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authorTimothy Pearson <tpearson@raptorengineering.com>2019-05-11 15:12:49 -0500
committerTimothy Pearson <tpearson@raptorengineering.com>2019-05-11 15:12:49 -0500
commit9e80202352dd49bdd9e67b8b906d86f058431505 (patch)
tree5673c17aad6e3833da8c4ff21b5a11f666ec9fbe /src/hw/net/eepro100.c
downloadhqemu-master.zip
hqemu-master.tar.gz
Initial import of abandoned HQEMU version 2.5.2HEADmaster
Diffstat (limited to 'src/hw/net/eepro100.c')
-rw-r--r--src/hw/net/eepro100.c2114
1 files changed, 2114 insertions, 0 deletions
diff --git a/src/hw/net/eepro100.c b/src/hw/net/eepro100.c
new file mode 100644
index 0000000..685a478
--- /dev/null
+++ b/src/hw/net/eepro100.c
@@ -0,0 +1,2114 @@
+/*
+ * QEMU i8255x (PRO100) emulation
+ *
+ * Copyright (C) 2006-2011 Stefan Weil
+ *
+ * Portions of the code are copies from grub / etherboot eepro100.c
+ * and linux e100.c.
+ *
+ * This program is free software: you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation, either version 2 of the License, or
+ * (at your option) version 3 or any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with this program. If not, see <http://www.gnu.org/licenses/>.
+ *
+ * Tested features (i82559):
+ * PXE boot (i386 guest, i386 / mips / mipsel / ppc host) ok
+ * Linux networking (i386) ok
+ *
+ * Untested:
+ * Windows networking
+ *
+ * References:
+ *
+ * Intel 8255x 10/100 Mbps Ethernet Controller Family
+ * Open Source Software Developer Manual
+ *
+ * TODO:
+ * * PHY emulation should be separated from nic emulation.
+ * Most nic emulations could share the same phy code.
+ * * i82550 is untested. It is programmed like the i82559.
+ * * i82562 is untested. It is programmed like the i82559.
+ * * Power management (i82558 and later) is not implemented.
+ * * Wake-on-LAN is not implemented.
+ */
+
+#include <stddef.h> /* offsetof */
+#include "hw/hw.h"
+#include "hw/pci/pci.h"
+#include "net/net.h"
+#include "hw/nvram/eeprom93xx.h"
+#include "sysemu/sysemu.h"
+#include "sysemu/dma.h"
+#include "qemu/bitops.h"
+
+/* QEMU sends frames smaller than 60 bytes to ethernet nics.
+ * Such frames are rejected by real nics and their emulations.
+ * To avoid this behaviour, other nic emulations pad received
+ * frames. The following definition enables this padding for
+ * eepro100, too. We keep the define around in case it might
+ * become useful the future if the core networking is ever
+ * changed to pad short packets itself. */
+#define CONFIG_PAD_RECEIVED_FRAMES
+
+#define KiB 1024
+
+/* Debug EEPRO100 card. */
+#if 0
+# define DEBUG_EEPRO100
+#endif
+
+#ifdef DEBUG_EEPRO100
+#define logout(fmt, ...) fprintf(stderr, "EE100\t%-24s" fmt, __func__, ## __VA_ARGS__)
+#else
+#define logout(fmt, ...) ((void)0)
+#endif
+
+/* Set flags to 0 to disable debug output. */
+#define INT 1 /* interrupt related actions */
+#define MDI 1 /* mdi related actions */
+#define OTHER 1
+#define RXTX 1
+#define EEPROM 1 /* eeprom related actions */
+
+#define TRACE(flag, command) ((flag) ? (command) : (void)0)
+
+#define missing(text) fprintf(stderr, "eepro100: feature is missing in this emulation: " text "\n")
+
+#define MAX_ETH_FRAME_SIZE 1514
+
+/* This driver supports several different devices which are declared here. */
+#define i82550 0x82550
+#define i82551 0x82551
+#define i82557A 0x82557a
+#define i82557B 0x82557b
+#define i82557C 0x82557c
+#define i82558A 0x82558a
+#define i82558B 0x82558b
+#define i82559A 0x82559a
+#define i82559B 0x82559b
+#define i82559C 0x82559c
+#define i82559ER 0x82559e
+#define i82562 0x82562
+#define i82801 0x82801
+
+/* Use 64 word EEPROM. TODO: could be a runtime option. */
+#define EEPROM_SIZE 64
+
+#define PCI_MEM_SIZE (4 * KiB)
+#define PCI_IO_SIZE 64
+#define PCI_FLASH_SIZE (128 * KiB)
+
+#define BITS(n, m) (((0xffffffffU << (31 - n)) >> (31 - n + m)) << m)
+
+/* The SCB accepts the following controls for the Tx and Rx units: */
+#define CU_NOP 0x0000 /* No operation. */
+#define CU_START 0x0010 /* CU start. */
+#define CU_RESUME 0x0020 /* CU resume. */
+#define CU_STATSADDR 0x0040 /* Load dump counters address. */
+#define CU_SHOWSTATS 0x0050 /* Dump statistical counters. */
+#define CU_CMD_BASE 0x0060 /* Load CU base address. */
+#define CU_DUMPSTATS 0x0070 /* Dump and reset statistical counters. */
+#define CU_SRESUME 0x00a0 /* CU static resume. */
+
+#define RU_NOP 0x0000
+#define RX_START 0x0001
+#define RX_RESUME 0x0002
+#define RU_ABORT 0x0004
+#define RX_ADDR_LOAD 0x0006
+#define RX_RESUMENR 0x0007
+#define INT_MASK 0x0100
+#define DRVR_INT 0x0200 /* Driver generated interrupt. */
+
+typedef struct {
+ const char *name;
+ const char *desc;
+ uint16_t device_id;
+ uint8_t revision;
+ uint16_t subsystem_vendor_id;
+ uint16_t subsystem_id;
+
+ uint32_t device;
+ uint8_t stats_size;
+ bool has_extended_tcb_support;
+ bool power_management;
+} E100PCIDeviceInfo;
+
+/* Offsets to the various registers.
+ All accesses need not be longword aligned. */
+typedef enum {
+ SCBStatus = 0, /* Status Word. */
+ SCBAck = 1,
+ SCBCmd = 2, /* Rx/Command Unit command and status. */
+ SCBIntmask = 3,
+ SCBPointer = 4, /* General purpose pointer. */
+ SCBPort = 8, /* Misc. commands and operands. */
+ SCBflash = 12, /* Flash memory control. */
+ SCBeeprom = 14, /* EEPROM control. */
+ SCBCtrlMDI = 16, /* MDI interface control. */
+ SCBEarlyRx = 20, /* Early receive byte count. */
+ SCBFlow = 24, /* Flow Control. */
+ SCBpmdr = 27, /* Power Management Driver. */
+ SCBgctrl = 28, /* General Control. */
+ SCBgstat = 29, /* General Status. */
+} E100RegisterOffset;
+
+/* A speedo3 transmit buffer descriptor with two buffers... */
+typedef struct {
+ uint16_t status;
+ uint16_t command;
+ uint32_t link; /* void * */
+ uint32_t tbd_array_addr; /* transmit buffer descriptor array address. */
+ uint16_t tcb_bytes; /* transmit command block byte count (in lower 14 bits */
+ uint8_t tx_threshold; /* transmit threshold */
+ uint8_t tbd_count; /* TBD number */
+#if 0
+ /* This constitutes two "TBD" entries: hdr and data */
+ uint32_t tx_buf_addr0; /* void *, header of frame to be transmitted. */
+ int32_t tx_buf_size0; /* Length of Tx hdr. */
+ uint32_t tx_buf_addr1; /* void *, data to be transmitted. */
+ int32_t tx_buf_size1; /* Length of Tx data. */
+#endif
+} eepro100_tx_t;
+
+/* Receive frame descriptor. */
+typedef struct {
+ int16_t status;
+ uint16_t command;
+ uint32_t link; /* struct RxFD * */
+ uint32_t rx_buf_addr; /* void * */
+ uint16_t count;
+ uint16_t size;
+ /* Ethernet frame data follows. */
+} eepro100_rx_t;
+
+typedef enum {
+ COMMAND_EL = BIT(15),
+ COMMAND_S = BIT(14),
+ COMMAND_I = BIT(13),
+ COMMAND_NC = BIT(4),
+ COMMAND_SF = BIT(3),
+ COMMAND_CMD = BITS(2, 0),
+} scb_command_bit;
+
+typedef enum {
+ STATUS_C = BIT(15),
+ STATUS_OK = BIT(13),
+} scb_status_bit;
+
+typedef struct {
+ uint32_t tx_good_frames, tx_max_collisions, tx_late_collisions,
+ tx_underruns, tx_lost_crs, tx_deferred, tx_single_collisions,
+ tx_multiple_collisions, tx_total_collisions;
+ uint32_t rx_good_frames, rx_crc_errors, rx_alignment_errors,
+ rx_resource_errors, rx_overrun_errors, rx_cdt_errors,
+ rx_short_frame_errors;
+ uint32_t fc_xmt_pause, fc_rcv_pause, fc_rcv_unsupported;
+ uint16_t xmt_tco_frames, rcv_tco_frames;
+ /* TODO: i82559 has six reserved statistics but a total of 24 dwords. */
+ uint32_t reserved[4];
+} eepro100_stats_t;
+
+typedef enum {
+ cu_idle = 0,
+ cu_suspended = 1,
+ cu_active = 2,
+ cu_lpq_active = 2,
+ cu_hqp_active = 3
+} cu_state_t;
+
+typedef enum {
+ ru_idle = 0,
+ ru_suspended = 1,
+ ru_no_resources = 2,
+ ru_ready = 4
+} ru_state_t;
+
+typedef struct {
+ PCIDevice dev;
+ /* Hash register (multicast mask array, multiple individual addresses). */
+ uint8_t mult[8];
+ MemoryRegion mmio_bar;
+ MemoryRegion io_bar;
+ MemoryRegion flash_bar;
+ NICState *nic;
+ NICConf conf;
+ uint8_t scb_stat; /* SCB stat/ack byte */
+ uint8_t int_stat; /* PCI interrupt status */
+ /* region must not be saved by nic_save. */
+ uint16_t mdimem[32];
+ eeprom_t *eeprom;
+ uint32_t device; /* device variant */
+ /* (cu_base + cu_offset) address the next command block in the command block list. */
+ uint32_t cu_base; /* CU base address */
+ uint32_t cu_offset; /* CU address offset */
+ /* (ru_base + ru_offset) address the RFD in the Receive Frame Area. */
+ uint32_t ru_base; /* RU base address */
+ uint32_t ru_offset; /* RU address offset */
+ uint32_t statsaddr; /* pointer to eepro100_stats_t */
+
+ /* Temporary status information (no need to save these values),
+ * used while processing CU commands. */
+ eepro100_tx_t tx; /* transmit buffer descriptor */
+ uint32_t cb_address; /* = cu_base + cu_offset */
+
+ /* Statistical counters. Also used for wake-up packet (i82559). */
+ eepro100_stats_t statistics;
+
+ /* Data in mem is always in the byte order of the controller (le).
