bus_dma(9) conversion and make txp(4) work on all architectures.
o Header file cleanup. o bus_dma(9) conversion. - Removed all consumers of vtophys(9) and converted to use bus_dma(9). - Typhoon2 functional specification says the controller supports 64bit DMA addressing. However all Typhoon controllers are known to lack of DAC support so 64bit DMA support was disabled. - The hardware can't handle more 16 fragmented Tx DMA segments so teach txp(4) to collapse these segments to be less than 16. - Added Rx buffer alignment requirements(4 bytes alignment) and implemented fixup code to align receive frame. Previously txp(4) always copied Rx frame to align it on 2 byte boundary but its copy overhead is much higher than unaligned access on i386/amd64. Alignment fixup code is now applied only for strict-alignment architectures. With this change i386 and amd64 will get instant Rx performance boost. Typhoon2 datasheet mentions a command that pads arbitrary bytes in Rx buffer but that command does not work. - Nuked pointer trick in descriptor ring. This does not work on sparc64 and replaced it with bcopy. Alternatively txp(4) can embed a 32 bits index value into the descriptor and compute real buffer address but it may make code complicated. - Added endianness support code in various Tx/Rx/command/response descriptor access. With this change txp(4) should work on all architectures. o Added comments for known firmware bugs(Tx checksum offloading, TSO, VLAN stripping and Rx buffer padding control). o Prefer faster memory space register access to I/O space access. Added fall-back mechanism to use alternative I/O space access. The hardware supports both memory and I/O mapped access. Users can still force to use old I/O space access by setting hw.txp.prefer_iomap tunable to 1 in /boot/loader.conf. o Added experimental suspend/resume methods. o Nuke error prone Rx buffer handling code and implemented local buffer management with TAILQ. Be definition the controller can't pass the last received frame to host if no Rx free buffers are available to use as head and tail pointer of Rx descriptor ring can't have the same value. In that case the Rx buffer pointer in Rx buffer ring still holds a valid buffer and txp_rxbuf_reclaim() can't fill Rx buffers as the first buffer is still valid. Instead of relying on the value of Rx buffer ring, introduce local buffer management code to handle empty buffer situation. This should fix a long standing bug which completely hangs the controller under high network load. I could easily trigger the issue by sending 64 bytes UDP frames with netperf. I have no idea how this bugs was not fixed for a long time. o Converted ithread interrupt handler to filter based one. o Rearranged txp_detach routine such that it's now used for general clean-up routine. o Show sleep image version on device attach time. This will help to know what action should be taken depending on sleep image version. The version information in datasheet was wrong for newer NV images so I followed Linux which seems to correctly extract version numbers from response descriptors. o Firmware image is no longer downloaded in device attach time. Now it is reloaded whenever if_init is invoked. This is to ensure correct operation of hardware when something goes wrong. Previously the controller always run without regard to running state of firmware. This change will add additional controller initialization time but it give more robust operation as txp(4) always start off from a known state. The controller is put into sleep state until administrator explicitly up the interface. o As firmware is loaded in if_init handler, it's now possible to implement real watchdog timeout handler. When watchdog timer is expired, full-reset the controller and initialize the hardware again as most other drivers do. While I'm here use our own timer for watchdog instead of using if_watchdog/if_timer interface. o Instead of masking specific interrupts with TXP_IMR register, program TXP_IER register with the interrupts to be raised and use TXP_IMR to toggle interrupt generation. o Implemented txp_wait() to wait a specific state of a controller. o Separate boot related code from txp_download_fw() and name it txp_boot() to handle boot process. o Added bus_barrier(9) to host to ARM communication. o Added endianness to all typhoon command processing. The ARM93C always expects little-endian format of command/data. o Removed __STRICT_ALIGNMENT which is not valid on FreeBSD. __NO_STRICT_ALIGNMENT is provided for that purpose on FreeBSD. Previously __STRICT_ALIGNMENT was unconditionally defined for all architectures. o Rewrote SIOCSIFCAP ioctl handler such that each capability can be controlled by ifconfig(8). Note, disabling VLAN hardware tagging has no effect due to the bug of firmware. o Don't send TXP_CMD_CLEAR_STATISTICS to clear MAC statistics in txp_tick(). The command is not atomic. Instead, just read the statistics and reflect saved statistics to the statistics. dev.txp.