay_cnt_high; /* TX Replay Counter High */
+ __le16 rx_replay_cnt_high; /* RX Replay Counter High */
+
+ __be32 rx_replay_cnt_low; /* RX Replay Counter Low */
+} __attribute__((__packed__));
+
+/*
+ * Station Descriptors
+ */
+struct agnx_sta {
+ __le32 tx_session_keys[4]; /* Transmit Session Key (0-3) */
+ __le32 rx_session_keys[4]; /* Receive Session Key (0-3) */
+
+ __le32 reg;
+#define ID_1 0xC0000000 /* id 1 */
+#define ID_1_SHIFT 30
+#define ID_0 0x30000000 /* id 0 */
+#define ID_0_SHIFT 28
+#define ENABLE_CONCATENATION 0x0FF00000 /* Enable concatenation */
+#define ENABLE_CONCATENATION_SHIFT 20
+#define ENABLE_DECOMPRESSION 0x000FF000 /* Enable decompression */
+#define ENABLE_DECOMPRESSION_SHIFT 12
+#define STA_RESERVED 0x00000C00 /* Reserved */
+#define STA_RESERVED_SHIFT 10
+#define EAP 0x00000200 /* EAP */
+#define EAP_SHIFT 9
+#define ED_NULL 0x00000100 /* ED NULL */
+#define ED_NULL_SHIFT 8
+#define ENCRYPTION_POLICY 0x000000E0 /* Encryption Policy */
+#define ENCRYPTION_POLICY_SHIFT 5
+#define DEFINED_KEY_ID 0x00000018 /* Defined Key ID */
+#define DEFINED_KEY_ID_SHIFT 3
+#define FIXED_KEY 0x00000004 /* Fixed Key */
+#define FIXED_KEY_SHIFT 2
+#define KEY_VALID 0x00000002 /* Key Valid */
+#define KEY_VALID_SHIFT 1
+#define STATION_VALID 0x00000001 /* Station Valid */
+#define STATION_VALID_SHIFT 0
+
+ __le32 tx_aes_blks_unicast; /* TX AES Blks Unicast */
+ __le32 rx_aes_blks_unicast; /* RX AES Blks Unicast */
+
+ __le16 aes_format_err_unicast_cnt; /* AES Format Error Unicast Counts */
+ __le16 aes_replay_unicast; /* AES Replay Unicast */
+
+ __le16 aes_decrypt_err_unicast; /* AES Decrypt Error Unicast */
+ __le16 aes_decrypt_err_default; /* AES Decrypt Error default */
+
+ __le16 single_retry_packets; /* Single Retry Packets */
+ __le16 failed_tx_packets; /* Failed Tx Packets */
+
+ __le16 muti_retry_packets; /* Multiple Retry Packets */
+ __le16 ack_timeouts; /* ACK Timeouts */
+
+ __le16 frag_tx_cnt; /* Fragment TX Counts */
+ __le16 rts_brq_sent; /* RTS Brq Sent */
+
+ __le16 tx_packets; /* TX Packets */
+ __le16 cts_back_timeout; /* CTS Back Timeout */
+
+ __le32 phy_stats_high; /* PHY Stats High */
+ __le32 phy_stats_low; /* PHY Stats Low */
+
+ struct agnx_sta_traffic traffic[8]; /* Traffic Class Structure (8) */
+
+ __le16 traffic_class0_frag_success; /* Traffic Class 0 Fragment Success */
+ __le16 traffic_class1_frag_success; /* Traffic Class 1 Fragment Success */
+ __le16 traffic_class2_frag_success; /* Traffic Class 2 Fragment Success */
+ __le16 traffic_class3_frag_success; /* Traffic Class 3 Fragment Success */
+ __le16 traffic_class4_frag_success; /* Traffic Class 4 Fragment Success */
+ __le16 traffic_class5_frag_success; /* Traffic Class 5 Fragment Success */
+ __le16 traffic_class6_frag_success; /* Traffic Class 6 Fragment Success */
+ __le16 traffic_class7_frag_success; /* Traffic Class 7 Fragment Success */
+
+ __le16 num_frag_non_prime_rates; /* number of Fragments for non-prime rates */
+ __le16 ack_timeout_non_prime_rates; /* ACK Timeout for non-prime rates */
+
+} __attribute__((__packed__));
+
+
+struct agnx_beacon_hdr {
+ struct agnx_sta_power power; /* Tx Station Power Template */
+ u8 phy_hdr[6]; /* PHY Hdr */
+ u8 frame_len_lo; /* Frame Length Lo */
+ u8 frame_len_hi; /* Frame Length Hi */
+ u8 mac_hdr[24]; /* MAC Header */
+ /* FIXME */
+ /* 802.11(abg) beacon */
+} __attribute__((__packed__));
+
+void hash_write(struct agnx_priv *priv, u8 *mac_addr, u8 sta_id);
+void hash_dump(struct agnx_priv *priv, u8 sta_id);
+void hash_read(struct agnx_priv *priv, u32 reghi, u32 reglo, u8 sta_id);
+void hash_delete(struct agnx_priv *priv, u32 reghi, u32 reglo, u8 sta_id);
+
+void get_sta_power(struct agnx_priv *priv, struct agnx_sta_power *power, unsigned int sta_idx);
+void set_sta_power(struct agnx_priv *priv, struct agnx_sta_power *power,
+ unsigned int sta_idx);
+void get_sta_tx_wq(struct agnx_priv *priv, struct agnx_sta_tx_wq *tx_wq,
+ unsigned int sta_idx, unsigned int wq_idx);
+void set_sta_tx_wq(struct agnx_priv *priv, struct agnx_sta_tx_wq *tx_wq,
+ unsigned int sta_idx, unsigned int wq_idx);
+void get_sta(struct agnx_priv *priv, struct agnx_sta *sta, unsigned int sta_idx);
+void set_sta(struct agnx_priv *priv, struct agnx_sta *sta, unsigned int sta_idx);
+
+void sta_power_init(struct agnx_priv *priv, unsigned int num);
+void sta_init(struct agnx_priv *priv, unsigned int num);
+
+#endif /* AGNX_STA_H_ */
diff --git a/drivers/staging/agnx/table.c b/drivers/staging/agnx/table.c
new file mode 100644
index 0000000..c600484
--- /dev/null
+++ b/drivers/staging/agnx/table.c
@@ -0,0 +1,168 @@
+#include <linux/pci.h>
+#include <linux/delay.h>
+#include "agnx.h"
+#include "debug.h"
+#include "phy.h"
+
+static const u32
+tx_fir_table[] = { 0x19, 0x5d, 0xce, 0x151, 0x1c3, 0x1ff, 0x1ea, 0x17c, 0xcf,
+ 0x19, 0x38e, 0x350, 0x362, 0x3ad, 0x5, 0x44, 0x59, 0x49,
+ 0x21, 0x3f7, 0x3e0, 0x3e3, 0x3f3, 0x0 };
+
+void tx_fir_table_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int i;
+
+ for (i = 0; i < ARRAY_SIZE(tx_fir_table); i++)
+ iowrite32(tx_fir_table[i], ctl + AGNX_FIR_BASE + i*4);
+} /* fir_table_setup */
+
+
+static const u32
+gain_table[] = { 0x8, 0x8, 0xf, 0x13, 0x17, 0x1b, 0x1f, 0x23, 0x27, 0x2b,
+ 0x2f, 0x33, 0x37, 0x3b, 0x3f, 0x43, 0x47, 0x4b, 0x4f,
+ 0x53, 0x57, 0x5b, 0x5f, 0x5f, 0x5f, 0x5f, 0x5f, 0x5f,
+ 0x5f, 0x5f, 0x5f, 0x5f };
+
+void gain_table_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ int i;
+
+ for (i = 0; i < ARRAY_SIZE(gain_table); i++) {
+ iowrite32(gain_table[i], ctl + AGNX_GAIN_TABLE + i*4);
+ iowrite32(gain_table[i], ctl + AGNX_GAIN_TABLE + i*4 + 0x80);
