mongoose/mip/driver_w5500.c

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#include "mip.h"
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#if MG_ENABLE_MIP
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enum { W5500_CR = 0, W5500_S0 = 1, W5500_TX0 = 2, W5500_RX0 = 3 };
static void w5500_txn(struct mip_spi *s, uint8_t block, uint16_t addr, bool wr,
void *buf, size_t len) {
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uint8_t *p = buf, cmd[] = {(uint8_t) (addr >> 8), (uint8_t) (addr & 255),
(uint8_t) ((block << 3) | (wr ? 4 : 0))};
s->begin(s->spi);
for (size_t i = 0; i < sizeof(cmd); i++) s->txn(s->spi, cmd[i]);
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for (size_t i = 0; i < len; i++) {
uint8_t r = s->txn(s->spi, p[i]);
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if (!wr) p[i] = r;
}
s->end(s->spi);
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}
// clang-format off
static void w5500_wn(struct mip_spi *s, uint8_t block, uint16_t addr, void *buf, size_t len) { w5500_txn(s, block, addr, true, buf, len); }
static void w5500_w1(struct mip_spi *s, uint8_t block, uint16_t addr, uint8_t val) { w5500_wn(s, block, addr, &val, 1); }
static void w5500_w2(struct mip_spi *s, uint8_t block, uint16_t addr, uint16_t val) { uint8_t buf[2] = {(uint8_t) (val >> 8), (uint8_t) (val & 255)}; w5500_wn(s, block, addr, buf, sizeof(buf)); }
static void w5500_rn(struct mip_spi *s, uint8_t block, uint16_t addr, void *buf, size_t len) { w5500_txn(s, block, addr, false, buf, len); }
static uint8_t w5500_r1(struct mip_spi *s, uint8_t block, uint16_t addr) { uint8_t r = 0; w5500_rn(s, block, addr, &r, 1); return r; }
static uint16_t w5500_r2(struct mip_spi *s, uint8_t block, uint16_t addr) { uint8_t buf[2] = {0, 0}; w5500_rn(s, block, addr, buf, sizeof(buf)); return (uint16_t) ((buf[0] << 8) | buf[1]); }
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// clang-format on
static size_t w5500_rx(void *buf, size_t buflen, void *data) {
struct mip_spi *s = (struct mip_spi *) data;
uint16_t r = 0, n = 0, len = (uint16_t) buflen, n2; // Read recv len
while ((n2 = w5500_r2(s, W5500_S0, 0x26)) > n) n = n2; // Until it is stable
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// printf("RSR: %d\n", (int) n);
if (n > 0) {
uint16_t ptr = w5500_r2(s, W5500_S0, 0x28); // Get read pointer
n = w5500_r2(s, W5500_RX0, ptr); // Read frame length
if (n <= len + 2) r = n - 2, w5500_rn(s, W5500_RX0, ptr + 2, buf, r);
w5500_w2(s, W5500_S0, 0x28, ptr + n); // Advance read pointer
w5500_w1(s, W5500_S0, 1, 0x40); // Sock0 CR -> RECV
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// printf(" RX_RD: tot=%u n=%u r=%u\n", n2, n, r);
}
return r;
}
static size_t w5500_tx(const void *buf, size_t buflen, void *data) {
struct mip_spi *s = (struct mip_spi *) data;
uint16_t n = 0, len = (uint16_t) buflen;
while (n < len) n = w5500_r2(s, W5500_S0, 0x20); // Wait for space
uint16_t ptr = w5500_r2(s, W5500_S0, 0x24); // Get write pointer
w5500_wn(s, W5500_TX0, ptr, (void *) buf, len); // Write data
w5500_w2(s, W5500_S0, 0x24, ptr + len); // Advance write pointer
w5500_w1(s, W5500_S0, 1, 0x20); // Sock0 CR -> SEND
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for (int i = 0; i < 40; i++) {
uint8_t ir = w5500_r1(s, W5500_S0, 2); // Read S0 IR
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if (ir == 0) continue;
// printf("IR %d, len=%d, free=%d, ptr %d\n", ir, (int) len, (int) n, ptr);
w5500_w1(s, W5500_S0, 2, ir); // Write S0 IR: clear it!
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if (ir & 8) len = 0; // Timeout. Report error
if (ir & (16 | 8)) break; // Stop on SEND_OK or timeout
}
return len;
}
static bool w5500_init(uint8_t *mac, void *data) {
struct mip_spi *s = (struct mip_spi *) data;
s->end(s->spi);
w5500_w1(s, W5500_CR, 0, 0x80); // Reset chip: CR -> 0x80
w5500_w1(s, W5500_CR, 0x2e, 0); // CR PHYCFGR -> reset
w5500_w1(s, W5500_CR, 0x2e, 0xf8); // CR PHYCFGR -> set
// w5500_wn(s, W5500_CR, 9, s->mac, 6); // Set source MAC
w5500_w1(s, W5500_S0, 0x1e, 16); // Sock0 RX buf size
w5500_w1(s, W5500_S0, 0x1f, 16); // Sock0 TX buf size
w5500_w1(s, W5500_S0, 0, 4); // Sock0 MR -> MACRAW
w5500_w1(s, W5500_S0, 1, 1); // Sock0 CR -> OPEN
return w5500_r1(s, W5500_S0, 3) == 0x42; // Sock0 SR == MACRAW
(void) mac;
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}
static bool w5500_up(void *data) {
uint8_t phycfgr = w5500_r1((struct mip_spi *) data, W5500_CR, 0x2e);
return phycfgr & 1; // Bit 0 of PHYCFGR is LNK (0 - down, 1 - up)
}
struct mip_driver mip_driver_w5500 = {
.init = w5500_init, .tx = w5500_tx, .rx = w5500_rx, .up = w5500_up};
#endif