+ * It must be dword aligned to allow direct access to 32 bit values. */
+ uint8_t mem[PCI_MEM_SIZE] __attribute__((aligned(8)));
+
+ /* Configuration bytes. */
+ uint8_t configuration[22];
+
+ /* vmstate for each particular nic */
+ VMStateDescription *vmstate;
+
+ /* Quasi static device properties (no need to save them). */
+ uint16_t stats_size;
+ bool has_extended_tcb_support;
+} EEPRO100State;
+
+/* Word indices in EEPROM. */
+typedef enum {
+ EEPROM_CNFG_MDIX = 0x03,
+ EEPROM_ID = 0x05,
+ EEPROM_PHY_ID = 0x06,
+ EEPROM_VENDOR_ID = 0x0c,
+ EEPROM_CONFIG_ASF = 0x0d,
+ EEPROM_DEVICE_ID = 0x23,
+ EEPROM_SMBUS_ADDR = 0x90,
+} EEPROMOffset;
+
+/* Bit values for EEPROM ID word. */
+typedef enum {
+ EEPROM_ID_MDM = BIT(0), /* Modem */
+ EEPROM_ID_STB = BIT(1), /* Standby Enable */
+ EEPROM_ID_WMR = BIT(2), /* ??? */
+ EEPROM_ID_WOL = BIT(5), /* Wake on LAN */
+ EEPROM_ID_DPD = BIT(6), /* Deep Power Down */
+ EEPROM_ID_ALT = BIT(7), /* */
+ /* BITS(10, 8) device revision */
+ EEPROM_ID_BD = BIT(11), /* boot disable */
+ EEPROM_ID_ID = BIT(13), /* id bit */
+ /* BITS(15, 14) signature */
+ EEPROM_ID_VALID = BIT(14), /* signature for valid eeprom */
+} eeprom_id_bit;
+
+/* Default values for MDI (PHY) registers */
+static const uint16_t eepro100_mdi_default[] = {
+ /* MDI Registers 0 - 6, 7 */
+ 0x3000, 0x780d, 0x02a8, 0x0154, 0x05e1, 0x0000, 0x0000, 0x0000,
+ /* MDI Registers 8 - 15 */
+ 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000,
+ /* MDI Registers 16 - 31 */
+ 0x0003, 0x0000, 0x0001, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000,
+ 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000,
+};
+
+/* Readonly mask for MDI (PHY) registers */
+static const uint16_t eepro100_mdi_mask[] = {
+ 0x0000, 0xffff, 0xffff, 0xffff, 0xc01f, 0xffff, 0xffff, 0x0000,
+ 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000,
+ 0x0fff, 0x0000, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff, 0xffff,
+ 0xffff, 0xffff, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000,
+};
+
+#define POLYNOMIAL 0x04c11db6
+
+static E100PCIDeviceInfo *eepro100_get_class(EEPRO100State *s);
+
+/* From FreeBSD (locally modified). */
+static unsigned e100_compute_mcast_idx(const uint8_t *ep)
+{
+ uint32_t crc;
+ int carry, i, j;
+ uint8_t b;
+
+ crc = 0xffffffff;
+ for (i = 0; i < 6; i++) {
+ b = *ep++;
+ for (j = 0; j < 8; j++) {
+ carry = ((crc & 0x80000000L) ? 1 : 0) ^ (b & 0x01);
+ crc <<= 1;
+ b >>= 1;
+ if (carry) {
+ crc = ((crc ^ POLYNOMIAL) | carry);
+ }
+ }
+ }
+ return (crc & BITS(7, 2)) >> 2;
+}
+
+/* Read a 16 bit control/status (CSR) register. */
+static uint16_t e100_read_reg2(EEPRO100State *s, E100RegisterOffset addr)
+{
+ assert(!((uintptr_t)&s->mem[addr] & 1));
+ return le16_to_cpup((uint16_t *)&s->mem[addr]);
+}
+
+/* Read a 32 bit control/status (CSR) register. */
+static uint32_t e100_read_reg4(EEPRO100State *s, E100RegisterOffset addr)
+{
+ assert(!((uintptr_t)&s->mem[addr] & 3));
+ return le32_to_cpup((uint32_t *)&s->mem[addr]);
+}
+
+/* Write a 16 bit control/status (CSR) register. */
+static void e100_write_reg2(EEPRO100State *s, E100RegisterOffset addr,
+ uint16_t val)
+{
+ assert(!((uintptr_t)&s->mem[addr] & 1));
+ cpu_to_le16w((uint16_t *)&s->mem[addr], val);
+}
+
+/* Read a 32 bit control/status (CSR) register. */
+static void e100_write_reg4(EEPRO100State *s, E100RegisterOffset addr,
+ uint32_t val)
+{
+ assert(!((uintptr_t)&s->mem[addr] & 3));
+ cpu_to_le32w((uint32_t *)&s->mem[addr], val);
+}
+
+#if defined(DEBUG_EEPRO100)
+static const char *nic_dump(const uint8_t * buf, unsigned size)
+{
+ static char dump[3 * 16 + 1];
+ char *p = &dump[0];
+ if (size > 16) {
+ size = 16;
+ }
+ while (size-- > 0) {
+ p += sprintf(p, " %02x", *buf++);
+ }
+ return dump;
+}
+#endif /* DEBUG_EEPRO100 */
+
+enum scb_stat_ack {
+ stat_ack_not_ours = 0x00,
+ stat_ack_sw_gen = 0x04,
+ stat_ack_rnr = 0x10,
+ stat_ack_cu_idle = 0x20,
+ stat_ack_frame_rx = 0x40,
+ stat_ack_cu_cmd_done = 0x80,
+ stat_ack_not_present = 0xFF,
+ stat_ack_rx = (stat_ack_sw_gen | stat_ack_rnr | stat_ack_frame_rx),
+ stat_ack_tx = (stat_ack_cu_idle | stat_ack_cu_cmd_done),
+};
+
+static void disable_interrupt(EEPRO100State * s)
+{
+ if (s->int_stat) {
+ TRACE(INT, logout("interrupt disabled\n"));
+ pci_irq_deassert(&s->dev);
+ s->int_stat = 0;
+ }
+}
+
+static void enable_interrupt(EEPRO100State * s)
+{
+ if (!s->int_stat) {
+ TRACE(INT, logout("interrupt enabled\n"));
+ pci_irq_assert(&s->dev);
+ s->int_stat = 1;
+ }
+}
+
+static void eepro100_acknowledge(EEPRO100State * s)
+{
+ s->scb_stat &= ~s->mem[SCBAck];
+ s->mem[SCBAck] = s->scb_stat;
+ if (s->scb_stat == 0) {
+ disable_interrupt(s);
+ }
+}
+
+static void eepro100_interrupt(EEPRO100State * s, uint8_t status)
+{
+ uint8_t mask = ~s->mem[SCBIntmask];
+ s->mem[SCBAck] |= status;
+ status = s->scb_stat = s->mem[SCBAck];
+ status &= (mask | 0x0f);
+#if 0
+ status &= (~s->mem[SCBIntmask] | 0x0xf);
+#endif
+ if (status && (mask & 0x01)) {
+ /* SCB mask and SCB Bit M do not disable interrupt. */
+ enable_interrupt(s);
+ } else if (s->int_stat) {
+ disable_interrupt(s);
+ }
+}
+
+static void eepro100_cx_interrupt(EEPRO100State * s)
+{
+ /* CU completed action command. */
+ /* Transmit not ok (82557 only, not in emulation). */
+ eepro100_interrupt(s, 0x80);
+}
+
+static void eepro100_cna_interrupt(EEPRO100State * s)
+{
+ /* CU left the active state. */
+ eepro100_interrupt(s, 0x20);
+}
+
+static void eepro100_fr_interrupt(EEPRO100State * s)
+{
+ /* RU received a complete frame. */
+ eepro100_interrupt(s, 0x40);
+}
+
+static void eepro100_rnr_interrupt(EEPRO100State * s)
+{
+ /* RU is not ready. */
+ eepro100_interrupt(s, 0x10);
+}
+
+static void eepro100_mdi_interrupt(EEPRO100State * s)
+{
+ /* MDI completed read or write cycle. */
+ eepro100_interrupt(s, 0x08);
+}
+
+static void eepro100_swi_interrupt(EEPRO100State * s)
+{
+ /* Software has requested an interrupt. */
+ eepro100_interrupt(s, 0x04);
+}
+
+#if 0
+static void eepro100_fcp_interrupt(EEPRO100State * s)
+{
+ /* Flow control pause interrupt (82558 and later). */
+ eepro100_interrupt(s, 0x01);
+}
+#endif
+
+static void e100_pci_reset(EEPRO100State * s)
+{
+ E100PCIDeviceInfo *info = eepro100_get_class(s);
+ uint32_t device = s->device;
+ uint8_t *pci_conf = s->dev.config;