+ }
+} /* gain_table_init */
+
+void monitor_gain_table_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ unsigned int i;
+
+ for (i = 0; i < 0x44; i += 4) {
+ iowrite32(0x61, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0x61, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+ for (i = 0x44; i < 0x64; i += 4) {
+ iowrite32(0x6e, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0x6e, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+ for (i = 0x64; i < 0x94; i += 4) {
+ iowrite32(0x7a, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0x7a, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+ for (i = 0x94; i < 0xdc; i += 4) {
+ iowrite32(0x87, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0x87, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+ for (i = 0xdc; i < 0x148; i += 4) {
+ iowrite32(0x95, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0x95, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+ for (i = 0x148; i < 0x1e8; i += 4) {
+ iowrite32(0xa2, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0xa2, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+ for (i = 0x1e8; i <= 0x1fc; i += 4) {
+ iowrite32(0xb0, ctl + AGNX_MONGCR_BASE + i);
+ iowrite32(0xb0, ctl + AGNX_MONGCR_BASE + 0x200 + i);
+ }
+} /* monitor_gain_table_init */
+
+
+void routing_table_init(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ unsigned int type, subtype;
+ u32 reg;
+
+ disable_receiver(priv);
+
+ for ( type = 0; type < 0x3; type++ ) {
+ for (subtype = 0; subtype < 0x10; subtype++) {
+ /* 1. Set Routing table to R/W and to Return status on Read */
+ reg = (type << ROUTAB_TYPE_SHIFT) |
+ (subtype << ROUTAB_SUBTYPE_SHIFT);
+ reg |= (1 << ROUTAB_RW_SHIFT) | (1 << ROUTAB_STATUS_SHIFT);
+ if (type == ROUTAB_TYPE_DATA) {
+ /* NULL goes to RFP */
+ if (subtype == ROUTAB_SUBTYPE_NULL)
+// reg |= ROUTAB_ROUTE_RFP;
+ reg |= ROUTAB_ROUTE_CPU;
+ /* QOS NULL goes to CPU */
+ else if (subtype == ROUTAB_SUBTYPE_QOSNULL)
+ reg |= ROUTAB_ROUTE_CPU;
+ /* All Data and QOS data subtypes go to Encryption */
+ else if ((subtype == ROUTAB_SUBTYPE_DATA) ||
+ (subtype == ROUTAB_SUBTYPE_DATAACK) ||
+ (subtype == ROUTAB_SUBTYPE_DATAPOLL) ||
+ (subtype == ROUTAB_SUBTYPE_DATAPOLLACK) ||
+ (subtype == ROUTAB_SUBTYPE_QOSDATA) ||
+ (subtype == ROUTAB_SUBTYPE_QOSDATAACK) ||
+ (subtype == ROUTAB_SUBTYPE_QOSDATAPOLL) ||
+ (subtype == ROUTAB_SUBTYPE_QOSDATAACKPOLL))
+ reg |= ROUTAB_ROUTE_ENCRY;
+// reg |= ROUTAB_ROUTE_CPU;
+ /*Drop NULL and QOS NULL ack, poll and poll ack*/
+ else if ((subtype == ROUTAB_SUBTYPE_NULLACK) ||
+ (subtype == ROUTAB_SUBTYPE_QOSNULLACK) ||
+ (subtype == ROUTAB_SUBTYPE_NULLPOLL) ||
+ (subtype == ROUTAB_SUBTYPE_QOSNULLPOLL) ||
+ (subtype == ROUTAB_SUBTYPE_NULLPOLLACK) ||
+ (subtype == ROUTAB_SUBTYPE_QOSNULLPOLLACK))
+// reg |= ROUTAB_ROUTE_DROP;
+ reg |= ROUTAB_ROUTE_CPU;
+ }
+ else
+ reg |= (ROUTAB_ROUTE_CPU);
+ iowrite32(reg, ctl + AGNX_RXM_ROUTAB);
+ /* Check to verify that the status bit cleared */
+ routing_table_delay();
+ }
+ }
+ enable_receiver(priv);
+} /* routing_table_init */
+
+void tx_engine_lookup_tbl_init(struct agnx_priv *priv)
+{
+ void __iomem *data = priv->data;
+ unsigned int i;
+
+ for (i = 0; i <= 28; i += 4)
+ iowrite32(0xb00c, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ for (i = 32; i <= 120; i += 8) {
+ iowrite32(0x1e58, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ iowrite32(0xb00c, data + AGNX_ENGINE_LOOKUP_TBL + i + 4);
+ }
+
+ for (i = 128; i <= 156; i += 4)
+ iowrite32(0x980c, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ for (i = 160; i <= 248; i += 8) {
+ iowrite32(0x1858, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ iowrite32(0x980c, data + AGNX_ENGINE_LOOKUP_TBL + i + 4);
+ }
+
+ for (i = 256; i <= 284; i += 4)
+ iowrite32(0x980c, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ for (i = 288; i <= 376; i += 8) {
+ iowrite32(0x1a58, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ iowrite32(0x1858, data + AGNX_ENGINE_LOOKUP_TBL + i + 4);
+ }
+
+ for (i = 512; i <= 540; i += 4)
+ iowrite32(0xc00c, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ for (i = 544; i <= 632; i += 8) {
+ iowrite32(0x2058, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ iowrite32(0xc00c, data + AGNX_ENGINE_LOOKUP_TBL + i + 4);
+ }
+
+ for (i = 640; i <= 668; i += 4)
+ iowrite32(0xc80c, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ for (i = 672; i <= 764; i += 8) {
+ iowrite32(0x2258, data + AGNX_ENGINE_LOOKUP_TBL + i);
+ iowrite32(0xc80c, data + AGNX_ENGINE_LOOKUP_TBL + i + 4);
+ }
+}
+
diff --git a/drivers/staging/agnx/table.h b/drivers/staging/agnx/table.h
new file mode 100644
index 0000000..f0626b5
--- /dev/null
+++ b/drivers/staging/agnx/table.h
@@ -0,0 +1,10 @@
+#ifndef AGNX_TABLE_H_
+#define AGNX_TABLE_H_
+
+void tx_fir_table_init(struct agnx_priv *priv);
+void gain_table_init(struct agnx_priv *priv);
+void monitor_gain_table_init(struct agnx_priv *priv);
+void routing_table_init(struct agnx_priv *priv);
+void tx_engine_lookup_tbl_init(struct agnx_priv *priv);
+
+#endif /* AGNX_TABLE_H_ */
diff --git a/drivers/staging/agnx/xmit.c b/drivers/staging/agnx/xmit.c
new file mode 100644
index 0000000..42ed7d5
--- /dev/null
+++ b/drivers/staging/agnx/xmit.c
@@ -0,0 +1,819 @@
+/**
+ * Airgo MIMO wireless driver
+ *
+ * Copyright (c) 2007 Li YanBo <dreamfly281@gmail.com>
+
+ * Thanks for Jeff Williams <angelbane@gmail.com> do reverse engineer
+ * works and published the SPECS at http://airgo.wdwconsulting.net/mymoin
+
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License version 2 as
+ * published by the Free Software Foundation.