%d.stats sysctl node provides detailed MAC statistics. This also reduces a lot of waste of CPU cycles as processing a command ring takes a very long time on ARM93C. Note, Rx multicast and broadcast statistics does not seem to right. It might be another bug of firmware. o Implemented link state change handling in txp_tick(). Now sending packets is allowed only after establishing a valid link. Also invoke link state change notification whenever its state is changed so pseudo drivers like lagg(4) that relies on link state can work with failover or link aggregation without hacks. if_baudrate is updated to resolved speed so SNMP agents can get correct bandwidth parameters. o Overhauled Tx routine such that it now honors number of allowable DMA segments and checks for 4 free descriptors before trying to send a frame. A frame may require 4 descriptors(1 frame descriptor, 1 or more frame descriptors, 1 TSO option descriptor, one free descriptor to prevent descriptor wrap-around) at least so it's necessary to check available free descriptors prior to setting up DMA operation. o Added a sysctl variable dev.txp.%d.process_limit to control how many received frames should be served in Rx handler. Valid ranges are 16 to 128(default 64) in unit of frames. o Added ALTQ(4) support. o Added missing IFCAP_VLAN_HWCSUM as txp(4) can offload checksum calculation as well as VLAN tag insertion/stripping. o Fixed media header length for VLAN. o Don't set if_mtu in device attach, it's already set in ether_ifattach(). o Enabled MWI. o Fixed module unload panic when bpf listeners are active. o Rearranged ethernet address programming logic such that it works on strict-alignment architectures. o Removed unused member variables in softc. o Added support for WOL. o Removed now unused TXP_PCI_LOMEM/TXP_PCI_LOIO. o Added wakeup command TXP_BOOTCMD_WAKEUP definition. o Added a new firmware version query command, TXP_CMD_READ_VERSION. o Removed volatile keyword in softc as bus_dmamap_sync(9) should take care of this. o Removed embedded union trick of a structure used to to access a pointer on LP64 systems. o Added a few TSO related definitions for struct txp_tcpseg_desc. However TSO is not used at all due to the limitation of hardware. o Redefined PKT_MAX_PKTLEN to theoretical maximum size of a frame. o Switched from bus_space_{read|write}_4 to bus_{read|write}_4. o Added a new macro TXP_DESC_INC to compute next descriptor index. Tested by: don.nasco <> gmail dot com
This commit is contained in:
parent
d9bde68623
commit
c92b9c8898
2711
sys/dev/txp/if_txp.c
2711
sys/dev/txp/if_txp.c
File diff suppressed because it is too large
Load Diff
@ -32,9 +32,6 @@
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* THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#define TXP_PCI_LOMEM PCIR_BAR(1) /* memory map BAR */
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#define TXP_PCI_LOIO PCIR_BAR(0) /* IO map BAR */
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/*
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* Typhoon registers.
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*/
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@ -77,6 +74,14 @@
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#define TXP_INT_A2H_0 0x00000002 /* arm->host comm 0 */
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#define TXP_INT_LATCH 0x00000001 /* interrupt latch */
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/*
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* Controller periodically generates TXP_INT_A2H_3 interrupt so
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* we don't want to see them in interrupt handler.
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*/
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#define TXP_INTRS 0xFFFFFFEF
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#define TXP_INTR_ALL 0xFFFFFFFF
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#define TXP_INTR_NONE 0x00000000
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/*
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* soft reset register (SRR)
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*/
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@ -86,6 +91,7 @@
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* Typhoon boot commands.