+
+ TRACE(OTHER, logout("%p\n", s));
+
+ /* PCI Status */
+ pci_set_word(pci_conf + PCI_STATUS, PCI_STATUS_DEVSEL_MEDIUM |
+ PCI_STATUS_FAST_BACK);
+ /* PCI Latency Timer */
+ pci_set_byte(pci_conf + PCI_LATENCY_TIMER, 0x20); /* latency timer = 32 clocks */
+ /* Capability Pointer is set by PCI framework. */
+ /* Interrupt Line */
+ /* Interrupt Pin */
+ pci_set_byte(pci_conf + PCI_INTERRUPT_PIN, 1); /* interrupt pin A */
+ /* Minimum Grant */
+ pci_set_byte(pci_conf + PCI_MIN_GNT, 0x08);
+ /* Maximum Latency */
+ pci_set_byte(pci_conf + PCI_MAX_LAT, 0x18);
+
+ s->stats_size = info->stats_size;
+ s->has_extended_tcb_support = info->has_extended_tcb_support;
+
+ switch (device) {
+ case i82550:
+ case i82551:
+ case i82557A:
+ case i82557B:
+ case i82557C:
+ case i82558A:
+ case i82558B:
+ case i82559A:
+ case i82559B:
+ case i82559ER:
+ case i82562:
+ case i82801:
+ case i82559C:
+ break;
+ default:
+ logout("Device %X is undefined!\n", device);
+ }
+
+ /* Standard TxCB. */
+ s->configuration[6] |= BIT(4);
+
+ /* Standard statistical counters. */
+ s->configuration[6] |= BIT(5);
+
+ if (s->stats_size == 80) {
+ /* TODO: check TCO Statistical Counters bit. Documentation not clear. */
+ if (s->configuration[6] & BIT(2)) {
+ /* TCO statistical counters. */
+ assert(s->configuration[6] & BIT(5));
+ } else {
+ if (s->configuration[6] & BIT(5)) {
+ /* No extended statistical counters, i82557 compatible. */
+ s->stats_size = 64;
+ } else {
+ /* i82558 compatible. */
+ s->stats_size = 76;
+ }
+ }
+ } else {
+ if (s->configuration[6] & BIT(5)) {
+ /* No extended statistical counters. */
+ s->stats_size = 64;
+ }
+ }
+ assert(s->stats_size > 0 && s->stats_size <= sizeof(s->statistics));
+
+ if (info->power_management) {
+ /* Power Management Capabilities */
+ int cfg_offset = 0xdc;
+ int r = pci_add_capability(&s->dev, PCI_CAP_ID_PM,
+ cfg_offset, PCI_PM_SIZEOF);
+ assert(r >= 0);
+ pci_set_word(pci_conf + cfg_offset + PCI_PM_PMC, 0x7e21);
+#if 0 /* TODO: replace dummy code for power management emulation. */
+ /* TODO: Power Management Control / Status. */
+ pci_set_word(pci_conf + cfg_offset + PCI_PM_CTRL, 0x0000);
+ /* TODO: Ethernet Power Consumption Registers (i82559 and later). */
+ pci_set_byte(pci_conf + cfg_offset + PCI_PM_PPB_EXTENSIONS, 0x0000);
+#endif
+ }
+
+#if EEPROM_SIZE > 0
+ if (device == i82557C || device == i82558B || device == i82559C) {
+ /*
+ TODO: get vendor id from EEPROM for i82557C or later.
+ TODO: get device id from EEPROM for i82557C or later.
+ TODO: status bit 4 can be disabled by EEPROM for i82558, i82559.
+ TODO: header type is determined by EEPROM for i82559.
+ TODO: get subsystem id from EEPROM for i82557C or later.
+ TODO: get subsystem vendor id from EEPROM for i82557C or later.
+ TODO: exp. rom baddr depends on a bit in EEPROM for i82558 or later.
+ TODO: capability pointer depends on EEPROM for i82558.
+ */
+ logout("Get device id and revision from EEPROM!!!\n");
+ }
+#endif /* EEPROM_SIZE > 0 */
+}
+
+static void nic_selective_reset(EEPRO100State * s)
+{
+ size_t i;
+ uint16_t *eeprom_contents = eeprom93xx_data(s->eeprom);
+#if 0
+ eeprom93xx_reset(s->eeprom);
+#endif
+ memcpy(eeprom_contents, s->conf.macaddr.a, 6);
+ eeprom_contents[EEPROM_ID] = EEPROM_ID_VALID;
+ if (s->device == i82557B || s->device == i82557C)
+ eeprom_contents[5] = 0x0100;
+ eeprom_contents[EEPROM_PHY_ID] = 1;
+ uint16_t sum = 0;
+ for (i = 0; i < EEPROM_SIZE - 1; i++) {
+ sum += eeprom_contents[i];
+ }
+ eeprom_contents[EEPROM_SIZE - 1] = 0xbaba - sum;
+ TRACE(EEPROM, logout("checksum=0x%04x\n", eeprom_contents[EEPROM_SIZE - 1]));
+
+ memset(s->mem, 0, sizeof(s->mem));
+ e100_write_reg4(s, SCBCtrlMDI, BIT(21));
+
+ assert(sizeof(s->mdimem) == sizeof(eepro100_mdi_default));
+ memcpy(&s->mdimem[0], &eepro100_mdi_default[0], sizeof(s->mdimem));
+}
+
+static void nic_reset(void *opaque)
+{
+ EEPRO100State *s = opaque;
+ TRACE(OTHER, logout("%p\n", s));
+ /* TODO: Clearing of hash register for selective reset, too? */
+ memset(&s->mult[0], 0, sizeof(s->mult));
+ nic_selective_reset(s);
+}
+
+#if defined(DEBUG_EEPRO100)
+static const char * const e100_reg[PCI_IO_SIZE / 4] = {
+ "Command/Status",
+ "General Pointer",
+ "Port",
+ "EEPROM/Flash Control",
+ "MDI Control",
+ "Receive DMA Byte Count",
+ "Flow Control",
+ "General Status/Control"
+};
+
+static char *regname(uint32_t addr)
+{
+ static char buf[32];
+ if (addr < PCI_IO_SIZE) {
+ const char *r = e100_reg[addr / 4];
+ if (r != 0) {
+ snprintf(buf, sizeof(buf), "%s+%u", r, addr % 4);
+ } else {
+ snprintf(buf, sizeof(buf), "0x%02x", addr);
+ }
+ } else {
+ snprintf(buf, sizeof(buf), "??? 0x%08x", addr);
+ }
+ return buf;
+}
+#endif /* DEBUG_EEPRO100 */
+
+/*****************************************************************************
+ *
+ * Command emulation.
+ *
+ ****************************************************************************/
+
+#if 0
+static uint16_t eepro100_read_command(EEPRO100State * s)
+{
+ uint16_t val = 0xffff;
+ TRACE(OTHER, logout("val=0x%04x\n", val));
+ return val;
+}
+#endif
+
+/* Commands that can be put in a command list entry. */
+enum commands {
+ CmdNOp = 0,
+ CmdIASetup = 1,
+ CmdConfigure = 2,
+ CmdMulticastList = 3,
+ CmdTx = 4,
+ CmdTDR = 5, /* load microcode */
+ CmdDump = 6,
+ CmdDiagnose = 7,
+
+ /* And some extra flags: */
+ CmdSuspend = 0x4000, /* Suspend after completion. */
+ CmdIntr = 0x2000, /* Interrupt after completion. */
+ CmdTxFlex = 0x0008, /* Use "Flexible mode" for CmdTx command. */
+};
+
+static cu_state_t get_cu_state(EEPRO100State * s)
+{
+ return ((s->mem[SCBStatus] & BITS(7, 6)) >> 6);
+}
+
+static void set_cu_state(EEPRO100State * s, cu_state_t state)
+{
+ s->mem[SCBStatus] = (s->mem[SCBStatus] & ~BITS(7, 6)) + (state << 6);
+}
+
+static ru_state_t get_ru_state(EEPRO100State * s)
+{
+ return ((s->mem[SCBStatus] & BITS(5, 2)) >> 2);
+}
+
+static void set_ru_state(EEPRO100State * s, ru_state_t state)
+{
+ s->mem[SCBStatus] = (s->mem[SCBStatus] & ~BITS(5, 2)) + (state << 2);
+}
+
+static void dump_statistics(EEPRO100State * s)
+{
+ /* Dump statistical data. Most data is never changed by the emulation
+ * and always 0, so we first just copy the whole block and then those
+ * values which really matter.
+ * Number of data should check configuration!!!