+ */
+
+#include <linux/pci.h>
+#include <linux/delay.h>
+#include "agnx.h"
+#include "debug.h"
+#include "phy.h"
+
+unsigned int rx_frame_cnt = 0;
+//unsigned int local_tx_sent_cnt = 0;
+
+static inline void disable_rx_engine(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ iowrite32(0x100, ctl + AGNX_CIR_RXCTL);
+ /* Wait for RX Control to have the Disable Rx Interrupt (0x100) set */
+ ioread32(ctl + AGNX_CIR_RXCTL);
+}
+
+static inline void enable_rx_engine(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ iowrite32(0x80, ctl + AGNX_CIR_RXCTL);
+ ioread32(ctl + AGNX_CIR_RXCTL);
+}
+
+inline void disable_rx_interrupt(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ disable_rx_engine(priv);
+ reg = ioread32(ctl + AGNX_CIR_RXCFG);
+ reg &= ~0x20;
+ iowrite32(reg, ctl + AGNX_CIR_RXCFG);
+ ioread32(ctl + AGNX_CIR_RXCFG);
+}
+
+inline void enable_rx_interrupt(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ reg = ioread32(ctl + AGNX_CIR_RXCFG);
+ reg |= 0x20;
+ iowrite32(reg, ctl + AGNX_CIR_RXCFG);
+ ioread32(ctl + AGNX_CIR_RXCFG);
+ enable_rx_engine(priv);
+}
+
+static inline void rx_desc_init(struct agnx_priv *priv, unsigned int idx)
+{
+ struct agnx_desc *desc = priv->rx.desc + idx;
+ struct agnx_info *info = priv->rx.info + idx;
+
+ memset(info, 0, sizeof(*info));
+
+ info->dma_len = IEEE80211_MAX_RTS_THRESHOLD + sizeof(struct agnx_hdr);
+ info->skb = dev_alloc_skb(info->dma_len);
+ if (info->skb == NULL)
+ agnx_bug("refill err");
+
+ info->mapping = pci_map_single(priv->pdev, skb_tail_pointer(info->skb),
+ info->dma_len, PCI_DMA_FROMDEVICE);
+ memset(desc, 0, sizeof(*desc));
+ desc->dma_addr = cpu_to_be32(info->mapping);
+ /* Set the owner to the card */
+ desc->frag = cpu_to_be32(be32_to_cpu(desc->frag) | OWNER);
+}
+
+static inline void rx_desc_reinit(struct agnx_priv *priv, unsigned int idx)
+{
+ struct agnx_info *info = priv->rx.info + idx;
+
+ /* Cause ieee80211 will free the skb buffer, so we needn't to free it again?! */
+ pci_unmap_single(priv->pdev, info->mapping, info->dma_len, PCI_DMA_FROMDEVICE);
+ rx_desc_init(priv, idx);
+}
+
+static inline void rx_desc_reusing(struct agnx_priv *priv, unsigned int idx)
+{
+ struct agnx_desc *desc = priv->rx.desc + idx;
+ struct agnx_info *info = priv->rx.info + idx;
+
+ memset(desc, 0, sizeof(*desc));
+ desc->dma_addr = cpu_to_be32(info->mapping);
+ /* Set the owner to the card */
+ desc->frag = cpu_to_be32(be32_to_cpu(desc->frag) | OWNER);
+}
+
+static void rx_desc_free(struct agnx_priv *priv, unsigned int idx)
+{
+ struct agnx_desc *desc = priv->rx.desc + idx;
+ struct agnx_info *info = priv->rx.info + idx;
+
+ BUG_ON(!desc || !info);
+ if (info->mapping)
+ pci_unmap_single(priv->pdev, info->mapping, info->dma_len, PCI_DMA_FROMDEVICE);
+ if (info->skb)
+ dev_kfree_skb(info->skb);
+ memset(info, 0, sizeof(*info));
+ memset(desc, 0, sizeof(*desc));
+}
+
+static inline void __tx_desc_free(struct agnx_priv *priv,
+ struct agnx_desc *desc, struct agnx_info *info)
+{
+ BUG_ON(!desc || !info);
+ /* TODO make sure mapping, skb and len are consistency */
+ if (info->mapping)
+ pci_unmap_single(priv->pdev, info->mapping,
+ info->dma_len, PCI_DMA_TODEVICE);
+ if (info->type == PACKET)
+ dev_kfree_skb(info->skb);
+
+ memset(info, 0, sizeof(*info));
+ memset(desc, 0, sizeof(*desc));
+}
+
+static void txm_desc_free(struct agnx_priv *priv, unsigned int idx)
+{
+ struct agnx_desc *desc = priv->txm.desc + idx;
+ struct agnx_info *info = priv->txm.info + idx;
+
+ __tx_desc_free(priv, desc, info);
+}
+
+static void txd_desc_free(struct agnx_priv *priv, unsigned int idx)
+{
+ struct agnx_desc *desc = priv->txd.desc + idx;
+ struct agnx_info *info = priv->txd.info + idx;
+
+ __tx_desc_free(priv, desc, info);
+}
+
+int fill_rings(struct agnx_priv *priv)
+{
+ void __iomem *ctl = priv->ctl;
+ unsigned int i;
+ u32 reg;
+ AGNX_TRACE;
+
+ priv->txd.idx_sent = priv->txm.idx_sent = 0;
+ priv->rx.idx = priv->txm.idx = priv->txd.idx = 0;
+
+ for (i = 0; i < priv->rx.size; i++)
+ rx_desc_init(priv, i);
+ for (i = 0; i < priv->txm.size; i++) {
+ memset(priv->txm.desc + i, 0, sizeof(struct agnx_desc));
+ memset(priv->txm.info + i, 0, sizeof(struct agnx_info));
+ }
+ for (i = 0; i < priv->txd.size; i++) {
+ memset(priv->txd.desc + i, 0, sizeof(struct agnx_desc));
+ memset(priv->txd.info + i, 0, sizeof(struct agnx_info));
+ }
+
+ /* FIXME Set the card RX TXM and TXD address */
+ agnx_write32(ctl, AGNX_CIR_RXCMSTART, priv->rx.dma);
+ agnx_write32(ctl, AGNX_CIR_RXCMEND, priv->txm.dma);
+
+ agnx_write32(ctl, AGNX_CIR_TXMSTART, priv->txm.dma);
+ agnx_write32(ctl, AGNX_CIR_TXMEND, priv->txd.dma);
+
+ agnx_write32(ctl, AGNX_CIR_TXDSTART, priv->txd.dma);
+ agnx_write32(ctl, AGNX_CIR_TXDEND, priv->txd.dma +
+ sizeof(struct agnx_desc) * priv->txd.size);
+
+ /* FIXME Relinquish control of rings to card */
+ reg = agnx_read32(ctl, AGNX_CIR_BLKCTL);
+ reg &= ~0x800;
+ agnx_write32(ctl, AGNX_CIR_BLKCTL, reg);
+ return 0;
+} /* fill_rings */
+
+void unfill_rings(struct agnx_priv *priv)
+{
+ unsigned long flags;
+ unsigned int i;
+ AGNX_TRACE;
+
+ spin_lock_irqsave(&priv->lock, flags);
+
+ for (i = 0; i < priv->rx.size; i++)
+ rx_desc_free(priv, i);
+ for (i = 0; i < priv->txm.size; i++)
+ txm_desc_free(priv, i);
+ for (i = 0; i < priv->txd.size; i++)
+ txd_desc_free(priv, i);
+
+ spin_unlock_irqrestore(&priv->lock, flags);
+}
+
+/* Extract the bitrate out of a CCK PLCP header.