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*/
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#define TXP_BOOTCMD_NULL 0x00
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#define TXP_BOOTCMD_WAKEUP 0xfa
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#define TXP_BOOTCMD_DOWNLOAD_COMPLETE 0xfb
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#define TXP_BOOTCMD_SEGMENT_AVAILABLE 0xfc
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#define TXP_BOOTCMD_RUNTIME_IMAGE 0xfd
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@ -158,6 +164,7 @@
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#define TXP_CMD_FILTER_TABLE_MODE_WRITE 0x3d
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#define TXP_CMD_FILTER_TCL_WRITE 0x3e
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#define TXP_CMD_FILTER_TBL_READ 0x3f
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#define TXP_CMD_READ_VERSION 0x43
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#define TXP_CMD_FILTER_DEFINE 0x45
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#define TXP_CMD_ADD_WAKEUP_PKT 0x46
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#define TXP_CMD_ADD_SLEEP_PKT 0x47
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@ -225,12 +232,12 @@
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#define TXP_STAT_UDPCKSUMGOOD 0x0200
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struct txp_tx_desc {
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volatile uint8_t tx_flags; /* type/descriptor flags */
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volatile uint8_t tx_numdesc; /* number of descriptors */
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volatile uint16_t tx_totlen; /* total packet length */
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volatile uint32_t tx_addrlo; /* virt addr low word */
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volatile uint32_t tx_addrhi; /* virt addr high word */
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volatile uint32_t tx_pflags; /* processing flags */
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uint8_t tx_flags; /* type/descriptor flags */
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uint8_t tx_numdesc; /* number of descriptors */
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uint16_t tx_totlen; /* total packet length */
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uint32_t tx_addrlo; /* virt addr low word */
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uint32_t tx_addrhi; /* virt addr high word */
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uint32_t tx_pflags; /* processing flags */
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};
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#define TX_FLAGS_TYPE_M 0x07 /* type mask */
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#define TX_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
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@ -256,25 +263,17 @@ struct txp_tx_desc {
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#define TX_PFLAGS_VLANTAG_S 12 /* amount to shift tag */
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struct txp_rx_desc {
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volatile uint8_t rx_flags; /* type/descriptor flags */
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volatile uint8_t rx_numdesc; /* number of descriptors */
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volatile uint16_t rx_len; /* frame length */
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#ifdef notdef
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volatile uint32_t rx_vaddrlo; /* virtual address, lo word */
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volatile uint32_t rx_vaddrhi; /* virtual address, hi word */
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#endif
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union {
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struct txp_swdesc *rx_sd;
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uint64_t rx_dummy;
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} txp_rx_u;
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volatile uint32_t rx_stat; /* status */
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volatile uint16_t rx_filter; /* filter status */
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volatile uint16_t rx_hash; /* hash status */
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volatile uint32_t rx_vlan; /* vlan tag/priority */
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uint8_t rx_flags; /* type/descriptor flags */
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uint8_t rx_numdesc; /* number of descriptors */
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uint16_t rx_len; /* frame length */
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uint32_t rx_vaddrlo; /* virtual address, lo word */
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uint32_t rx_vaddrhi; /* virtual address, hi word */
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uint32_t rx_stat; /* status */