+ */
+ pci_dma_write(&s->dev, s->statsaddr, &s->statistics, s->stats_size);
+ stl_le_pci_dma(&s->dev, s->statsaddr + 0,
+ s->statistics.tx_good_frames);
+ stl_le_pci_dma(&s->dev, s->statsaddr + 36,
+ s->statistics.rx_good_frames);
+ stl_le_pci_dma(&s->dev, s->statsaddr + 48,
+ s->statistics.rx_resource_errors);
+ stl_le_pci_dma(&s->dev, s->statsaddr + 60,
+ s->statistics.rx_short_frame_errors);
+#if 0
+ stw_le_pci_dma(&s->dev, s->statsaddr + 76, s->statistics.xmt_tco_frames);
+ stw_le_pci_dma(&s->dev, s->statsaddr + 78, s->statistics.rcv_tco_frames);
+ missing("CU dump statistical counters");
+#endif
+}
+
+static void read_cb(EEPRO100State *s)
+{
+ pci_dma_read(&s->dev, s->cb_address, &s->tx, sizeof(s->tx));
+ s->tx.status = le16_to_cpu(s->tx.status);
+ s->tx.command = le16_to_cpu(s->tx.command);
+ s->tx.link = le32_to_cpu(s->tx.link);
+ s->tx.tbd_array_addr = le32_to_cpu(s->tx.tbd_array_addr);
+ s->tx.tcb_bytes = le16_to_cpu(s->tx.tcb_bytes);
+}
+
+static void tx_command(EEPRO100State *s)
+{
+ uint32_t tbd_array = le32_to_cpu(s->tx.tbd_array_addr);
+ uint16_t tcb_bytes = (le16_to_cpu(s->tx.tcb_bytes) & 0x3fff);
+ /* Sends larger than MAX_ETH_FRAME_SIZE are allowed, up to 2600 bytes. */
+ uint8_t buf[2600];
+ uint16_t size = 0;
+ uint32_t tbd_address = s->cb_address + 0x10;
+ TRACE(RXTX, logout
+ ("transmit, TBD array address 0x%08x, TCB byte count 0x%04x, TBD count %u\n",
+ tbd_array, tcb_bytes, s->tx.tbd_count));
+
+ if (tcb_bytes > 2600) {
+ logout("TCB byte count too large, using 2600\n");
+ tcb_bytes = 2600;
+ }
+ if (!((tcb_bytes > 0) || (tbd_array != 0xffffffff))) {
+ logout
+ ("illegal values of TBD array address and TCB byte count!\n");
+ }
+ assert(tcb_bytes <= sizeof(buf));
+ while (size < tcb_bytes) {
+ uint32_t tx_buffer_address = ldl_le_pci_dma(&s->dev, tbd_address);
+ uint16_t tx_buffer_size = lduw_le_pci_dma(&s->dev, tbd_address + 4);
+#if 0
+ uint16_t tx_buffer_el = lduw_le_pci_dma(&s->dev, tbd_address + 6);
+#endif
+ if (tx_buffer_size == 0) {
+ /* Prevent an endless loop. */
+ logout("loop in %s:%u\n", __FILE__, __LINE__);
+ break;
+ }
+ tbd_address += 8;
+ TRACE(RXTX, logout
+ ("TBD (simplified mode): buffer address 0x%08x, size 0x%04x\n",
+ tx_buffer_address, tx_buffer_size));
+ tx_buffer_size = MIN(tx_buffer_size, sizeof(buf) - size);
+ pci_dma_read(&s->dev, tx_buffer_address, &buf[size], tx_buffer_size);
+ size += tx_buffer_size;
+ }
+ if (tbd_array == 0xffffffff) {
+ /* Simplified mode. Was already handled by code above. */
+ } else {
+ /* Flexible mode. */
+ uint8_t tbd_count = 0;
+ if (s->has_extended_tcb_support && !(s->configuration[6] & BIT(4))) {
+ /* Extended Flexible TCB. */
+ for (; tbd_count < 2; tbd_count++) {
+ uint32_t tx_buffer_address = ldl_le_pci_dma(&s->dev,
+ tbd_address);
+ uint16_t tx_buffer_size = lduw_le_pci_dma(&s->dev,
+ tbd_address + 4);
+ uint16_t tx_buffer_el = lduw_le_pci_dma(&s->dev,
+ tbd_address + 6);
+ tbd_address += 8;
+ TRACE(RXTX, logout
+ ("TBD (extended flexible mode): buffer address 0x%08x, size 0x%04x\n",
+ tx_buffer_address, tx_buffer_size));
+ tx_buffer_size = MIN(tx_buffer_size, sizeof(buf) - size);
+ pci_dma_read(&s->dev, tx_buffer_address,
+ &buf[size], tx_buffer_size);
+ size += tx_buffer_size;
+ if (tx_buffer_el & 1) {
+ break;
+ }
+ }
+ }
+ tbd_address = tbd_array;
+ for (; tbd_count < s->tx.tbd_count; tbd_count++) {
+ uint32_t tx_buffer_address = ldl_le_pci_dma(&s->dev, tbd_address);
+ uint16_t tx_buffer_size = lduw_le_pci_dma(&s->dev, tbd_address + 4);
+ uint16_t tx_buffer_el = lduw_le_pci_dma(&s->dev, tbd_address + 6);
+ tbd_address += 8;
+ TRACE(RXTX, logout
+ ("TBD (flexible mode): buffer address 0x%08x, size 0x%04x\n",
+ tx_buffer_address, tx_buffer_size));
+ tx_buffer_size = MIN(tx_buffer_size, sizeof(buf) - size);
+ pci_dma_read(&s->dev, tx_buffer_address,
+ &buf[size], tx_buffer_size);
+ size += tx_buffer_size;
+ if (tx_buffer_el & 1) {
+ break;
+ }
+ }
+ }
+ TRACE(RXTX, logout("%p sending frame, len=%d,%s\n", s, size, nic_dump(buf, size)));
+ qemu_send_packet(qemu_get_queue(s->nic), buf, size);
+ s->statistics.tx_good_frames++;
+ /* Transmit with bad status would raise an CX/TNO interrupt.
+ * (82557 only). Emulation never has bad status. */
+#if 0
+ eepro100_cx_interrupt(s);
+#endif
+}
+
+static void set_multicast_list(EEPRO100State *s)
+{
+ uint16_t multicast_count = s->tx.tbd_array_addr & BITS(13, 0);
+ uint16_t i;
+ memset(&s->mult[0], 0, sizeof(s->mult));
+ TRACE(OTHER, logout("multicast list, multicast count = %u\n", multicast_count));
+ for (i = 0; i < multicast_count; i += 6) {
+ uint8_t multicast_addr[6];
+ pci_dma_read(&s->dev, s->cb_address + 10 + i, multicast_addr, 6);
+ TRACE(OTHER, logout("multicast entry %s\n", nic_dump(multicast_addr, 6)));
+ unsigned mcast_idx = e100_compute_mcast_idx(multicast_addr);
+ assert(mcast_idx < 64);
+ s->mult[mcast_idx >> 3] |= (1 << (mcast_idx & 7));
+ }
+}
+
+static void action_command(EEPRO100State *s)
+{
+ /* The loop below won't stop if it gets special handcrafted data.
+ Therefore we limit the number of iterations. */
+ unsigned max_loop_count = 16;
+
+ for (;;) {
+ bool bit_el;
+ bool bit_s;
+ bool bit_i;
+ bool bit_nc;
+ uint16_t ok_status = STATUS_OK;
+ s->cb_address = s->cu_base + s->cu_offset;
+ read_cb(s);
+ bit_el = ((s->tx.command & COMMAND_EL) != 0);
+ bit_s = ((s->tx.command & COMMAND_S) != 0);
+ bit_i = ((s->tx.command & COMMAND_I) != 0);
+ bit_nc = ((s->tx.command & COMMAND_NC) != 0);
+#if 0
+ bool bit_sf = ((s->tx.command & COMMAND_SF) != 0);
+#endif
+
+ if (max_loop_count-- == 0) {
+ /* Prevent an endless loop. */
+ logout("loop in %s:%u\n", __FILE__, __LINE__);
+ break;
+ }
+
+ s->cu_offset = s->tx.link;
+ TRACE(OTHER,
+ logout("val=(cu start), status=0x%04x, command=0x%04x, link=0x%08x\n",
+ s->tx.status, s->tx.command, s->tx.link));
+ switch (s->tx.command & COMMAND_CMD) {
+ case CmdNOp:
+ /* Do nothing. */
+ break;
+ case CmdIASetup:
+ pci_dma_read(&s->dev, s->cb_address + 8, &s->conf.macaddr.a[0], 6);
+ TRACE(OTHER, logout("macaddr: %s\n", nic_dump(&s->conf.macaddr.a[0], 6)));
+ break;
+ case CmdConfigure:
+ pci_dma_read(&s->dev, s->cb_address + 8,
+ &s->configuration[0], sizeof(s->configuration));
+ TRACE(OTHER, logout("configuration: %s\n",
+ nic_dump(&s->configuration[0], 16)));
+ TRACE(OTHER, logout("configuration: %s\n",
+ nic_dump(&s->configuration[16],
+ ARRAY_SIZE(s->configuration) - 16)));
+ if (s->configuration[20] & BIT(6)) {
+ TRACE(OTHER, logout("Multiple IA bit\n"));
+ }
+ break;
+ case CmdMulticastList:
+ set_multicast_list(s);
+ break;
+ case CmdTx:
+ if (bit_nc) {
+ missing("CmdTx: NC = 0");
+ ok_status = 0;
+ break;
+ }
+ tx_command(s);
+ break;
+ case CmdTDR:
+ TRACE(OTHER, logout("load microcode\n"));
+ /* Starting with offset 8, the command contains
+ * 64 dwords microcode which we just ignore here. */
+ break;
+ case CmdDiagnose:
+ TRACE(OTHER, logout("diagnose\n"));
+ /* Make sure error flag is not set. */
+ s->tx.status = 0;
+ break;
+ default:
+ missing("undefined command");
+ ok_status = 0;
+ break;
+ }
+ /* Write new status. */
+ stw_le_pci_dma(&s->dev, s->cb_address,
+ s->tx.status | ok_status | STATUS_C);
+ if (bit_i) {
+ /* CU completed action. */
+ eepro100_cx_interrupt(s);
+ }
+ if (bit_el) {
+ /* CU becomes idle. Terminate command loop. */
+ set_cu_state(s, cu_idle);
+ eepro100_cna_interrupt(s);
+ break;
+ } else if (bit_s) {
+ /* CU becomes suspended. Terminate command loop. */
+ set_cu_state(s, cu_suspended);
+ eepro100_cna_interrupt(s);
+ break;
+ } else {
+ /* More entries in list. */
+ TRACE(OTHER, logout("CU list with at least one more entry\n"));
+ }
+ }
+ TRACE(OTHER, logout("CU list empty\n"));
+ /* List is empty. Now CU is idle or suspended. */
+}
+
+static void eepro100_cu_command(EEPRO100State * s, uint8_t val)
+{
+ cu_state_t cu_state;
+ switch (val) {
+ case CU_NOP:
+ /* No operation. */
+ break;
+ case CU_START:
+ cu_state = get_cu_state(s);
+ if (cu_state != cu_idle && cu_state != cu_suspended) {
+ /* Intel documentation says that CU must be idle or suspended
+ * for the CU start command. */
+ logout("unexpected CU state is %u\n", cu_state);
+ }
+ set_cu_state(s, cu_active);
+ s->cu_offset = e100_read_reg4(s, SCBPointer);
+ action_command(s);
+ break;
+ case CU_RESUME:
+ if (get_cu_state(s) != cu_suspended) {
+ logout("bad CU resume from CU state %u\n", get_cu_state(s));
+ /* Workaround for bad Linux eepro100 driver which resumes
+ * from idle state. */
+#if 0
+ missing("cu resume");
+#endif
+ set_cu_state(s, cu_suspended);
+ }
+ if (get_cu_state(s) == cu_suspended) {
+ TRACE(OTHER, logout("CU resuming\n"));
+ set_cu_state(s, cu_active);
+ action_command(s);
+ }
+ break;
+ case CU_STATSADDR:
+ /* Load dump counters address. */
+ s->statsaddr = e100_read_reg4(s, SCBPointer);
+ TRACE(OTHER, logout("val=0x%02x (dump counters address)\n", val));
+ if (s->statsaddr & 3) {
+ /* Memory must be Dword aligned. */
+ logout("unaligned dump counters address\n");
+ /* Handling of misaligned addresses is undefined.