+ copy from bcm43xx driver */
+static inline u8 agnx_plcp_get_bitrate_cck(__be32 *phyhdr_11b)
+{
+ /* FIXME */
+ switch (*(u8 *)phyhdr_11b) {
+ case 0x0A:
+ return 0;
+ case 0x14:
+ return 1;
+ case 0x37:
+ return 2;
+ case 0x6E:
+ return 3;
+ }
+ agnx_bug("Wrong plcp rate");
+ return 0;
+}
+
+/* FIXME */
+static inline u8 agnx_plcp_get_bitrate_ofdm(__be32 *phyhdr_11g)
+{
+ u8 rate = *(u8 *)phyhdr_11g & 0xF;
+
+ printk(PFX "G mode rate is 0x%x\n", rate);
+ return rate;
+}
+
+/* FIXME */
+static void get_rx_stats(struct agnx_priv *priv, struct agnx_hdr *hdr,
+ struct ieee80211_rx_status *stat)
+{
+ void __iomem *ctl = priv->ctl;
+ u8 *rssi;
+ u32 noise;
+ /* FIXME just for test */
+ int snr = 40; /* signal-to-noise ratio */
+
+ memset(stat, 0, sizeof(*stat));
+ /* RSSI */
+ rssi = (u8 *)&hdr->phy_stats_lo;
+// stat->ssi = (rssi[0] + rssi[1] + rssi[2]) / 3;
+ /* Noise */
+ noise = ioread32(ctl + AGNX_GCR_NOISE0);
+ noise += ioread32(ctl + AGNX_GCR_NOISE1);
+ noise += ioread32(ctl + AGNX_GCR_NOISE2);
+ stat->noise = noise / 3;
+ /* Signal quality */
+ //snr = stat->ssi - stat->noise;
+ if (snr >=0 && snr < 40)
+ stat->signal = 5 * snr / 2;
+ else if (snr >= 40)
+ stat->signal = 100;
+ else
+ stat->signal = 0;
+
+
+ if (hdr->_11b0 && !hdr->_11g0) {
+ stat->rate_idx = agnx_plcp_get_bitrate_cck(&hdr->_11b0);
+ } else if (!hdr->_11b0 && hdr->_11g0) {
+ printk(PFX "RX: Found G mode packet\n");
+ stat->rate_idx = agnx_plcp_get_bitrate_ofdm(&hdr->_11g0);
+ } else
+ agnx_bug("Unknown packets type");
+
+
+ stat->band = IEEE80211_BAND_2GHZ;
+ stat->freq = agnx_channels[priv->channel - 1].center_freq;
+// stat->antenna = 3;
+// stat->mactime = be32_to_cpu(hdr->time_stamp);
+// stat->channel = priv->channel;
+
+}
+
+static inline void combine_hdr_frag(struct ieee80211_hdr *ieeehdr,
+ struct sk_buff *skb)
+{
+ u16 fctl;
+ unsigned int hdrlen;
+
+ fctl = le16_to_cpu(ieeehdr->frame_control);
+ hdrlen = ieee80211_hdrlen(fctl);
+ /* FIXME */
+ if (hdrlen < (2+2+6)/*minimum hdr*/ ||
+ hdrlen > sizeof(struct ieee80211_mgmt)) {
+ printk(KERN_ERR PFX "hdr len is %d\n", hdrlen);
+ agnx_bug("Wrong ieee80211 hdr detected");
+ }
+ skb_push(skb, hdrlen);
+ memcpy(skb->data, ieeehdr, hdrlen);
+} /* combine_hdr_frag */
+
+static inline int agnx_packet_check(struct agnx_priv *priv, struct agnx_hdr *agnxhdr,
+ unsigned packet_len)
+{
+ if (agnx_get_bits(CRC_FAIL, CRC_FAIL_SHIFT, be32_to_cpu(agnxhdr->reg1)) == 1){
+ printk(PFX "RX: CRC check fail\n");
+ goto drop;
+ }
+ if (packet_len > 2048) {
+ printk(PFX "RX: Too long packet detected\n");
+ goto drop;
+ }
+
+ /* FIXME Just usable for Promious Mode, for Manage mode exclude FCS */
+/* if (packet_len - sizeof(*agnxhdr) < FCS_LEN) { */
+/* printk(PFX "RX: Too short packet detected\n"); */
+/* goto drop; */
+/* } */
+ return 0;
+drop:
+ priv->stats.dot11FCSErrorCount++;
+ return -1;
+}
+
+void handle_rx_irq(struct agnx_priv *priv)
+{
+ struct ieee80211_rx_status status;
+ unsigned int len;
+// AGNX_TRACE;
+
+ do {
+ struct agnx_desc *desc;
+ u32 frag;
+ struct agnx_info *info;
+ struct agnx_hdr *hdr;
+ struct sk_buff *skb;
+ unsigned int i = priv->rx.idx % priv->rx.size;
+
+ desc = priv->rx.desc + i;
+ frag = be32_to_cpu(desc->frag);
+ if (frag & OWNER)
+ break;
+
+ info = priv->rx.info + i;
+ skb = info->skb;
+ hdr = (struct agnx_hdr *)(skb->data);
+
+ len = (frag & PACKET_LEN) >> PACKET_LEN_SHIFT;
+ if (agnx_packet_check(priv, hdr, len) == -1) {
+ rx_desc_reusing(priv, i);
+ continue;
+ }
+ skb_put(skb, len);
+
+ do {
+ u16 fctl;
+ fctl = le16_to_cpu(((struct ieee80211_hdr *)hdr->mac_hdr)->frame_control);
+ if ((fctl & IEEE80211_FCTL_STYPE) != IEEE80211_STYPE_BEACON)// && !(fctl & IEEE80211_STYPE_BEACON))
+ dump_ieee80211_hdr((struct ieee80211_hdr *)hdr->mac_hdr, "RX");
+ } while (0);
+
+ if (hdr->_11b0 && !hdr->_11g0) {
+/* int j; */
+/* u16 fctl = le16_to_cpu(((struct ieee80211_hdr *)hdr->mac_hdr) */
+/* ->frame_control); */
+/* if ( (fctl & IEEE80211_FCTL_FTYPE) == IEEE80211_FTYPE_DATA) { */
+/* agnx_print_rx_hdr(hdr); */
+// agnx_print_sta(priv, BSSID_STAID);
+/* for (j = 0; j < 8; j++) */
+/* agnx_print_sta_tx_wq(priv, BSSID_STAID, j); */
+/* } */
+
+ get_rx_stats(priv, hdr, &status);
+ skb_pull(skb, sizeof(*hdr));
+ combine_hdr_frag((struct ieee80211_hdr *)hdr->mac_hdr, skb);
+ } else if (!hdr->_11b0 && hdr->_11g0) {
+// int j;
+ agnx_print_rx_hdr(hdr);
+ agnx_print_sta(priv, BSSID_STAID);
+// for (j = 0; j < 8; j++)
+ agnx_print_sta_tx_wq(priv, BSSID_STAID, 0);
+
+ print_hex_dump_bytes("agnx: RX_PACKET: ", DUMP_PREFIX_NONE,
+ skb->data, skb->len + 8);
+
+// if (agnx_plcp_get_bitrate_ofdm(&hdr->_11g0) == 0)
+ get_rx_stats(priv, hdr, &status);
+ skb_pull(skb, sizeof(*hdr));
+ combine_hdr_frag((struct ieee80211_hdr *)
+ ((void *)&hdr->mac_hdr), skb);
+// dump_ieee80211_hdr((struct ieee80211_hdr *)skb->data, "RX G");
+ } else
+ agnx_bug("Unknown packets type");
+ ieee80211_rx_irqsafe(priv->hw, skb, &status);
+ rx_desc_reinit(priv, i);
+
+ } while ( priv->rx.idx++ );
+} /* handle_rx_irq */
+
+static inline void handle_tx_irq(struct agnx_priv *priv, struct agnx_ring *ring)
+{