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uint16_t rx_filter; /* filter status */
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uint16_t rx_hash; /* hash status */
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uint32_t rx_vlan; /* vlan tag/priority */
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};
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#define rx_sd txp_rx_u.rx_sd
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/* txp_rx_desc.rx_flags */
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#define RX_FLAGS_TYPE_M 0x07 /* type mask */
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#define RX_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
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@ -297,6 +296,7 @@ struct txp_rx_desc {
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#define RX_ERROR_OVERSIZE 0x00000005 /* oversized packet */
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#define RX_ERROR_ALIGN 0x00000006 /* alignment error */
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#define RX_ERROR_DRIBBLE 0x00000007 /* dribble bit */
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#define RX_ERROR_MASK 0x07
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/* txp_rx_desc.rx_stat (if rx_flags & RX_FLAGS_ERROR not bit set) */
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#define RX_STAT_PROTO_M 0x00000003 /* protocol mask */
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@ -316,36 +316,28 @@ struct txp_rx_desc {
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struct txp_rxbuf_desc {
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volatile uint32_t rb_paddrlo;
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volatile uint32_t rb_paddrhi;
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#ifdef notdef
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volatile uint32_t rb_vaddrlo;
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volatile uint32_t rb_vaddrhi;
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#endif
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union {
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struct txp_swdesc *rb_sd;
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uint64_t rb_dummy;
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} txp_rb_u;
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uint32_t rb_paddrlo;
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uint32_t rb_paddrhi;
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uint32_t rb_vaddrlo;
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uint32_t rb_vaddrhi;
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};
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#define rb_sd txp_rb_u.rb_sd
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/* Extension descriptor */
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struct txp_ext_desc {
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volatile uint32_t ext_1;
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volatile uint32_t ext_2;
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volatile uint32_t ext_3;
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volatile uint32_t ext_4;
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uint32_t ext_1;
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uint32_t ext_2;
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uint32_t ext_3;
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uint32_t ext_4;
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};
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struct txp_cmd_desc {
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volatile uint8_t cmd_flags;
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volatile uint8_t cmd_numdesc;
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volatile uint16_t cmd_id;
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volatile uint16_t cmd_seq;
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volatile uint16_t cmd_par1;
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volatile uint32_t cmd_par2;
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volatile uint32_t cmd_par3;
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uint8_t cmd_flags;
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uint8_t cmd_numdesc;
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uint16_t cmd_id;
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uint16_t cmd_seq;
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uint16_t cmd_par1;
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uint32_t cmd_par2;
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uint32_t cmd_par3;
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};
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#define CMD_FLAGS_TYPE_M 0x07 /* type mask */
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#define CMD_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
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@ -358,13 +350,13 @@ struct txp_cmd_desc {