+ * Here we align the address by ignoring the lower bits. */
+ /* TODO: Test unaligned dump counter address on real hardware. */
+ s->statsaddr &= ~3;
+ }
+ break;
+ case CU_SHOWSTATS:
+ /* Dump statistical counters. */
+ TRACE(OTHER, logout("val=0x%02x (dump stats)\n", val));
+ dump_statistics(s);
+ stl_le_pci_dma(&s->dev, s->statsaddr + s->stats_size, 0xa005);
+ break;
+ case CU_CMD_BASE:
+ /* Load CU base. */
+ TRACE(OTHER, logout("val=0x%02x (CU base address)\n", val));
+ s->cu_base = e100_read_reg4(s, SCBPointer);
+ break;
+ case CU_DUMPSTATS:
+ /* Dump and reset statistical counters. */
+ TRACE(OTHER, logout("val=0x%02x (dump stats and reset)\n", val));
+ dump_statistics(s);
+ stl_le_pci_dma(&s->dev, s->statsaddr + s->stats_size, 0xa007);
+ memset(&s->statistics, 0, sizeof(s->statistics));
+ break;
+ case CU_SRESUME:
+ /* CU static resume. */
+ missing("CU static resume");
+ break;
+ default:
+ missing("Undefined CU command");
+ }
+}
+
+static void eepro100_ru_command(EEPRO100State * s, uint8_t val)
+{
+ switch (val) {
+ case RU_NOP:
+ /* No operation. */
+ break;
+ case RX_START:
+ /* RU start. */
+ if (get_ru_state(s) != ru_idle) {
+ logout("RU state is %u, should be %u\n", get_ru_state(s), ru_idle);
+#if 0
+ assert(!"wrong RU state");
+#endif
+ }
+ set_ru_state(s, ru_ready);
+ s->ru_offset = e100_read_reg4(s, SCBPointer);
+ qemu_flush_queued_packets(qemu_get_queue(s->nic));
+ TRACE(OTHER, logout("val=0x%02x (rx start)\n", val));
+ break;
+ case RX_RESUME:
+ /* Restart RU. */
+ if (get_ru_state(s) != ru_suspended) {
+ logout("RU state is %u, should be %u\n", get_ru_state(s),
+ ru_suspended);
+#if 0
+ assert(!"wrong RU state");
+#endif
+ }
+ set_ru_state(s, ru_ready);
+ break;
+ case RU_ABORT:
+ /* RU abort. */
+ if (get_ru_state(s) == ru_ready) {
+ eepro100_rnr_interrupt(s);
+ }
+ set_ru_state(s, ru_idle);
+ break;
+ case RX_ADDR_LOAD:
+ /* Load RU base. */
+ TRACE(OTHER, logout("val=0x%02x (RU base address)\n", val));
+ s->ru_base = e100_read_reg4(s, SCBPointer);
+ break;
+ default:
+ logout("val=0x%02x (undefined RU command)\n", val);
+ missing("Undefined SU command");
+ }
+}
+
+static void eepro100_write_command(EEPRO100State * s, uint8_t val)
+{
+ eepro100_ru_command(s, val & 0x0f);
+ eepro100_cu_command(s, val & 0xf0);
+ if ((val) == 0) {
+ TRACE(OTHER, logout("val=0x%02x\n", val));
+ }
+ /* Clear command byte after command was accepted. */
+ s->mem[SCBCmd] = 0;
+}
+
+/*****************************************************************************
+ *
+ * EEPROM emulation.
+ *
+ ****************************************************************************/
+
+#define EEPROM_CS 0x02
+#define EEPROM_SK 0x01
+#define EEPROM_DI 0x04
+#define EEPROM_DO 0x08
+
+static uint16_t eepro100_read_eeprom(EEPRO100State * s)
+{
+ uint16_t val = e100_read_reg2(s, SCBeeprom);
+ if (eeprom93xx_read(s->eeprom)) {
+ val |= EEPROM_DO;
+ } else {
+ val &= ~EEPROM_DO;
+ }
+ TRACE(EEPROM, logout("val=0x%04x\n", val));
+ return val;
+}
+
+static void eepro100_write_eeprom(eeprom_t * eeprom, uint8_t val)
+{
+ TRACE(EEPROM, logout("val=0x%02x\n", val));
+
+ /* mask unwritable bits */
+#if 0
+ val = SET_MASKED(val, 0x31, eeprom->value);
+#endif
+
+ int eecs = ((val & EEPROM_CS) != 0);
+ int eesk = ((val & EEPROM_SK) != 0);
+ int eedi = ((val & EEPROM_DI) != 0);
+ eeprom93xx_write(eeprom, eecs, eesk, eedi);
+}
+
+/*****************************************************************************
+ *
+ * MDI emulation.
+ *
+ ****************************************************************************/
+
+#if defined(DEBUG_EEPRO100)
+static const char * const mdi_op_name[] = {
+ "opcode 0",
+ "write",
+ "read",
+ "opcode 3"
+};
+
+static const char * const mdi_reg_name[] = {
+ "Control",
+ "Status",
+ "PHY Identification (Word 1)",
+ "PHY Identification (Word 2)",
+ "Auto-Negotiation Advertisement",
+ "Auto-Negotiation Link Partner Ability",
+ "Auto-Negotiation Expansion"
+};
+
+static const char *reg2name(uint8_t reg)
+{
+ static char buffer[10];
+ const char *p = buffer;
+ if (reg < ARRAY_SIZE(mdi_reg_name)) {
+ p = mdi_reg_name[reg];
+ } else {
+ snprintf(buffer, sizeof(buffer), "reg=0x%02x", reg);
+ }
+ return p;
+}
+#endif /* DEBUG_EEPRO100 */
+
+static uint32_t eepro100_read_mdi(EEPRO100State * s)
+{
+ uint32_t val = e100_read_reg4(s, SCBCtrlMDI);
+
+#ifdef DEBUG_EEPRO100
+ uint8_t raiseint = (val & BIT(29)) >> 29;
+ uint8_t opcode = (val & BITS(27, 26)) >> 26;
+ uint8_t phy = (val & BITS(25, 21)) >> 21;
+ uint8_t reg = (val & BITS(20, 16)) >> 16;
+ uint16_t data = (val & BITS(15, 0));
+#endif
+ /* Emulation takes no time to finish MDI transaction. */
+ val |= BIT(28);
+ TRACE(MDI, logout("val=0x%08x (int=%u, %s, phy=%u, %s, data=0x%04x\n",
+ val, raiseint, mdi_op_name[opcode], phy,
+ reg2name(reg), data));
+ return val;
+}
+
+static void eepro100_write_mdi(EEPRO100State *s)
+{
+ uint32_t val = e100_read_reg4(s, SCBCtrlMDI);
+ uint8_t raiseint = (val & BIT(29)) >> 29;
+ uint8_t opcode = (val & BITS(27, 26)) >> 26;
+ uint8_t phy = (val & BITS(25, 21)) >> 21;
+ uint8_t reg = (val & BITS(20, 16)) >> 16;
+ uint16_t data = (val & BITS(15, 0));
+ TRACE(MDI, logout("val=0x%08x (int=%u, %s, phy=%u, %s, data=0x%04x\n",
+ val, raiseint, mdi_op_name[opcode], phy, reg2name(reg), data));
+ if (phy != 1) {
+ /* Unsupported PHY address. */
+#if 0
+ logout("phy must be 1 but is %u\n", phy);
+#endif
+ data = 0;
+ } else if (opcode != 1 && opcode != 2) {
+ /* Unsupported opcode. */
+ logout("opcode must be 1 or 2 but is %u\n", opcode);
+ data = 0;
+ } else if (reg > 6) {
+ /* Unsupported register. */
+ logout("register must be 0...6 but is %u\n", reg);
+ data = 0;
+ } else {
+ TRACE(MDI, logout("val=0x%08x (int=%u, %s, phy=%u, %s, data=0x%04x\n",
+ val, raiseint, mdi_op_name[opcode], phy,
+ reg2name(reg), data));
+ if (opcode == 1) {
+ /* MDI write */
+ switch (reg) {
+ case 0: /* Control Register */
+ if (data & 0x8000) {
+ /* Reset status and control registers to default. */
+ s->mdimem[0] = eepro100_mdi_default[0];
+ s->mdimem[1] = eepro100_mdi_default[1];
+ data = s->mdimem[reg];
+ } else {
+ /* Restart Auto Configuration = Normal Operation */
+ data &= ~0x0200;
+ }
+ break;
+ case 1: /* Status Register */
+ missing("not writable");
+ break;
+ case 2: /* PHY Identification Register (Word 1) */
+ case 3: /* PHY Identification Register (Word 2) */
+ missing("not implemented");
+ break;
+ case 4: /* Auto-Negotiation Advertisement Register */
+ case 5: /* Auto-Negotiation Link Partner Ability Register */
+ break;
+ case 6: /* Auto-Negotiation Expansion Register */
+ default:
+ missing("not implemented");
+ }
+ s->mdimem[reg] &= eepro100_mdi_mask[reg];
+ s->mdimem[reg] |= data & ~eepro100_mdi_mask[reg];
+ } else if (opcode == 2) {
+ /* MDI read */
+ switch (reg) {
+ case 0: /* Control Register */
+ if (data & 0x8000) {
+ /* Reset status and control registers to default. */
+ s->mdimem[0] = eepro100_mdi_default[0];
+ s->mdimem[1] = eepro100_mdi_default[1];
+ }
+ break;
+ case 1: /* Status Register */
+ s->mdimem[reg] |= 0x0020;
+ break;
+ case 2: /* PHY Identification Register (Word 1) */
+ case 3: /* PHY Identification Register (Word 2) */
+ case 4: /* Auto-Negotiation Advertisement Register */
+ break;
+ case 5: /* Auto-Negotiation Link Partner Ability Register */
+ s->mdimem[reg] = 0x41fe;
+ break;
+ case 6: /* Auto-Negotiation Expansion Register */
+ s->mdimem[reg] = 0x0001;
+ break;
+ }
+ data = s->mdimem[reg];
+ }
+ /* Emulation takes no time to finish MDI transaction.