+ struct agnx_desc *desc;
+ struct agnx_info *info;
+ unsigned int idx;
+
+ for (idx = ring->idx_sent; idx < ring->idx; idx++) {
+ unsigned int i = idx % ring->size;
+ u32 frag;
+
+ desc = ring->desc + i;
+ info = ring->info + i;
+
+ frag = be32_to_cpu(desc->frag);
+ if (frag & OWNER) {
+ if (info->type == HEADER)
+ break;
+ else
+ agnx_bug("TX error");
+ }
+
+ pci_unmap_single(priv->pdev, info->mapping, info->dma_len, PCI_DMA_TODEVICE);
+
+ do {
+// int j;
+ size_t len;
+ len = info->skb->len - sizeof(struct agnx_hdr) + info->hdr_len;
+ // if (len == 614) {
+// agnx_print_desc(desc);
+ if (info->type == PACKET) {
+// agnx_print_tx_hdr((struct agnx_hdr *)info->skb->data);
+/* agnx_print_sta_power(priv, LOCAL_STAID); */
+/* agnx_print_sta(priv, LOCAL_STAID); */
+/* // for (j = 0; j < 8; j++) */
+/* agnx_print_sta_tx_wq(priv, LOCAL_STAID, 0); */
+// agnx_print_sta_power(priv, BSSID_STAID);
+// agnx_print_sta(priv, BSSID_STAID);
+// for (j = 0; j < 8; j++)
+// agnx_print_sta_tx_wq(priv, BSSID_STAID, 0);
+ }
+// }
+ } while (0);
+
+ if (info->type == PACKET) {
+// dump_txm_registers(priv);
+// dump_rxm_registers(priv);
+// dump_bm_registers(priv);
+// dump_cir_registers(priv);
+ }
+
+ if (info->type == PACKET) {
+// struct ieee80211_hdr *hdr;
+ struct ieee80211_tx_info *txi = IEEE80211_SKB_CB(info->skb);
+
+ skb_pull(info->skb, sizeof(struct agnx_hdr));
+ memcpy(skb_push(info->skb, info->hdr_len), &info->hdr, info->hdr_len);
+
+// dump_ieee80211_hdr((struct ieee80211_hdr *)info->skb->data, "TX_HANDLE");
+/* print_hex_dump_bytes("agnx: TX_HANDLE: ", DUMP_PREFIX_NONE, */
+/* info->skb->data, info->skb->len); */
+
+ if (!(txi->flags & IEEE80211_TX_CTL_NO_ACK))
+ txi->flags |= IEEE80211_TX_STAT_ACK;
+
+ ieee80211_tx_status_irqsafe(priv->hw, info->skb);
+
+
+/* info->tx_status.queue_number = (ring->size - i) / 2; */
+/* ieee80211_tx_status_irqsafe(priv->hw, info->skb, &(info->tx_status)); */
+/* } else */
+/* dev_kfree_skb_irq(info->skb); */
+ }
+ memset(desc, 0, sizeof(*desc));
+ memset(info, 0, sizeof(*info));
+ }
+
+ ring->idx_sent = idx;
+ /* TODO fill the priv->low_level_stats */
+
+ /* ieee80211_wake_queue(priv->hw, 0); */
+}
+
+void handle_txm_irq(struct agnx_priv *priv)
+{
+ handle_tx_irq(priv, &priv->txm);
+}
+
+void handle_txd_irq(struct agnx_priv *priv)
+{
+ handle_tx_irq(priv, &priv->txd);
+}
+
+void handle_other_irq(struct agnx_priv *priv)
+{
+// void __iomem *ctl = priv->ctl;
+ u32 status = priv->irq_status;
+ void __iomem *ctl = priv->ctl;
+ u32 reg;
+
+ if (status & IRQ_TX_BEACON) {
+ iowrite32(IRQ_TX_BEACON, ctl + AGNX_INT_STAT);
+ printk(PFX "IRQ: TX Beacon control is 0X%.8X\n", ioread32(ctl + AGNX_TXM_BEACON_CTL));
+ printk(PFX "IRQ: TX Beacon rx frame num: %d\n", rx_frame_cnt);
+ }
+ if (status & IRQ_TX_RETRY) {
+ reg = ioread32(ctl + AGNX_TXM_RETRYSTAID);
+ printk(PFX "IRQ: TX Retry, RETRY STA ID is %x\n", reg);
+ }
+ if (status & IRQ_TX_ACTIVITY)
+ printk(PFX "IRQ: TX Activity\n");
+ if (status & IRQ_RX_ACTIVITY)
+ printk(PFX "IRQ: RX Activity\n");
+ if (status & IRQ_RX_X)
+ printk(PFX "IRQ: RX X\n");
+ if (status & IRQ_RX_Y) {
+ reg = ioread32(ctl + AGNX_INT_MASK);
+ reg &= ~IRQ_RX_Y;
+ iowrite32(reg, ctl + AGNX_INT_MASK);
+ iowrite32(IRQ_RX_Y, ctl + AGNX_INT_STAT);
+ printk(PFX "IRQ: RX Y\n");
+ }
+ if (status & IRQ_RX_HASHHIT) {
+ reg = ioread32(ctl + AGNX_INT_MASK);
+ reg &= ~IRQ_RX_HASHHIT;
+ iowrite32(reg, ctl + AGNX_INT_MASK);
+ iowrite32(IRQ_RX_HASHHIT, ctl + AGNX_INT_STAT);
+ printk(PFX "IRQ: RX Hash Hit\n");
+
+ }
+ if (status & IRQ_RX_FRAME) {
+ reg = ioread32(ctl + AGNX_INT_MASK);
+ reg &= ~IRQ_RX_FRAME;
+ iowrite32(reg, ctl + AGNX_INT_MASK);
+ iowrite32(IRQ_RX_FRAME, ctl + AGNX_INT_STAT);
+ printk(PFX "IRQ: RX Frame\n");
+ rx_frame_cnt++;
+ }
+ if (status & IRQ_ERR_INT) {
+ iowrite32(IRQ_ERR_INT, ctl + AGNX_INT_STAT);
+// agnx_hw_reset(priv);
+ printk(PFX "IRQ: Error Interrupt\n");
+ }
+ if (status & IRQ_TX_QUE_FULL)
+ printk(PFX "IRQ: TX Workqueue Full\n");
+ if (status & IRQ_BANDMAN_ERR)
+ printk(PFX "IRQ: Bandwidth Management Error\n");
+ if (status & IRQ_TX_DISABLE)
+ printk(PFX "IRQ: TX Disable\n");
+ if (status & IRQ_RX_IVASESKEY)
+ printk(PFX "IRQ: RX Invalid Session Key\n");
+ if (status & IRQ_REP_THHIT)
+ printk(PFX "IRQ: Replay Threshold Hit\n");
+ if (status & IRQ_TIMER1)
+ printk(PFX "IRQ: Timer1\n");
+ if (status & IRQ_TIMER_CNT)
+ printk(PFX "IRQ: Timer Count\n");
+ if (status & IRQ_PHY_FASTINT)
+ printk(PFX "IRQ: Phy Fast Interrupt\n");
+ if (status & IRQ_PHY_SLOWINT)
+ printk(PFX "IRQ: Phy Slow Interrupt\n");
+ if (status & IRQ_OTHER)
+ printk(PFX "IRQ: 0x80000000\n");
+} /* handle_other_irq */
+
+
+static inline void route_flag_set(struct agnx_hdr *txhdr)
+{
+// u32 reg = 0;
+
+ /* FIXME */
+/* reg = (0x7 << ROUTE_COMPRESSION_SHIFT) & ROUTE_COMPRESSION; */
+/* txhdr->reg5 = cpu_to_be32(reg); */
+ txhdr->reg5 = (0xa << 0x0) | (0x7 << 0x18);
+// txhdr->reg5 = cpu_to_be32((0xa << 0x0) | (0x7 << 0x18));
+// txhdr->reg5 = cpu_to_be32(0x7 << 0x0);
+}
+
+/* Return 0 if no match */
+static inline unsigned int get_power_level(unsigned int rate, unsigned int antennas_num)