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#define CMD_FLAGS_VALID 0x80 /* valid descriptor */
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struct txp_rsp_desc {
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volatile uint8_t rsp_flags;
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volatile uint8_t rsp_numdesc;
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volatile uint16_t rsp_id;
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volatile uint16_t rsp_seq;
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volatile uint16_t rsp_par1;
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volatile uint32_t rsp_par2;
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volatile uint32_t rsp_par3;
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uint8_t rsp_flags;
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uint8_t rsp_numdesc;
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uint16_t rsp_id;
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uint16_t rsp_seq;
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uint16_t rsp_par1;
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uint32_t rsp_par2;
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uint32_t rsp_par3;
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};
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#define RSP_FLAGS_TYPE_M 0x07 /* type mask */
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#define RSP_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
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@ -376,12 +368,12 @@ struct txp_rsp_desc {
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#define RSP_FLAGS_ERROR 0x40 /* response error */
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struct txp_frag_desc {
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volatile uint8_t frag_flags; /* type/descriptor flags */
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volatile uint8_t frag_rsvd1;
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volatile uint16_t frag_len; /* bytes in this fragment */
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volatile uint32_t frag_addrlo; /* phys addr low word */
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volatile uint32_t frag_addrhi; /* phys addr high word */
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volatile uint32_t frag_rsvd2;
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uint8_t frag_flags; /* type/descriptor flags */
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uint8_t frag_rsvd1;
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uint16_t frag_len; /* bytes in this fragment */
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uint32_t frag_addrlo; /* phys addr low word */
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uint32_t frag_addrhi; /* phys addr high word */
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uint32_t frag_rsvd2;
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};
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#define FRAG_FLAGS_TYPE_M 0x07 /* type mask */
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#define FRAG_FLAGS_TYPE_FRAG 0x00 /* type: fragment */
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@ -418,19 +410,25 @@ struct txp_ipsec_desc {
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};
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struct txp_tcpseg_desc {
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uint8_t tcpseg_desctype:3,
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tcpseg_rsvd:1,
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tcpseg_type:4;
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uint8_t tcpseg_type;
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uint8_t tcpseg_num;
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uint16_t tcpseg_mss:12,
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tcpseg_misc:4;
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uint16_t tcpseg_mss;
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uint32_t tcpseg_respaddr;
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uint32_t tcpseg_txbytes;
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uint32_t tcpseg_lss;
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};
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#define TCPSEG_DESC_TYPE_M 0x07 /* type mask */
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#define TCPSEG_DESC_TYPE_FRAG 0x00 /* type: fragment */
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#define TCPSEG_DESC_TYPE_DATA 0x01 /* type: data frame */
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#define TCPSEG_DESC_TYPE_CMD 0x02 /* type: command frame */
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#define TCPSEG_DESC_TYPE_OPT 0x03 /* type: options */
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#define TCPSEG_DESC_TYPE_RX 0x04 /* type: command */
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#define TCPSEG_DESC_TYPE_RESP 0x05 /* type: response */
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#define TCPSEG_OPT_IPSEC 0x00
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#define TCPSEG_OPT_TSO 0x10