+ * Set MDI bit in SCB status register. */
+ s->mem[SCBAck] |= 0x08;
+ val |= BIT(28);
+ if (raiseint) {
+ eepro100_mdi_interrupt(s);
+ }
+ }
+ val = (val & 0xffff0000) + data;
+ e100_write_reg4(s, SCBCtrlMDI, val);
+}
+
+/*****************************************************************************
+ *
+ * Port emulation.
+ *
+ ****************************************************************************/
+
+#define PORT_SOFTWARE_RESET 0
+#define PORT_SELFTEST 1
+#define PORT_SELECTIVE_RESET 2
+#define PORT_DUMP 3
+#define PORT_SELECTION_MASK 3
+
+typedef struct {
+ uint32_t st_sign; /* Self Test Signature */
+ uint32_t st_result; /* Self Test Results */
+} eepro100_selftest_t;
+
+static uint32_t eepro100_read_port(EEPRO100State * s)
+{
+ return 0;
+}
+
+static void eepro100_write_port(EEPRO100State *s)
+{
+ uint32_t val = e100_read_reg4(s, SCBPort);
+ uint32_t address = (val & ~PORT_SELECTION_MASK);
+ uint8_t selection = (val & PORT_SELECTION_MASK);
+ switch (selection) {
+ case PORT_SOFTWARE_RESET:
+ nic_reset(s);
+ break;
+ case PORT_SELFTEST:
+ TRACE(OTHER, logout("selftest address=0x%08x\n", address));
+ eepro100_selftest_t data;
+ pci_dma_read(&s->dev, address, (uint8_t *) &data, sizeof(data));
+ data.st_sign = 0xffffffff;
+ data.st_result = 0;
+ pci_dma_write(&s->dev, address, (uint8_t *) &data, sizeof(data));
+ break;
+ case PORT_SELECTIVE_RESET:
+ TRACE(OTHER, logout("selective reset, selftest address=0x%08x\n", address));
+ nic_selective_reset(s);
+ break;
+ default:
+ logout("val=0x%08x\n", val);
+ missing("unknown port selection");
+ }
+}
+
+/*****************************************************************************
+ *
+ * General hardware emulation.
+ *
+ ****************************************************************************/
+
+static uint8_t eepro100_read1(EEPRO100State * s, uint32_t addr)
+{
+ uint8_t val = 0;
+ if (addr <= sizeof(s->mem) - sizeof(val)) {
+ val = s->mem[addr];
+ }
+
+ switch (addr) {
+ case SCBStatus:
+ case SCBAck:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBCmd:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+#if 0
+ val = eepro100_read_command(s);
+#endif
+ break;
+ case SCBIntmask:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBPort + 3:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBeeprom:
+ val = eepro100_read_eeprom(s);
+ break;
+ case SCBCtrlMDI:
+ case SCBCtrlMDI + 1:
+ case SCBCtrlMDI + 2:
+ case SCBCtrlMDI + 3:
+ val = (uint8_t)(eepro100_read_mdi(s) >> (8 * (addr & 3)));
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBpmdr: /* Power Management Driver Register */
+ val = 0;
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBgctrl: /* General Control Register */
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBgstat: /* General Status Register */
+ /* 100 Mbps full duplex, valid link */
+ val = 0x07;
+ TRACE(OTHER, logout("addr=General Status val=%02x\n", val));
+ break;
+ default:
+ logout("addr=%s val=0x%02x\n", regname(addr), val);
+ missing("unknown byte read");
+ }
+ return val;
+}
+
+static uint16_t eepro100_read2(EEPRO100State * s, uint32_t addr)
+{
+ uint16_t val = 0;
+ if (addr <= sizeof(s->mem) - sizeof(val)) {
+ val = e100_read_reg2(s, addr);
+ }
+
+ switch (addr) {
+ case SCBStatus:
+ case SCBCmd:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ break;
+ case SCBeeprom:
+ val = eepro100_read_eeprom(s);
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ break;
+ case SCBCtrlMDI:
+ case SCBCtrlMDI + 2:
+ val = (uint16_t)(eepro100_read_mdi(s) >> (8 * (addr & 3)));
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ break;
+ default:
+ logout("addr=%s val=0x%04x\n", regname(addr), val);
+ missing("unknown word read");
+ }
+ return val;
+}
+
+static uint32_t eepro100_read4(EEPRO100State * s, uint32_t addr)
+{
+ uint32_t val = 0;
+ if (addr <= sizeof(s->mem) - sizeof(val)) {
+ val = e100_read_reg4(s, addr);
+ }
+
+ switch (addr) {
+ case SCBStatus:
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ break;
+ case SCBPointer:
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ break;
+ case SCBPort:
+ val = eepro100_read_port(s);
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ break;
+ case SCBflash:
+ val = eepro100_read_eeprom(s);
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ break;
+ case SCBCtrlMDI:
+ val = eepro100_read_mdi(s);
+ break;
+ default:
+ logout("addr=%s val=0x%08x\n", regname(addr), val);
+ missing("unknown longword read");
+ }
+ return val;
+}
+
+static void eepro100_write1(EEPRO100State * s, uint32_t addr, uint8_t val)
+{
+ /* SCBStatus is readonly. */
+ if (addr > SCBStatus && addr <= sizeof(s->mem) - sizeof(val)) {
+ s->mem[addr] = val;
+ }
+
+ switch (addr) {
+ case SCBStatus:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBAck:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ eepro100_acknowledge(s);
+ break;
+ case SCBCmd:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ eepro100_write_command(s, val);
+ break;
+ case SCBIntmask:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ if (val & BIT(1)) {
+ eepro100_swi_interrupt(s);
+ }
+ eepro100_interrupt(s, 0);
+ break;
+ case SCBPointer:
+ case SCBPointer + 1:
+ case SCBPointer + 2:
+ case SCBPointer + 3:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBPort:
+ case SCBPort + 1:
+ case SCBPort + 2:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBPort + 3:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ eepro100_write_port(s);
+ break;
+ case SCBFlow: /* does not exist on 82557 */
+ case SCBFlow + 1:
+ case SCBFlow + 2:
+ case SCBpmdr: /* does not exist on 82557 */
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBeeprom:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ eepro100_write_eeprom(s->eeprom, val);
+ break;
+ case SCBCtrlMDI:
+ case SCBCtrlMDI + 1:
+ case SCBCtrlMDI + 2:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ break;
+ case SCBCtrlMDI + 3:
+ TRACE(OTHER, logout("addr=%s val=0x%02x\n", regname(addr), val));
+ eepro100_write_mdi(s);
+ break;
+ default:
+ logout("addr=%s val=0x%02x\n", regname(addr), val);
+ missing("unknown byte write");
+ }
+}
+
+static void eepro100_write2(EEPRO100State * s, uint32_t addr, uint16_t val)
+{
+ /* SCBStatus is readonly. */
+ if (addr > SCBStatus && addr <= sizeof(s->mem) - sizeof(val)) {
+ e100_write_reg2(s, addr, val);
+ }
+
+ switch (addr) {
+ case SCBStatus:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ s->mem[SCBAck] = (val >> 8);
+ eepro100_acknowledge(s);
+ break;
+ case SCBCmd:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ eepro100_write_command(s, val);
+ eepro100_write1(s, SCBIntmask, val >> 8);
+ break;
+ case SCBPointer:
+ case SCBPointer + 2:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ break;
+ case SCBPort:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ break;
+ case SCBPort + 2:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ eepro100_write_port(s);
+ break;
+ case SCBeeprom:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ eepro100_write_eeprom(s->eeprom, val);
+ break;
+ case SCBCtrlMDI:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ break;
+ case SCBCtrlMDI + 2:
+ TRACE(OTHER, logout("addr=%s val=0x%04x\n", regname(addr), val));
+ eepro100_write_mdi(s);
+ break;
+ default:
+ logout("addr=%s val=0x%04x\n", regname(addr), val);
+ missing("unknown word write");
+ }
+}
+
+static void eepro100_write4(EEPRO100State * s, uint32_t addr, uint32_t val)
+{
+ if (addr <= sizeof(s->mem) - sizeof(val)) {
+ e100_write_reg4(s, addr, val);
+ }
+
+ switch (addr) {
+ case SCBPointer:
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ break;
+ case SCBPort:
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ eepro100_write_port(s);
+ break;
+ case SCBflash:
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ val = val >> 16;
+ eepro100_write_eeprom(s->eeprom, val);
+ break;
+ case SCBCtrlMDI:
+ TRACE(OTHER, logout("addr=%s val=0x%08x\n", regname(addr), val));
+ eepro100_write_mdi(s);
+ break;
+ default:
+ logout("addr=%s val=0x%08x\n", regname(addr), val);
+ missing("unknown longword write");
+ }
+}
+
+static uint64_t eepro100_read(void *opaque, hwaddr addr,
+ unsigned size)
+{
+ EEPRO100State *s = opaque;
+
+ switch (size) {
+ case 1: return eepro100_read1(s, addr);
+ case 2: return eepro100_read2(s, addr);
+ case 4: return eepro100_read4(s, addr);
+ default: abort();
+ }
+}
+
+static void eepro100_write(void *opaque, hwaddr addr,
+ uint64_t data, unsigned size)
+{
+ EEPRO100State *s = opaque;
+
+ switch (size) {
+ case 1:
+ eepro100_write1(s, addr, data);
+ break;
+ case 2:
+ eepro100_write2(s, addr, data);
+ break;
+ case 4:
+ eepro100_write4(s, addr, data);
+ break;
+ default:
+ abort();
+ }
+}
+
+static const MemoryRegionOps eepro100_ops = {
+ .read = eepro100_read,
+ .write = eepro100_write,
+ .endianness = DEVICE_LITTLE_ENDIAN,
+};
+
+static ssize_t nic_receive(NetClientState *nc, const uint8_t * buf, size_t size)
+{
+ /* TODO:
+ * - Magic packets should set bit 30 in power management driver register.