+{
+ unsigned int power_level;
+
+ switch (rate) {
+ case 10:
+ case 20:
+ case 55:
+ case 60:
+ case 90:
+ case 120: power_level = 22; break;
+ case 180: power_level = 19; break;
+ case 240: power_level = 18; break;
+ case 360: power_level = 16; break;
+ case 480: power_level = 15; break;
+ case 540: power_level = 14; break;
+ default:
+ agnx_bug("Error rate setting\n");
+ }
+
+ if (power_level && (antennas_num == 2))
+ power_level -= 3;
+
+ return power_level;
+}
+
+static inline void fill_agnx_hdr(struct agnx_priv *priv, struct agnx_info *tx_info)
+{
+ struct agnx_hdr *txhdr = (struct agnx_hdr *)tx_info->skb->data;
+ size_t len;
+ u16 fc = le16_to_cpu(*(__le16 *)&tx_info->hdr);
+ u32 reg;
+
+ memset(txhdr, 0, sizeof(*txhdr));
+
+// reg = agnx_set_bits(STATION_ID, STATION_ID_SHIFT, LOCAL_STAID);
+ reg = agnx_set_bits(STATION_ID, STATION_ID_SHIFT, BSSID_STAID);
+ reg |= agnx_set_bits(WORKQUEUE_ID, WORKQUEUE_ID_SHIFT, 0);
+ txhdr->reg4 = cpu_to_be32(reg);
+
+ /* Set the Hardware Sequence Number to 1? */
+ reg = agnx_set_bits(SEQUENCE_NUMBER, SEQUENCE_NUMBER_SHIFT, 0);
+// reg = agnx_set_bits(SEQUENCE_NUMBER, SEQUENCE_NUMBER_SHIFT, 1);
+ reg |= agnx_set_bits(MAC_HDR_LEN, MAC_HDR_LEN_SHIFT, tx_info->hdr_len);
+ txhdr->reg1 = cpu_to_be32(reg);
+ /* Set the agnx_hdr's MAC header */
+ memcpy(txhdr->mac_hdr, &tx_info->hdr, tx_info->hdr_len);
+
+ reg = agnx_set_bits(ACK, ACK_SHIFT, 1);
+// reg = agnx_set_bits(ACK, ACK_SHIFT, 0);
+ reg |= agnx_set_bits(MULTICAST, MULTICAST_SHIFT, 0);
+// reg |= agnx_set_bits(MULTICAST, MULTICAST_SHIFT, 1);
+ reg |= agnx_set_bits(RELAY, RELAY_SHIFT, 0);
+ reg |= agnx_set_bits(TM, TM_SHIFT, 0);
+ txhdr->reg0 = cpu_to_be32(reg);
+
+ /* Set the long and short retry limits */
+ txhdr->tx.short_retry_limit = tx_info->txi->control.retry_limit;
+ txhdr->tx.long_retry_limit = tx_info->txi->control.retry_limit;
+
+ /* FIXME */
+ len = tx_info->skb->len - sizeof(*txhdr) + tx_info->hdr_len + FCS_LEN;
+ if (fc & IEEE80211_FCTL_PROTECTED)
+ len += 8;
+ len = 2398;
+ reg = agnx_set_bits(FRAG_SIZE, FRAG_SIZE_SHIFT, len);
+ len = tx_info->skb->len - sizeof(*txhdr);
+ reg |= agnx_set_bits(PAYLOAD_LEN, PAYLOAD_LEN_SHIFT, len);
+ txhdr->reg3 = cpu_to_be32(reg);
+
+ route_flag_set(txhdr);
+} /* fill_hdr */
+
+static void txm_power_set(struct agnx_priv *priv,
+ struct ieee80211_tx_info *txi)
+{
+ struct agnx_sta_power power;
+ u32 reg;
+
+ /* FIXME */
+ if (txi->tx_rate_idx < 0) {
+ /* For B mode Short Preamble */
+ reg = agnx_set_bits(PHY_MODE, PHY_MODE_SHIFT, AGNX_MODE_80211B_SHORT);
+// control->tx_rate = -control->tx_rate;
+ } else
+ reg = agnx_set_bits(PHY_MODE, PHY_MODE_SHIFT, AGNX_MODE_80211G);
+// reg = agnx_set_bits(PHY_MODE, PHY_MODE_SHIFT, AGNX_MODE_80211B_LONG);
+ reg |= agnx_set_bits(SIGNAL, SIGNAL_SHIFT, 0xB);
+ reg |= agnx_set_bits(RATE, RATE_SHIFT, 0xB);
+// reg |= agnx_set_bits(POWER_LEVEL, POWER_LEVEL_SHIFT, 15);
+ reg |= agnx_set_bits(POWER_LEVEL, POWER_LEVEL_SHIFT, 20);
+ /* if rate < 11M set it to 0 */
+ reg |= agnx_set_bits(NUM_TRANSMITTERS, NUM_TRANSMITTERS_SHIFT, 1);
+// reg |= agnx_set_bits(EDCF, EDCF_SHIFT, 1);
+// reg |= agnx_set_bits(TIFS, TIFS_SHIFT, 1);
+
+ power.reg = reg;
+// power.reg = cpu_to_le32(reg);
+
+// set_sta_power(priv, &power, LOCAL_STAID);
+ set_sta_power(priv, &power, BSSID_STAID);
+}
+
+static inline int tx_packet_check(struct sk_buff *skb)
+{
+ unsigned int ieee_len = ieee80211_get_hdrlen_from_skb(skb);
+ if (skb->len > 2048) {
+ printk(KERN_ERR PFX "length is %d\n", skb->len);
+ agnx_bug("Too long TX skb");
+ return -1;
+ }
+ /* FIXME */
+ if (skb->len == ieee_len) {
+ printk(PFX "A strange TX packet\n");
+ return -1;
+ /* tx_faile_irqsafe(); */
+ }
+ return 0;
+}
+
+static int __agnx_tx(struct agnx_priv *priv, struct sk_buff *skb,
+ struct agnx_ring *ring)
+{
+ struct agnx_desc *hdr_desc, *frag_desc;
+ struct agnx_info *hdr_info, *frag_info;
+ struct ieee80211_tx_info *txi = IEEE80211_SKB_CB(skb);
+ unsigned long flags;
+ unsigned int i;
+
+ spin_lock_irqsave(&priv->lock, flags);
+
+ /* The RX interrupt need be Disable until this TX packet
+ is handled in the next tx interrupt */
+ disable_rx_interrupt(priv);
+
+ i = ring->idx;
+ ring->idx += 2;
+/* if (priv->txm_idx - priv->txm_idx_sent == AGNX_TXM_RING_SIZE - 2) */
+/* ieee80211_stop_queue(priv->hw, 0); */
+
+ /* Set agnx header's info and desc */
+ i %= ring->size;
+ hdr_desc = ring->desc + i;
+ hdr_info = ring->info + i;
+ hdr_info->hdr_len = ieee80211_get_hdrlen_from_skb(skb);
+ memcpy(&hdr_info->hdr, skb->data, hdr_info->hdr_len);
+
+ /* Add the agnx header to the front of the SKB */
+ skb_push(skb, sizeof(struct agnx_hdr) - hdr_info->hdr_len);
+
+ hdr_info->txi = txi;
+ hdr_info->dma_len = sizeof(struct agnx_hdr);
+ hdr_info->skb = skb;
+ hdr_info->type = HEADER;
+ fill_agnx_hdr(priv, hdr_info);
+ hdr_info->mapping = pci_map_single(priv->pdev, skb->data,
+ hdr_info->dma_len, PCI_DMA_TODEVICE);
+ do {
+ u32 frag = 0;
+ frag |= agnx_set_bits(FIRST_FRAG, FIRST_FRAG_SHIFT, 1);
+ frag |= agnx_set_bits(LAST_FRAG, LAST_FRAG_SHIFT, 0);
+ frag |= agnx_set_bits(PACKET_LEN, PACKET_LEN_SHIFT, skb->len);