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#define TCPSEG_MSS_MASK 0x0FFF
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#define TCPSEG_MSS_FIRST 0x1000
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#define TCPSEG_MSS_LAST 0x2000
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/*
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* Transceiver types
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@ -460,48 +458,48 @@ struct txp_tcpseg_desc {
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* boot record (pointers to rings)
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*/
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struct txp_boot_record {
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volatile uint32_t br_hostvar_lo; /* host ring pointer */
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volatile uint32_t br_hostvar_hi;
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volatile uint32_t br_txlopri_lo; /* tx low pri ring */
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volatile uint32_t br_txlopri_hi;
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volatile uint32_t br_txlopri_siz;
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volatile uint32_t br_txhipri_lo; /* tx high pri ring */
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volatile uint32_t br_txhipri_hi;
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volatile uint32_t br_txhipri_siz;
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volatile uint32_t br_rxlopri_lo; /* rx low pri ring */
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volatile uint32_t br_rxlopri_hi;
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volatile uint32_t br_rxlopri_siz;
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volatile uint32_t br_rxbuf_lo; /* rx buffer ring */
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volatile uint32_t br_rxbuf_hi;
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volatile uint32_t br_rxbuf_siz;
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volatile uint32_t br_cmd_lo; /* command ring */
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volatile uint32_t br_cmd_hi;
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volatile uint32_t br_cmd_siz;
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volatile uint32_t br_resp_lo; /* response ring */
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volatile uint32_t br_resp_hi;
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volatile uint32_t br_resp_siz;
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volatile uint32_t br_zero_lo; /* zero word */
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volatile uint32_t br_zero_hi;
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volatile uint32_t br_rxhipri_lo; /* rx high pri ring */
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volatile uint32_t br_rxhipri_hi;
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volatile uint32_t br_rxhipri_siz;
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uint32_t br_hostvar_lo; /* host ring pointer */
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uint32_t br_hostvar_hi;
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uint32_t br_txlopri_lo; /* tx low pri ring */
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uint32_t br_txlopri_hi;
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uint32_t br_txlopri_siz;
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uint32_t br_txhipri_lo; /* tx high pri ring */
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uint32_t br_txhipri_hi;
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uint32_t br_txhipri_siz;
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uint32_t br_rxlopri_lo; /* rx low pri ring */
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uint32_t br_rxlopri_hi;
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uint32_t br_rxlopri_siz;
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uint32_t br_rxbuf_lo; /* rx buffer ring */
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uint32_t br_rxbuf_hi;
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uint32_t br_rxbuf_siz;
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uint32_t br_cmd_lo; /* command ring */
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uint32_t br_cmd_hi;
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uint32_t br_cmd_siz;
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uint32_t br_resp_lo; /* response ring */
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uint32_t br_resp_hi;
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uint32_t br_resp_siz;
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uint32_t br_zero_lo; /* zero word */
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uint32_t br_zero_hi;
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uint32_t br_rxhipri_lo; /* rx high pri ring */
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uint32_t br_rxhipri_hi;
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uint32_t br_rxhipri_siz;