+ * - Interesting packets should set bit 29 in power management driver register.
+ */
+ EEPRO100State *s = qemu_get_nic_opaque(nc);
+ uint16_t rfd_status = 0xa000;
+#if defined(CONFIG_PAD_RECEIVED_FRAMES)
+ uint8_t min_buf[60];
+#endif
+ static const uint8_t broadcast_macaddr[6] =
+ { 0xff, 0xff, 0xff, 0xff, 0xff, 0xff };
+
+#if defined(CONFIG_PAD_RECEIVED_FRAMES)
+ /* Pad to minimum Ethernet frame length */
+ if (size < sizeof(min_buf)) {
+ memcpy(min_buf, buf, size);
+ memset(&min_buf[size], 0, sizeof(min_buf) - size);
+ buf = min_buf;
+ size = sizeof(min_buf);
+ }
+#endif
+
+ if (s->configuration[8] & 0x80) {
+ /* CSMA is disabled. */
+ logout("%p received while CSMA is disabled\n", s);
+ return -1;
+#if !defined(CONFIG_PAD_RECEIVED_FRAMES)
+ } else if (size < 64 && (s->configuration[7] & BIT(0))) {
+ /* Short frame and configuration byte 7/0 (discard short receive) set:
+ * Short frame is discarded */
+ logout("%p received short frame (%zu byte)\n", s, size);
+ s->statistics.rx_short_frame_errors++;
+ return -1;
+#endif
+ } else if ((size > MAX_ETH_FRAME_SIZE + 4) && !(s->configuration[18] & BIT(3))) {
+ /* Long frame and configuration byte 18/3 (long receive ok) not set:
+ * Long frames are discarded. */
+ logout("%p received long frame (%zu byte), ignored\n", s, size);
+ return -1;
+ } else if (memcmp(buf, s->conf.macaddr.a, 6) == 0) { /* !!! */
+ /* Frame matches individual address. */
+ /* TODO: check configuration byte 15/4 (ignore U/L). */
+ TRACE(RXTX, logout("%p received frame for me, len=%zu\n", s, size));
+ } else if (memcmp(buf, broadcast_macaddr, 6) == 0) {
+ /* Broadcast frame. */
+ TRACE(RXTX, logout("%p received broadcast, len=%zu\n", s, size));
+ rfd_status |= 0x0002;
+ } else if (buf[0] & 0x01) {
+ /* Multicast frame. */
+ TRACE(RXTX, logout("%p received multicast, len=%zu,%s\n", s, size, nic_dump(buf, size)));
+ if (s->configuration[21] & BIT(3)) {
+ /* Multicast all bit is set, receive all multicast frames. */
+ } else {
+ unsigned mcast_idx = e100_compute_mcast_idx(buf);
+ assert(mcast_idx < 64);
+ if (s->mult[mcast_idx >> 3] & (1 << (mcast_idx & 7))) {
+ /* Multicast frame is allowed in hash table. */
+ } else if (s->configuration[15] & BIT(0)) {
+ /* Promiscuous: receive all. */
+ rfd_status |= 0x0004;
+ } else {
+ TRACE(RXTX, logout("%p multicast ignored\n", s));
+ return -1;
+ }
+ }
+ /* TODO: Next not for promiscuous mode? */
+ rfd_status |= 0x0002;
+ } else if (s->configuration[15] & BIT(0)) {
+ /* Promiscuous: receive all. */
+ TRACE(RXTX, logout("%p received frame in promiscuous mode, len=%zu\n", s, size));
+ rfd_status |= 0x0004;
+ } else if (s->configuration[20] & BIT(6)) {
+ /* Multiple IA bit set. */
+ unsigned mcast_idx = compute_mcast_idx(buf);
+ assert(mcast_idx < 64);
+ if (s->mult[mcast_idx >> 3] & (1 << (mcast_idx & 7))) {
+ TRACE(RXTX, logout("%p accepted, multiple IA bit set\n", s));
+ } else {
+ TRACE(RXTX, logout("%p frame ignored, multiple IA bit set\n", s));
+ return -1;
+ }
+ } else {
+ TRACE(RXTX, logout("%p received frame, ignored, len=%zu,%s\n", s, size,
+ nic_dump(buf, size)));
+ return size;
+ }
+
+ if (get_ru_state(s) != ru_ready) {
+ /* No resources available. */
+ logout("no resources, state=%u\n", get_ru_state(s));
+ /* TODO: RNR interrupt only at first failed frame? */
+ eepro100_rnr_interrupt(s);
+ s->statistics.rx_resource_errors++;
+#if 0
+ assert(!"no resources");
+#endif
+ return -1;
+ }
+ /* !!! */
+ eepro100_rx_t rx;
+ pci_dma_read(&s->dev, s->ru_base + s->ru_offset,
+ &rx, sizeof(eepro100_rx_t));
+ uint16_t rfd_command = le16_to_cpu(rx.command);
+ uint16_t rfd_size = le16_to_cpu(rx.size);
+
+ if (size > rfd_size) {
+ logout("Receive buffer (%" PRId16 " bytes) too small for data "
+ "(%zu bytes); data truncated\n", rfd_size, size);
+ size = rfd_size;
+ }
+#if !defined(CONFIG_PAD_RECEIVED_FRAMES)
+ if (size < 64) {
+ rfd_status |= 0x0080;
+ }
+#endif
+ TRACE(OTHER, logout("command 0x%04x, link 0x%08x, addr 0x%08x, size %u\n",
+ rfd_command, rx.link, rx.rx_buf_addr, rfd_size));
+ stw_le_pci_dma(&s->dev, s->ru_base + s->ru_offset +
+ offsetof(eepro100_rx_t, status), rfd_status);
+ stw_le_pci_dma(&s->dev, s->ru_base + s->ru_offset +
+ offsetof(eepro100_rx_t, count), size);
+ /* Early receive interrupt not supported. */
+#if 0
+ eepro100_er_interrupt(s);
+#endif
+ /* Receive CRC Transfer not supported. */
+ if (s->configuration[18] & BIT(2)) {
+ missing("Receive CRC Transfer");
+ return -1;
+ }
+ /* TODO: check stripping enable bit. */
+#if 0
+ assert(!(s->configuration[17] & BIT(0)));
+#endif
+ pci_dma_write(&s->dev, s->ru_base + s->ru_offset +
+ sizeof(eepro100_rx_t), buf, size);
+ s->statistics.rx_good_frames++;
+ eepro100_fr_interrupt(s);
+ s->ru_offset = le32_to_cpu(rx.link);
+ if (rfd_command & COMMAND_EL) {
+ /* EL bit is set, so this was the last frame. */
+ logout("receive: Running out of frames\n");
+ set_ru_state(s, ru_no_resources);
+ eepro100_rnr_interrupt(s);
+ }
+ if (rfd_command & COMMAND_S) {
+ /* S bit is set. */
+ set_ru_state(s, ru_suspended);
+ }
+ return size;
+}
+
+static const VMStateDescription vmstate_eepro100 = {
+ .version_id = 3,
+ .minimum_version_id = 2,
+ .fields = (VMStateField[]) {
+ VMSTATE_PCI_DEVICE(dev, EEPRO100State),
+ VMSTATE_UNUSED(32),
+ VMSTATE_BUFFER(mult, EEPRO100State),
+ VMSTATE_BUFFER(mem, EEPRO100State),
+ /* Save all members of struct between scb_stat and mem. */
+ VMSTATE_UINT8(scb_stat, EEPRO100State),
+ VMSTATE_UINT8(int_stat, EEPRO100State),
+ VMSTATE_UNUSED(3*4),
+ VMSTATE_MACADDR(conf.macaddr, EEPRO100State),
+ VMSTATE_UNUSED(19*4),
+ VMSTATE_UINT16_ARRAY(mdimem, EEPRO100State, 32),
+ /* The eeprom should be saved and restored by its own routines. */
+ VMSTATE_UINT32(device, EEPRO100State),
+ /* TODO check device. */
+ VMSTATE_UINT32(cu_base, EEPRO100State),
+ VMSTATE_UINT32(cu_offset, EEPRO100State),
+ VMSTATE_UINT32(ru_base, EEPRO100State),
+ VMSTATE_UINT32(ru_offset, EEPRO100State),
+ VMSTATE_UINT32(statsaddr, EEPRO100State),
+ /* Save eepro100_stats_t statistics. */
+ VMSTATE_UINT32(statistics.tx_good_frames, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_max_collisions, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_late_collisions, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_underruns, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_lost_crs, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_deferred, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_single_collisions, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_multiple_collisions, EEPRO100State),
+ VMSTATE_UINT32(statistics.tx_total_collisions, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_good_frames, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_crc_errors, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_alignment_errors, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_resource_errors, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_overrun_errors, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_cdt_errors, EEPRO100State),
+ VMSTATE_UINT32(statistics.rx_short_frame_errors, EEPRO100State),
+ VMSTATE_UINT32(statistics.fc_xmt_pause, EEPRO100State),
+ VMSTATE_UINT32(statistics.fc_rcv_pause, EEPRO100State),
+ VMSTATE_UINT32(statistics.fc_rcv_unsupported, EEPRO100State),
+ VMSTATE_UINT16(statistics.xmt_tco_frames, EEPRO100State),
+ VMSTATE_UINT16(statistics.rcv_tco_frames, EEPRO100State),
+ /* Configuration bytes. */
+ VMSTATE_BUFFER(configuration, EEPRO100State),
+ VMSTATE_END_OF_LIST()
+ }
+};
+
+static void pci_nic_uninit(PCIDevice *pci_dev)