+ frag |= agnx_set_bits(FIRST_FRAG_LEN, FIRST_FRAG_LEN_SHIFT, 1);
+ frag |= agnx_set_bits(OWNER, OWNER_SHIFT, 1);
+ hdr_desc->frag = cpu_to_be32(frag);
+ } while (0);
+ hdr_desc->dma_addr = cpu_to_be32(hdr_info->mapping);
+
+
+ /* Set Frag's info and desc */
+ i = (i + 1) % ring->size;
+ frag_desc = ring->desc + i;
+ frag_info = ring->info + i;
+ memcpy(frag_info, hdr_info, sizeof(struct agnx_info));
+ frag_info->type = PACKET;
+ frag_info->dma_len = skb->len - hdr_info->dma_len;
+ frag_info->mapping = pci_map_single(priv->pdev, skb->data + hdr_info->dma_len,
+ frag_info->dma_len, PCI_DMA_TODEVICE);
+ do {
+ u32 frag = 0;
+ frag |= agnx_set_bits(FIRST_FRAG, FIRST_FRAG_SHIFT, 0);
+ frag |= agnx_set_bits(LAST_FRAG, LAST_FRAG_SHIFT, 1);
+ frag |= agnx_set_bits(PACKET_LEN, PACKET_LEN_SHIFT, skb->len);
+ frag |= agnx_set_bits(SUB_FRAG_LEN, SUB_FRAG_LEN_SHIFT, frag_info->dma_len);
+ frag_desc->frag = cpu_to_be32(frag);
+ } while (0);
+ frag_desc->dma_addr = cpu_to_be32(frag_info->mapping);
+
+ txm_power_set(priv, txi);
+
+/* do { */
+/* int j; */
+/* size_t len; */
+/* len = skb->len - hdr_info->dma_len + hdr_info->hdr_len; */
+/* // if (len == 614) { */
+/* agnx_print_desc(hdr_desc); */
+/* agnx_print_desc(frag_desc); */
+/* agnx_print_tx_hdr((struct agnx_hdr *)skb->data); */
+/* agnx_print_sta_power(priv, LOCAL_STAID); */
+/* agnx_print_sta(priv, LOCAL_STAID); */
+/* for (j = 0; j < 8; j++) */
+/* agnx_print_sta_tx_wq(priv, LOCAL_STAID, j); */
+/* agnx_print_sta_power(priv, BSSID_STAID); */
+/* agnx_print_sta(priv, BSSID_STAID); */
+/* for (j = 0; j < 8; j++) */
+/* agnx_print_sta_tx_wq(priv, BSSID_STAID, j); */
+/* // } */
+/* } while (0); */
+
+ spin_unlock_irqrestore(&priv->lock, flags);
+
+ /* FIXME ugly code */
+ /* Trigger TXM */
+ do {
+ u32 reg;
+ reg = (ioread32(priv->ctl + AGNX_CIR_TXMCTL));
+ reg |= 0x8;
+ iowrite32((reg), priv->ctl + AGNX_CIR_TXMCTL);
+ }while (0);
+
+ /* Trigger TXD */
+ do {
+ u32 reg;
+ reg = (ioread32(priv->ctl + AGNX_CIR_TXDCTL));
+ reg |= 0x8;
+ iowrite32((reg), priv->ctl + AGNX_CIR_TXDCTL);
+ }while (0);
+
+ return 0;
+}
+
+int _agnx_tx(struct agnx_priv *priv, struct sk_buff *skb)
+{
+ u16 fctl;
+
+ if (tx_packet_check(skb))
+ return 0;
+
+/* print_hex_dump_bytes("agnx: TX_PACKET: ", DUMP_PREFIX_NONE, */
+/* skb->data, skb->len); */
+
+ fctl = le16_to_cpu(*((__le16 *)skb->data));
+
+ if ( (fctl & IEEE80211_FCTL_FTYPE) == IEEE80211_FTYPE_DATA )
+ return __agnx_tx(priv, skb, &priv->txd);
+ else
+ return __agnx_tx(priv, skb, &priv->txm);
+}
diff --git a/drivers/staging/agnx/xmit.h b/drivers/staging/agnx/xmit.h
new file mode 100644
index 0000000..93ac415
--- /dev/null
+++ b/drivers/staging/agnx/xmit.h
@@ -0,0 +1,250 @@
+#ifndef AGNX_XMIT_H_
+#define AGNX_XMIT_H_
+
+#include <net/mac80211.h>
+
+struct agnx_priv;
+
+static inline u32 agnx_set_bits(u32 mask, u8 shift, u32 value)
+{
+ return (value << shift) & mask;
+}
+
+static inline u32 agnx_get_bits(u32 mask, u8 shift, u32 value)
+{
+ return (value & mask) >> shift;
+}
+
+
+struct agnx_rx {
+ __be16 rx_packet_duration; /* RX Packet Duration */
+ __be16 replay_cnt; /* Replay Count */
+} __attribute__((__packed__));
+
+
+struct agnx_tx {
+ u8 long_retry_limit; /* Long Retry Limit */
+ u8 short_retry_limit; /* Short Retry Limit */
+ u8 long_retry_cnt; /* Long Retry Count */
+ u8 short_retry_cnt; /* Short Retry Count */
+} __attribute__((__packed__));
+
+
+/* Copy from bcm43xx */
+#define P4D_BYT3S(magic, nr_bytes) u8 __p4dding##magic[nr_bytes]
+#define P4D_BYTES(line, nr_bytes) P4D_BYT3S(line, nr_bytes)
+#define PAD_BYTES(nr_bytes) P4D_BYTES(__LINE__, nr_bytes)
+
+#define P4D_BIT3S(magic, nr_bits) __be32 __padding##magic:nr_bits
+#define P4D_BITS(line, nr_bits) P4D_BIT3S(line, nr_bits)
+#define PAD_BITS(nr_bits) P4D_BITS(__LINE__, nr_bits)
+
+
+struct agnx_hdr {
+ __be32 reg0;
+#define RTS 0x80000000 /* RTS */
+#define RTS_SHIFT 31
+#define MULTICAST 0x40000000 /* multicast */
+#define MULTICAST_SHIFT 30
+#define ACK 0x30000000 /* ACK */
+#define ACK_SHIFT 28
+#define TM 0x08000000 /* TM */
+#define TM_SHIFT 27
+#define RELAY 0x04000000 /* Relay */
+#define RELAY_SHIFT 26
+/* PAD_BITS(4); */
+#define REVISED_FCS 0x00380000 /* revised FCS */
+#define REVISED_FCS_SHIFT 19
+#define NEXT_BUFFER_ADDR 0x0007FFFF /* Next Buffer Address */
+#define NEXT_BUFFER_ADDR_SHIFT 0
+
+ __be32 reg1;
+#define MAC_HDR_LEN 0xFC000000 /* MAC Header Length */
+#define MAC_HDR_LEN_SHIFT 26
+#define DURATION_OVERIDE 0x02000000 /* Duration Override */
+#define DURATION_OVERIDE_SHIFT 25
+#define PHY_HDR_OVERIDE 0x01000000 /* PHY Header Override */
+#define PHY_HDR_OVERIDE_SHIFT 24
+#define CRC_FAIL 0x00800000 /* CRC fail */
+#define CRC_FAIL_SHIFT 23
+/* PAD_BITS(1); */
+#define SEQUENCE_NUMBER 0x00200000 /* Sequence Number */
+#define SEQUENCE_NUMBER_SHIFT 21
+/* PAD_BITS(2); */
+#define BUFF_HEAD_ADDR 0x0007FFFF /* Buffer Head Address */
+#define BUFF_HEAD_ADDR_SHIFT 0
+
+ __be32 reg2;
+#define PDU_COUNT 0xFC000000 /* PDU Count */
+#define PDU_COUNT_SHIFT 26
+/* PAD_BITS(3); */
+#define WEP_KEY 0x00600000 /* WEP Key # */