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};
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/*
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* hostvar structure (shared with typhoon)
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*/
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struct txp_hostvar {
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volatile uint32_t hv_rx_hi_read_idx; /* host->arm */
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volatile uint32_t hv_rx_lo_read_idx; /* host->arm */
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volatile uint32_t hv_rx_buf_write_idx; /* host->arm */
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volatile uint32_t hv_resp_read_idx; /* host->arm */
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volatile uint32_t hv_tx_lo_desc_read_idx; /* arm->host */
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volatile uint32_t hv_tx_hi_desc_read_idx; /* arm->host */
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volatile uint32_t hv_rx_lo_write_idx; /* arm->host */
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volatile uint32_t hv_rx_buf_read_idx; /* arm->host */
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volatile uint32_t hv_cmd_read_idx; /* arm->host */
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volatile uint32_t hv_resp_write_idx; /* arm->host */
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volatile uint32_t hv_rx_hi_write_idx; /* arm->host */
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uint32_t hv_rx_hi_read_idx; /* host->arm */
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uint32_t hv_rx_lo_read_idx; /* host->arm */
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uint32_t hv_rx_buf_write_idx; /* host->arm */
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uint32_t hv_resp_read_idx; /* host->arm */
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uint32_t hv_tx_lo_desc_read_idx; /* arm->host */
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uint32_t hv_tx_hi_desc_read_idx; /* arm->host */
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uint32_t hv_rx_lo_write_idx; /* arm->host */
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uint32_t hv_rx_buf_read_idx; /* arm->host */
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uint32_t hv_cmd_read_idx; /* arm->host */
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uint32_t hv_resp_write_idx; /* arm->host */
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uint32_t hv_rx_hi_write_idx; /* arm->host */
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};
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/*
|
||||
@ -555,35 +553,105 @@ struct txp_rsp_ring {
|
||||
|
||||
struct txp_tx_ring {
|
||||
struct txp_tx_desc *r_desc; /* base address of descs */
|
||||
bus_dma_tag_t r_tag;
|
||||
bus_dmamap_t r_map;
|
||||
uint32_t r_reg; /* register to activate */
|
||||
uint32_t r_prod; /* producer */
|
||||
uint32_t r_cons; /* consumer */
|
||||
uint32_t r_cnt; /* # descs in use */
|
||||
volatile uint32_t *r_off; /* hostvar index pointer */
|
||||
uint32_t *r_off; /* hostvar index pointer */
|
||||
};
|
||||
|
||||
struct txp_swdesc {
|
||||
struct mbuf * sd_mbuf;
|
||||
struct mbuf *sd_mbuf;
|
||||
bus_dmamap_t sd_map;
|
||||
};
|
||||
|
||||
struct txp_rx_swdesc {
|
||||
TAILQ_ENTRY(txp_rx_swdesc) sd_next;
|
||||
struct mbuf *sd_mbuf;
|
||||
bus_dmamap_t sd_map;
|
||||
};
|
||||
|
||||
struct txp_rx_ring {
|
||||
struct txp_rx_desc *r_desc; /* base address of descs */
|
||||
volatile uint32_t *r_roff; /* hv read offset ptr */
|
||||
volatile uint32_t *r_woff; /* hv write offset ptr */
|
||||
bus_dma_tag_t r_tag;
|
||||
bus_dmamap_t r_map;
|
||||
uint32_t *r_roff; /* hv read offset ptr */
|
||||
uint32_t *r_woff; /* hv write offset ptr */
|
||||
};
|
||||
|
||||
struct txp_ldata {
|
||||
struct txp_boot_record txp_boot;
|
||||
struct txp_hostvar txp_hostvar;
|
||||
struct txp_tx_desc txp_txhiring[TX_ENTRIES];
|
||||
struct txp_tx_desc txp_txloring[TX_ENTRIES];
|
||||
struct txp_rxbuf_desc txp_rxbufs[RXBUF_ENTRIES];
|
||||
struct txp_rx_desc txp_rxhiring[RX_ENTRIES];
|
||||
struct txp_rx_desc txp_rxloring[RX_ENTRIES];
|
||||
struct txp_cmd_desc txp_cmdring[CMD_ENTRIES];
|
||||
struct txp_rsp_desc txp_rspring[RSP_ENTRIES];
|
||||
uint32_t txp_zero;
|
||||
struct txp_boot_record *txp_boot;
|
||||
bus_addr_t txp_boot_paddr;
|
||||
struct txp_hostvar *txp_hostvar;
|
||||
bus_addr_t txp_hostvar_paddr;
|
||||
struct txp_tx_desc *txp_txhiring;
|
||||
bus_addr_t txp_txhiring_paddr;
|
||||
struct txp_tx_desc *txp_txloring;
|
||||
bus_addr_t txp_txloring_paddr;
|
||||
struct txp_rxbuf_desc *txp_rxbufs;
|
||||
bus_addr_t txp_rxbufs_paddr;
|
||||
struct txp_rx_desc *txp_rxhiring;
|
||||
bus_addr_t txp_rxhiring_paddr;
|
||||
struct txp_rx_desc *txp_rxloring;
|
||||
bus_addr_t txp_rxloring_paddr;
|
||||
struct txp_cmd_desc *txp_cmdring;
|
||||
bus_addr_t txp_cmdring_paddr;
|
||||
struct txp_rsp_desc *txp_rspring;
|
||||
bus_addr_t txp_rspring_paddr;
|
||||
uint32_t *txp_zero;
|
||||
bus_addr_t txp_zero_paddr;
|
||||
};
|
||||
|
||||
struct txp_chain_data {