+{
+ EEPRO100State *s = DO_UPCAST(EEPRO100State, dev, pci_dev);
+
+ vmstate_unregister(&pci_dev->qdev, s->vmstate, s);
+ eeprom93xx_free(&pci_dev->qdev, s->eeprom);
+ qemu_del_nic(s->nic);
+}
+
+static NetClientInfo net_eepro100_info = {
+ .type = NET_CLIENT_OPTIONS_KIND_NIC,
+ .size = sizeof(NICState),
+ .receive = nic_receive,
+};
+
+static void e100_nic_realize(PCIDevice *pci_dev, Error **errp)
+{
+ EEPRO100State *s = DO_UPCAST(EEPRO100State, dev, pci_dev);
+ E100PCIDeviceInfo *info = eepro100_get_class(s);
+
+ TRACE(OTHER, logout("\n"));
+
+ s->device = info->device;
+
+ e100_pci_reset(s);
+
+ /* Add 64 * 2 EEPROM. i82557 and i82558 support a 64 word EEPROM,
+ * i82559 and later support 64 or 256 word EEPROM. */
+ s->eeprom = eeprom93xx_new(&pci_dev->qdev, EEPROM_SIZE);
+
+ /* Handler for memory-mapped I/O */
+ memory_region_init_io(&s->mmio_bar, OBJECT(s), &eepro100_ops, s,
+ "eepro100-mmio", PCI_MEM_SIZE);
+ pci_register_bar(&s->dev, 0, PCI_BASE_ADDRESS_MEM_PREFETCH, &s->mmio_bar);
+ memory_region_init_io(&s->io_bar, OBJECT(s), &eepro100_ops, s,
+ "eepro100-io", PCI_IO_SIZE);
+ pci_register_bar(&s->dev, 1, PCI_BASE_ADDRESS_SPACE_IO, &s->io_bar);
+ /* FIXME: flash aliases to mmio?! */
+ memory_region_init_io(&s->flash_bar, OBJECT(s), &eepro100_ops, s,
+ "eepro100-flash", PCI_FLASH_SIZE);
+ pci_register_bar(&s->dev, 2, 0, &s->flash_bar);
+
+ qemu_macaddr_default_if_unset(&s->conf.macaddr);
+ logout("macaddr: %s\n", nic_dump(&s->conf.macaddr.a[0], 6));
+
+ nic_reset(s);
+
+ s->nic = qemu_new_nic(&net_eepro100_info, &s->conf,
+ object_get_typename(OBJECT(pci_dev)), pci_dev->qdev.id, s);
+
+ qemu_format_nic_info_str(qemu_get_queue(s->nic), s->conf.macaddr.a);
+ TRACE(OTHER, logout("%s\n", qemu_get_queue(s->nic)->info_str));
+
+ qemu_register_reset(nic_reset, s);
+
+ s->vmstate = g_malloc(sizeof(vmstate_eepro100));
+ memcpy(s->vmstate, &vmstate_eepro100, sizeof(vmstate_eepro100));
+ s->vmstate->name = qemu_get_queue(s->nic)->model;
+ vmstate_register(&pci_dev->qdev, -1, s->vmstate, s);
+}
+
+static void eepro100_instance_init(Object *obj)
+{
+ EEPRO100State *s = DO_UPCAST(EEPRO100State, dev, PCI_DEVICE(obj));
+ device_add_bootindex_property(obj, &s->conf.bootindex,
+ "bootindex", "/ethernet-phy@0",
+ DEVICE(s), NULL);
+}
+
+static E100PCIDeviceInfo e100_devices[] = {
+ {
+ .name = "i82550",
+ .desc = "Intel i82550 Ethernet",
+ .device = i82550,
+ /* TODO: check device id. */
+ .device_id = PCI_DEVICE_ID_INTEL_82551IT,
+ /* Revision ID: 0x0c, 0x0d, 0x0e. */
+ .revision = 0x0e,
+ /* TODO: check size of statistical counters. */
+ .stats_size = 80,
+ /* TODO: check extended tcb support. */
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82551",
+ .desc = "Intel i82551 Ethernet",
+ .device = i82551,
+ .device_id = PCI_DEVICE_ID_INTEL_82551IT,
+ /* Revision ID: 0x0f, 0x10. */
+ .revision = 0x0f,
+ /* TODO: check size of statistical counters. */
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82557a",
+ .desc = "Intel i82557A Ethernet",
+ .device = i82557A,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x01,
+ .power_management = false,
+ },{
+ .name = "i82557b",
+ .desc = "Intel i82557B Ethernet",
+ .device = i82557B,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x02,
+ .power_management = false,
+ },{
+ .name = "i82557c",
+ .desc = "Intel i82557C Ethernet",
+ .device = i82557C,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x03,
+ .power_management = false,
+ },{
+ .name = "i82558a",
+ .desc = "Intel i82558A Ethernet",
+ .device = i82558A,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x04,
+ .stats_size = 76,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82558b",
+ .desc = "Intel i82558B Ethernet",
+ .device = i82558B,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x05,
+ .stats_size = 76,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82559a",
+ .desc = "Intel i82559A Ethernet",
+ .device = i82559A,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x06,
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82559b",
+ .desc = "Intel i82559B Ethernet",
+ .device = i82559B,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+ .revision = 0x07,
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82559c",
+ .desc = "Intel i82559C Ethernet",
+ .device = i82559C,
+ .device_id = PCI_DEVICE_ID_INTEL_82557,
+#if 0
+ .revision = 0x08,
+#endif
+ /* TODO: Windows wants revision id 0x0c. */
+ .revision = 0x0c,
+#if EEPROM_SIZE > 0
+ .subsystem_vendor_id = PCI_VENDOR_ID_INTEL,
+ .subsystem_id = 0x0040,
+#endif
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82559er",
+ .desc = "Intel i82559ER Ethernet",
+ .device = i82559ER,
+ .device_id = PCI_DEVICE_ID_INTEL_82551IT,
+ .revision = 0x09,
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ .name = "i82562",
+ .desc = "Intel i82562 Ethernet",
+ .device = i82562,
+ /* TODO: check device id. */
+ .device_id = PCI_DEVICE_ID_INTEL_82551IT,
+ /* TODO: wrong revision id. */
+ .revision = 0x0e,
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ },{
+ /* Toshiba Tecra 8200. */
+ .name = "i82801",
+ .desc = "Intel i82801 Ethernet",
+ .device = i82801,
+ .device_id = 0x2449,
+ .revision = 0x03,
+ .stats_size = 80,
+ .has_extended_tcb_support = true,
+ .power_management = true,
+ }
+};
+
+static E100PCIDeviceInfo *eepro100_get_class_by_name(const char *typename)
+{
+ E100PCIDeviceInfo *info = NULL;
+ int i;
+
+ /* This is admittedly awkward but also temporary. QOM allows for
+ * parameterized typing and for subclassing both of which would suitable
+ * handle what's going on here. But class_data is already being used as
+ * a stop-gap hack to allow incremental qdev conversion so we cannot use it
+ * right now. Once we merge the final QOM series, we can come back here and
+ * do this in a much more elegant fashion.
+ */
+ for (i = 0; i < ARRAY_SIZE(e100_devices); i++) {
+ if (strcmp(e100_devices[i].name, typename) == 0) {
+ info = &e100_devices[i];
+ break;
+ }
+ }
+ assert(info != NULL);
+
+ return info;
+}
+
+static E100PCIDeviceInfo *eepro100_get_class(EEPRO100State *s)
+{
+ return eepro100_get_class_by_name(object_get_typename(OBJECT(s)));
+}
+
+static Property e100_properties[] = {
+ DEFINE_NIC_PROPERTIES(EEPRO100State, conf),
+ DEFINE_PROP_END_OF_LIST(),
+};
+
+static void eepro100_class_init(ObjectClass *klass, void *data)
+{
+ DeviceClass *dc = DEVICE_CLASS(klass);
+ PCIDeviceClass *k = PCI_DEVICE_CLASS(klass);
+ E100PCIDeviceInfo *info;
+
+ info = eepro100_get_class_by_name(object_class_get_name(klass));
+
+ set_bit(DEVICE_CATEGORY_NETWORK, dc->categories);
+ dc->props = e100_properties;
+ dc->desc = info->desc;
+ k->vendor_id = PCI_VENDOR_ID_INTEL;
+ k->class_id = PCI_CLASS_NETWORK_ETHERNET;
+ k->romfile = "pxe-eepro100.rom";
+ k->realize = e100_nic_realize;
+ k->exit = pci_nic_uninit;
+ k->device_id = info->device_id;
+ k->revision = info->revision;
+ k->subsystem_vendor_id = info->subsystem_vendor_id;
+ k->subsystem_id = info->subsystem_id;
+}
+
+static void eepro100_register_types(void)
+{
+ size_t i;
+ for (i = 0; i < ARRAY_SIZE(e100_devices); i++) {
+ TypeInfo type_info = {};
+ E100PCIDeviceInfo *info = &e100_devices[i];
+
+ type_info.name = info->name;
+ type_info.parent = TYPE_PCI_DEVICE;
+ type_info.class_init = eepro100_class_init;
+ type_info.instance_size = sizeof(EEPRO100State);
+ type_info.instance_init = eepro100_instance_init;
+
+ type_register(&type_info);
+ }
+}
+
+type_init(eepro100_register_types)
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