+#define WEP_KEY_SHIFT 21
+#define USES_WEP_KEY 0x00100000 /* Uses WEP Key */
+#define USES_WEP_KEY_SHIFT 20
+#define KEEP_ALIVE 0x00080000 /* Keep alive */
+#define KEEP_ALIVE_SHIFT 19
+#define BUFF_TAIL_ADDR 0x0007FFFF /* Buffer Tail Address */
+#define BUFF_TAIL_ADDR_SHIFT 0
+
+ __be32 reg3;
+#define CTS_11G 0x80000000 /* CTS in 11g */
+#define CTS_11G_SHIFT 31
+#define RTS_11G 0x40000000 /* RTS in 11g */
+#define RTS_11G_SHIFT 30
+/* PAD_BITS(2); */
+#define FRAG_SIZE 0x0FFF0000 /* fragment size */
+#define FRAG_SIZE_SHIFT 16
+#define PAYLOAD_LEN 0x0000FFF0 /* payload length */
+#define PAYLOAD_LEN_SHIFT 4
+#define FRAG_NUM 0x0000000F /* number of frags */
+#define FRAG_NUM_SHIFT 0
+
+ __be32 reg4;
+/* PAD_BITS(4); */
+#define RELAY_STAID 0x0FFF0000 /* relayStald */
+#define RELAY_STAID_SHIFT 16
+#define STATION_ID 0x0000FFF0 /* Station ID */
+#define STATION_ID_SHIFT 4
+#define WORKQUEUE_ID 0x0000000F /* Workqueue ID */
+#define WORKQUEUE_ID_SHIFT 0
+
+ /* FIXME this register maybe is LE? */
+ __be32 reg5;
+/* PAD_BITS(4); */
+#define ROUTE_HOST 0x0F000000
+#define ROUTE_HOST_SHIFT 24
+#define ROUTE_CARD_CPU 0x00F00000
+#define ROUTE_CARD_CPU_SHIFT 20
+#define ROUTE_ENCRYPTION 0x000F0000
+#define ROUTE_ENCRYPTION_SHIFT 16
+#define ROUTE_TX 0x0000F000
+#define ROUTE_TX_SHIFT 12
+#define ROUTE_RX1 0x00000F00
+#define ROUTE_RX1_SHIFT 8
+#define ROUTE_RX2 0x000000F0
+#define ROUTE_RX2_SHIFT 4
+#define ROUTE_COMPRESSION 0x0000000F
+#define ROUTE_COMPRESSION_SHIFT 0
+
+ __be32 _11g0; /* 11g */
+ __be32 _11g1; /* 11g */
+ __be32 _11b0; /* 11b */
+ __be32 _11b1; /* 11b */
+ u8 mac_hdr[32]; /* MAC header */
+
+ __be16 rts_duration; /* RTS duration */
+ __be16 last_duration; /* Last duration */
+ __be16 sec_last_duration; /* Second to Last duration */
+ __be16 other_duration; /* Other duration */
+ __be16 tx_last_duration; /* TX Last duration */
+ __be16 tx_other_duration; /* TX Other Duration */
+ __be16 last_11g_len; /* Length of last 11g */
+ __be16 other_11g_len; /* Lenght of other 11g */
+
+ __be16 last_11b_len; /* Length of last 11b */
+ __be16 other_11b_len; /* Lenght of other 11b */
+
+
+ __be16 reg6;
+#define MBF 0xF000 /* mbf */
+#define MBF_SHIFT 12
+#define RSVD4 0x0FFF /* rsvd4 */
+#define RSVD4_SHIFT 0
+
+ __be16 rx_frag_stat; /* RX fragmentation status */
+
+ __be32 time_stamp; /* TimeStamp */
+ __be32 phy_stats_hi; /* PHY stats hi */
+ __be32 phy_stats_lo; /* PHY stats lo */
+ __be32 mic_key0; /* MIC key 0 */
+ __be32 mic_key1; /* MIC key 1 */
+
+ union { /* RX/TX Union */
+ struct agnx_rx rx;
+ struct agnx_tx tx;
+ };
+
+ u8 rx_channel; /* Recieve Channel */
+ PAD_BYTES(3);
+
+ u8 reserved[4];
+} __attribute__((__packed__));
+
+
+struct agnx_desc {
+#define PACKET_LEN 0xFFF00000
+#define PACKET_LEN_SHIFT 20
+/* ------------------------------------------------ */
+#define FIRST_PACKET_MASK 0x00080000
+#define FIRST_PACKET_MASK_SHIFT 19
+#define FIRST_RESERV2 0x00040000
+#define FIRST_RESERV2_SHIFT 18
+#define FIRST_TKIP_ERROR 0x00020000
+#define FIRST_TKIP_ERROR_SHIFT 17
+#define FIRST_TKIP_PACKET 0x00010000
+#define FIRST_TKIP_PACKET_SHIFT 16
+#define FIRST_RESERV1 0x0000F000
+#define FIRST_RESERV1_SHIFT 12
+#define FIRST_FRAG_LEN 0x00000FF8
+#define FIRST_FRAG_LEN_SHIFT 3
+/* ------------------------------------------------ */
+#define SUB_RESERV2 0x000c0000
+#define SUB_RESERV2_SHIFT 18
+#define SUB_TKIP_ERROR 0x00020000
+#define SUB_TKIP_ERROR_SHIFT 17
+#define SUB_TKIP_PACKET 0x00010000
+#define SUB_TKIP_PACKET_SHIFT 16
+#define SUB_RESERV1 0x00008000
+#define SUB_RESERV1_SHIFT 15
+#define SUB_FRAG_LEN 0x00007FF8
+#define SUB_FRAG_LEN_SHIFT 3
+/* ------------------------------------------------ */
+#define FIRST_FRAG 0x00000004
+#define FIRST_FRAG_SHIFT 2
+#define LAST_FRAG 0x00000002
+#define LAST_FRAG_SHIFT 1
+#define OWNER 0x00000001
+#define OWNER_SHIFT 0
+ __be32 frag;
+ __be32 dma_addr;
+} __attribute__((__packed__));
+
+enum {HEADER, PACKET};
+
+struct agnx_info {
+ struct sk_buff *skb;
+ dma_addr_t mapping;
+ u32 dma_len; /* dma buffer len */
+ /* Below fields only usful for tx */
+ u32 hdr_len; /* ieee80211 header length */
+ unsigned int type;
+ struct ieee80211_tx_info *txi;
+ struct ieee80211_hdr hdr;
+};
+
+
+struct agnx_ring {
+ struct agnx_desc *desc;
+ dma_addr_t dma;
+ struct agnx_info *info;
+ /* Will lead to overflow when sent packet number enough? */
+ unsigned int idx;
+ unsigned int idx_sent; /* only usful for txd and txm */
+ unsigned int size;
+};
+
+#define AGNX_RX_RING_SIZE 128
+#define AGNX_TXD_RING_SIZE 256
+#define AGNX_TXM_RING_SIZE 128
+
+void disable_rx_interrupt(struct agnx_priv *priv);
+void enable_rx_interrupt(struct agnx_priv *priv);
+int fill_rings(struct agnx_priv *priv);
+void unfill_rings(struct agnx_priv *priv);
+void handle_rx_irq(struct agnx_priv *priv);
+void handle_txd_irq(struct agnx_priv *priv);
+void handle_txm_irq(struct agnx_priv *priv);
+void handle_other_irq(struct agnx_priv *priv);
+int _agnx_tx(struct agnx_priv *priv, struct sk_buff *skb);
+#endif /* AGNX_XMIT_H_ */
--
1.6.0.2


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