|
||||
bus_dma_tag_t txp_parent_tag;
|
||||
bus_dma_tag_t txp_boot_tag;
|
||||
bus_dmamap_t txp_boot_map;
|
||||
bus_dma_tag_t txp_hostvar_tag;
|
||||
bus_dmamap_t txp_hostvar_map;
|
||||
bus_dma_tag_t txp_txhiring_tag;
|
||||
bus_dmamap_t txp_txhiring_map;
|
||||
bus_dma_tag_t txp_txloring_tag;
|
||||
bus_dmamap_t txp_txloring_map;
|
||||
bus_dma_tag_t txp_tx_tag;
|
||||
bus_dma_tag_t txp_rx_tag;
|
||||
bus_dma_tag_t txp_rxbufs_tag;
|
||||
bus_dmamap_t txp_rxbufs_map;
|
||||
bus_dma_tag_t txp_rxhiring_tag;
|
||||
bus_dmamap_t txp_rxhiring_map;
|
||||
bus_dma_tag_t txp_rxloring_tag;
|
||||
bus_dmamap_t txp_rxloring_map;
|
||||
bus_dma_tag_t txp_cmdring_tag;
|
||||
bus_dmamap_t txp_cmdring_map;
|
||||
bus_dma_tag_t txp_rspring_tag;
|
||||
bus_dmamap_t txp_rspring_map;
|
||||
bus_dma_tag_t txp_zero_tag;
|
||||
bus_dmamap_t txp_zero_map;
|
||||
};
|
||||
|
||||
struct txp_hw_stats {
|
||||
uint32_t tx_frames;
|
||||
uint64_t tx_bytes;
|
||||
uint32_t tx_deferred;
|
||||
uint32_t tx_late_colls;
|
||||
uint32_t tx_colls;
|
||||
uint32_t tx_carrier_lost;
|
||||
uint32_t tx_multi_colls;
|
||||
uint32_t tx_excess_colls;
|
||||
uint32_t tx_fifo_underruns;
|
||||
uint32_t tx_mcast_oflows;
|
||||
uint32_t tx_filtered;
|
||||
uint32_t rx_frames;
|
||||
uint64_t rx_bytes;
|
||||
uint32_t rx_fifo_oflows;
|
||||
uint32_t rx_badssd;
|
||||
uint32_t rx_crcerrs;
|
||||
uint32_t rx_lenerrs;
|
||||
uint32_t rx_bcast_frames;
|
||||
uint32_t rx_mcast_frames;
|
||||
uint32_t rx_oflows;
|
||||
uint32_t rx_filtered;
|
||||
};
|
||||
|
||||
struct txp_softc {
|
||||
@ -591,27 +659,37 @@ struct txp_softc {
|
||||
device_t sc_dev;
|
||||
struct txp_hostvar *sc_hostvar;
|
||||
struct txp_boot_record *sc_boot;
|
||||
bus_space_handle_t sc_bh; /* bus handle (regs) */
|
||||
bus_space_tag_t sc_bt; /* bus tag (regs) */
|
||||
struct resource *sc_res;
|
||||
int sc_res_id;
|
||||
int sc_res_type;
|
||||
struct resource *sc_irq;
|
||||
void *sc_intrhand;
|
||||
struct mtx sc_mtx;
|
||||
struct txp_ldata *sc_ldata;
|
||||
void *sc_fwbuf;
|
||||
struct txp_chain_data sc_cdata;
|
||||
struct txp_ldata sc_ldata;
|
||||
int sc_rxbufprod;
|
||||
int sc_process_limit;
|
||||
struct txp_cmd_ring sc_cmdring;
|
||||
struct txp_rsp_ring sc_rspring;
|
||||
struct txp_swdesc sc_txd[TX_ENTRIES];
|
||||
struct callout sc_tick;
|
||||
struct ifmedia sc_ifmedia;
|
||||
struct txp_hw_stats sc_ostats;
|
||||
struct txp_hw_stats sc_stats;
|
||||
struct txp_tx_ring sc_txhir, sc_txlor;
|
||||
struct txp_swdesc sc_txd[TX_ENTRIES];
|
||||
struct txp_rxbuf_desc *sc_rxbufs;
|
||||
struct txp_rx_ring sc_rxhir, sc_rxlor;
|
||||
uint16_t sc_xcvr;
|
||||
uint16_t sc_seq;
|
||||
int sc_cold;
|
||||
uint32_t sc_rx_capability, sc_tx_capability;
|
||||
int sc_watchdog_timer;
|
||||
int sc_if_flags;
|
||||
int sc_flags;
|
||||
#define TXP_FLAG_DETACH 0x4000
|
||||
#define TXP_FLAG_LINK 0x8000
|
||||
TAILQ_HEAD(, txp_rx_swdesc) sc_free_list;
|
||||
TAILQ_HEAD(, txp_rx_swdesc) sc_busy_list;
|
||||
struct task sc_int_task;
|
||||
struct taskqueue *sc_tq;
|
||||
struct mtx sc_mtx;
|
||||
};
|
||||
|
||||
struct txp_fw_file_header {
|
||||
@ -630,17 +708,26 @@ struct txp_fw_section_header {
|
||||
};
|
||||
|
||||
#define TXP_MAX_SEGLEN 0xffff
|
||||
#define TXP_MAX_PKTLEN 0x0800
|
||||
#define TXP_MAX_PKTLEN (ETHER_MAX_LEN + ETHER_VLAN_ENCAP_LEN)
|
||||
|
||||
#define WRITE_REG(sc,reg,val) \
|
||||
bus_space_write_4((sc)->sc_bt, (sc)->sc_bh, reg, val)
|
||||
#define READ_REG(sc,reg) \
|
||||
bus_space_read_4((sc)->sc_bt, (sc)->sc_bh, reg)
|
||||
#define WRITE_REG(sc, reg, val) bus_write_4((sc)->sc_res, reg, val)
|
||||
#define READ_REG(sc, reg) bus_read_4((sc)->sc_res, reg)
|
||||
#define TXP_BARRIER(sc, o, l, f) bus_barrier((sc)->sc_res, (o), (l), (f))
|
||||
|
||||
#define TXP_LOCK(sc) mtx_lock(&(sc)->sc_mtx)
|
||||
#define TXP_UNLOCK(sc) mtx_unlock(&(sc)->sc_mtx)
|
||||
#define TXP_LOCK_ASSERT(sc) mtx_assert(&(sc)->sc_mtx, MA_OWNED)
|
||||
|
||||
#define TXP_MAXTXSEGS 16
|
||||
#define TXP_RXBUF_ALIGN (sizeof(uint32_t))
|
||||
|
||||
#define TXP_PROC_MIN 16
|
||||
#define TXP_PROC_MAX RX_ENTRIES
|
||||
#define TXP_PROC_DEFAULT (RX_ENTRIES / 2)
|
||||
|
||||
#define TXP_ADDR_HI(x) ((uint64_t)(x) >> 32)
|
||||
#define TXP_ADDR_LO(x) ((uint64_t)(x) & 0xffffffff)
|
||||
|
||||
/*
|
||||
* 3Com PCI vendor ID.
|
||||
*/
|
||||
@ -661,3 +748,21 @@ struct txp_type {
|
||||
uint16_t txp_did;
|
||||
char *txp_name;
|
||||
};
|
||||
|
||||
#define TXP_TIMEOUT 10000
|
||||
#define TXP_CMD_NOWAIT 0
|
||||
#define TXP_CMD_WAIT 1
|
||||
#define TXP_TX_TIMEOUT 5
|
||||
|
||||
/*
|
||||
* Each frame requires one frame descriptor and one or more
|
||||
* fragment descriptors. If TSO is used frame descriptor block
|
||||
* requires one or two option frame descriptors depending on
|
||||
* number of framents. Therefore we will consume three
|
||||
* additional descriptors at most to use TSO for a frame and
|
||||
* one reserved descriptor in order not to full Tx descriptor
|
||||
* ring.
|
||||
*/
|
||||
#define TXP_TXD_RESERVED 4
|
||||
|
||||
#define TXP_DESC_INC(x, y) ((x) = ((x) + 1) % (y))
|
||||
|
Loading…
Reference in New Issue
Block a user